In this paper, we hypothesize that X chromosome-associated mechanisms, which affect X-linked genes and are behind the immunological advantage of females, may also affect X-linked microRNAs. The human X chromosome contains 10% of all microRNAs detected so far in the human genome. Although the role of most of them has not yet been described, several X chromosome-located microRNAs have important functions in immunity and cancer. We therefore provide a detailed map of all described microRNAs located on human and mouse X (...) chromosomes, and highlight the ones involved in immune functions and oncogenesis. The unique mode of inheritance of the X chromosome is ultimately the cause of the immune disadvantage of males and the enhanced survival of females following immunological challenges. How these aspects influence X-linked microRNAs will be a challenge for researchers in the coming years, not only from an evolutionary point of view, but also from the perspective of disease etiology. (shrink)

A central problem for the international governance of heritable germline gene editing is that there are important differences in attitudes and values as well as ethical and health care considerations around the world. These differences are reflected in a complicated and diverse regulatory landscape. Several publications have discussed whether reproductive uses would be legally permissible in individual countries and whether clinical applications could emerge in the context of regulatory gaps and gray areas. Systematic comparative studies that explore issues related (...) to the governance of this technology from different national and international perspectives are needed to address the lack of knowledge in this area. In this research report, we contribute to filling this gap by presenting views of stakeholders in the United Kingdom on challenges to the governance of heritable genome editing. We present findings from a multistakeholder study conducted in the United Kingdom between October 2016 and January 2018 and funded by the Wellcome Trust. This research included interviews, literature analysis, and a workshop. We involved leading U.K. scientists, in vitro fertilization clinicians, and representatives from regulatory bodies, patient organizations, and other civil societal organizations, as well as fertility companies. Part one of this article explores stakeholder perceptions of possible global developments in heritable genome editing and associated risks and governance challenges. Part two presents a range of policy options that were generated during the workshop in relation to the challenges discussed in part one. (shrink)

Interventions in the human germline have been regarded as a red line in genetic engineering up to now. However, with the recent progress in genome editing techniques, first and foremost CRISPR-based methods, the tide seems to be turning. The therapeutic benefits in particular are brought forward as an argument in favor of germline genome editing. According to this view, the main benefit of GGE is disease prevention. The procedure could be used to prevent monogenetic conditions for which no treatment is (...) available so far. This leads many commentators to the view that the benefits of GGE outweigh the risks. In this article, I examine the status and ethical implications of GGE as a means of disease prevention. I intend to show that the notion of GGE as disease prevention is only true for one specific application. Instead of being preventive treatments, most applications of GGE are advanced techniques of assisted reproduction. As such, they can be thought of as wish-fulfilling medicine, that is the use of medical techniques for non-medically indicated purposes. Thus, it is necessary to reconsider the risk-benefit analysis of GGE for most of its applications. (shrink)

Human genetic and genomic research can yield information that may be of clinical relevance to the individuals who participate as subjects of the research. It has been common practice among researchers to notify participants during the informed consent process that no individual results will be disclosed, “incidental” or otherwise. However, as genetic information obtained in research becomes orders of magnitude more voluminous, increasingly accessible online, and more informative, this precedent may no longer be appropriate. There is not yet consensus (...) on the responsibilities of researchers to disclose individual research results to research participants. Empirical research suggests that participants want to know individual research results. On the other hand, the increased resolution and power aforded by new genomic analyses may lead to fndings of statistical, but not necessarily clinical, signifcance. This paper addresses the issues to be considered in deciding whether and how to disclose “incidental” fndings or other fndings of clinical signifcance that arise in the course of human genomic and genetic research. What research results should be ofered, and what should not be ofered? For which research should individual results be ofered to research participants, when should they be ofered, how, and to whom? (shrink)

Human genetic and genomic research can yield information that may be of clinical relevance to the individuals who participate as subjects of the research. However, no consensus exists as yet on the responsibilities of researchers to disclose individual research results to participants in human subjects research. “Genetic and genomic research” on humans varies widely, including association studies, examination of allele frequencies, and studies of natural selection, human migration, and genetic variation. For the purposes of this article, it is (...) defined broadly to include analysis of DNA collected from humans that has implications for human health. This paper addresses both research results of individual research participants that may be an intended product of the research, as well as unanticipated, “incidental” findings. (shrink)

Modern biology has been heavily influenced by the gene‐centric concept. Paradoxically, this very concept – on which bioresearch is based – is challenged by the success of gene‐based research in terms of explaining evolutionary theory. To overcome this major roadblock, it is essential to establish new theories, to not only solve the key puzzles presented by the gene‐centric concept, but also to provide a conceptual framework that allows the field to grow. This paper discusses a number of paradoxes and illustrates (...) how they can be addressed by the genome‐centric concept in order to further resynthesize evolutionary theory. In particular, methodological breakthroughs that analyze genome evolution are discussed. The multiple interactions among different levels of a complex system provide the key to understanding the relationship between self‐organization and natural selection. Darwinian natural selection applies to the biological level due to its unique genetic and heterogeneous features, but does not simply or directly apply to either the lower non‐living level or higher intellectual society level. At the complex bio‐system level, the genome context (the entire package of genes and their genomic physical relationship or genomic topology), not the individual genes, defines the system and serves as the principle selection platform for evolution. (shrink)

An increasing number of European research projects return, or plan to return, individual genomic research results (IRR) to participants. While data access is a data subject’s right under the General Data Protection Regulation (GDPR), and many legal and ethical guidelines allow or require participants to receive personal data generated in research, the practice of returning results is not straightforward and raises several practical and ethical issues. Existing guidelines focusing on return of IRR are mostly project-specific, only discuss which results (...) to return, or were developed outside Europe. To address this gap, we analysed existing normative documents identified online using inductive content analysis. We used this analysis to develop a checklist of steps to assist European researchers considering whether to return IRR to participants. We then sought feedback on the checklist from an interdisciplinary panel of European experts (clinicians, clinical researchers, population-based researchers, biobank managers, ethicists, lawyers and policy makers) to refine the checklist. The checklist outlines seven major components researchers should consider when determining whether, and how, to return results to adult research participants: 1) Decide which results to return; 2) Develop a plan for return of results; 3) Obtain participant informed consent; 4) Collect and analyse data; 5) Confirm results; 6) Disclose research results; 7) Follow-up and monitor. Our checklist provides a clear outline of the steps European researchers can follow to develop ethical and sustainable result return pathways within their own research projects. Further legal analysis is required to ensure this checklist complies with relevant domestic laws. (shrink)

Genome editing is revolutionising the field of genetics, which includes novel applications to food animals. Responsible research and innovation has been advocated as a way of ensuring that a wider-range of stakeholders and publics are able to engage with new and emerging technologies to inform decision making from their perspectives and values. We posit that genome editing is now proceeding at such a fast rate, and in so many different directions, such as to overwhelm attempts to achieving a more reflective (...) pace. An alternative location for reflection is during the much slower process of taking products from the lab to market. We suggest emphasising Responsible Innovation, putting the ‘I’ back into RRI, and encouraging companies to embrace an RRI approach. We review some previous attempts at developing industry-relevant frameworks for RRI. We then describe two examples of genome editing in livestock; hornless cattle and disease resistant pigs, and reflect on the sorts of questions that could be considered in these two genome editing examples. This paper seeks to take forward the discussion on RRI by extending it to bringing products to market in the context of genome edited livestock. (shrink)

How should we regulate genome editing in the face of persistent substantive disagreement about the moral status of this technology and its applications? In this paper, we aim to contribute to resolving this question. We first present two diametrically opposed possible approaches to the regulation of genome editing. A first approach, which we refer to as “elitist,” is inspired by Joshua Greene’s work in moral psychology. It aims to derive at an abstract theoretical level what preferences people would have if (...) they were committed to implementing public policies regulating genome editing in a context of ethical pluralism. The second approach, which we refer to as the democratic approach, defended by Francoise Baylis and Sheila Jasanoff et al., emphasizes the importance of including the public’s expressed attitudes in the regulation of genome editing. After pointing out a serious shortcoming with each of these approaches, we propose our own favored approach—the “enlightened democracy” approach—which attempts to combine the strengths of the elitist and democratic approaches while avoiding their weaknesses. (shrink)

Recent discussions of genomics and international justice have adopted the concept of ‘global public goods’ to support both the view of genomics as a benefit and the sharing of genomics knowledge across nations. Such discussion relies on a particular interpretation of the global public goods argument, facilitated by the ambiguity of the concept itself. Our aim in this article is to demonstrate this by a close examination of the concept of global public goods with particular reference to its use in (...) the context of genomic databases. We contend that the argument for construing genomics as a global public good depends on seeing it as a natural good by focusing on features intrinsic to genomics knowledge. We shall argue that social and political arrangements are relevant and that recognising this opens the door to construing the use of global public goods language as a strategic one. (shrink)

How may emergent biotechnologies impact upon our relations with other animals? To what extent are any changes indicative of new relations between society and nature? This paper critically explores which sociological tools can contribute to an understanding of the technologisation of animal bodies. By drawing upon interview data with animal scientists I argue that such technologies are being partly shaped by broader changes in agriculture. The complexity of genomics trajectories in animal science is partly fashioned through the deligitimisation of the (...) productivist paradigm but continue to sit in tension around particular conceptions of sustainability in farm animal production.In spite of this deligitimisation process genomics is now being framed in the context of a new productivism (termed the livestock revolution) bound up in projected global changes in animal consumption during the first half of the 21st century. This potentially jars against both social trends that seek to re-enchant animal life and sustainability discourses which include social and environmental contexts. Nevertheless the possibility of a new productivism is supported by various interconnected trends including the emergence of a discourse of the 'bioeconomy' and a liberal regulatory apparatus for farm animal breeding technologies. Ultimately an understanding of the possibility of emerging new bio-capitalisations on animal life should be set in a broader context of competing agricultural paradigms as well as ongoing tensions over 'naturalness' in human/animal relations. (shrink)

BackgroundGenetic testing presents unique ethical challenges for research and clinical practice, particularly in low-resource settings. To address such challenges, context-specific understanding of ethical, legal and social issues is essential. Return of genetics and genomics research (GGR) results remains an unresolved yet topical issue particularly in African settings that lack appropriate regulation and guidelines. Despite the need to understand what is contextually acceptable, there is a paucity of empirical research and literature on what constitutes appropriate practice with respect to GGR.The (...) study assessed patients’ awareness, experiences and perceptions regarding genetic testing and the return of GGR results in a hypothetical context.MethodsThis cross-sectional study employed a qualitative exploratory approach. Respondents were patients attending the medical outpatient unit of Mulago National Hospital. Three deliberative focus group discussions involving 18 respondents were conducted. Data were analysed through thematic analysis.ResultsThree main themes and several subthemes were identified. Most respondents were aware of genetic testing, supportive of GGR and receiving results. However, only a few had undergone genetic testing due to cost constraints. They articulated the need for adequate information and genetic counselling to inform decision-making. Privacy of results was important to respondents while others were willing to share results.ConclusionThere was general awareness and support for GGR and the return of results. Stigmatisation emerged as a barrier to disclosure of results for some. Global health inequity impacts access and affordability of genetic testing and counselling in Africa and should be addressed as a matter of social justice. (shrink)

Germline genome editing is often disapproved of at the international policy level because of its possible threats to human dignity. However, from a critical perspective the relationship between this emerging technology and human dignity is relatively understudied. We explore the main principles that are referred to when 'human dignity' is invoked in this context; namely, the link with eugenics, the idea of a common genetic heritage, the principle of equal birth and broader equality and justice concerns. Yet the concept (...) is also used in favour of germline genome editing as it might improve the overall well-being of future generations. We conclude that dignity concerns do not justify a complete ban on safe heritable genome editing but should inform the implementation of side constraints to ensure that the value judgements about human traits that are inherent in this practice do not result in a diminished basic respect for those people affected by them. (shrink)

Natural genome editing from a biocommunicative perspective is the competent agent-driven generation and integration of meaningful nucleotide sequences into pre-existing genomic content arrangements, and the ability to (re-)combine and (re-)regulate them according to context-dependent (i.e. adaptational) purposes of the host organism. Natural genome editing integrates both natural editing of genetic code and epigenetic marking that determines genetic reading patterns. As agents that edit genetic code and epigenetically mark genomic structures, viral and subviral agents have been suggested because (...) they may be evolutionarily older than cellular life. This hypothesis that viruses and viral-like agents edit genetic code is developed according to three well investigated examples that represent key evolutionary inventions in which non-lytic viral swarms act symbiotically in a persistent lifestyle within cellular host genomes: origin of eukaryotic nucleus, adaptive immunity, placental mammals. Additionally an abundance of various RNA elements cooperate in a variety of steps and substeps as regulatory and catalytic units with multiple competencies to act on the genetic code. Most of these RNA agents such as transposons, retroposons and small non-coding RNAs act consortially and are remnants of persistent viral infections that now act as co-opted adaptations in cellular key processes. (shrink)

The genomics “revolution” is spreading. Originating in the molecular life sciences, it initially affected a number of biomedical research fields such as cancer genomics and clinical genetics. Now, however, a new “wave” of genomic bioinformation is transforming a widening array of disciplines, including those that address the social, historical and cultural dimensions of human life. Increasingly, bioinformation is affecting “human sciences” such as psychiatry, psychology, brain research, behavioural research (“behavioural genomics”), but also anthropology and archaeology (“bioarchaeology”). Thus, bioinformatics is (...) having an impact on how we define and understand ourselves, how identities are formed and constituted, and, finally, on how we (on the basis of these redefined identities) assess and address some of the more concrete societal issues involved in genomics governance in various settings. This article explores how genomics and bioinformation, by influencing research agendas in the human sciences and the humanities, are affecting our self-image, our identity, the way we see ourselves. The impact of bioinformation on self-understanding will be assessed on three levels: (1) the collective level (the impact of comparative genomics on our understanding of human beings as a species), (2) the individual level (the impact of behavioural genomics on our understanding of ourselves as individuals), and (3) the genealogical level (the impact of population genomics on our understanding of human history, notably early human history). This threefold impact will be assessed from two seemingly incompatible philosophical perspectives, namely a “humanistic” perspective (represented in this article by Francis Fukuyama) and a “post-humanistic” one (represented by Peter Sloterdijk). On the basis of this analysis it will be concluded that, rather than focussing on human “enhancement” by adding or deleting genes, genome-oriented practices of the Self will focus on using genomics information in the context of identity-formation. Genomic bioinformation will increasingly be built into our self-images and used in order to tailor and adapt our practices of Self to our “personalised” genome. We will keep working on ourselves, no doubt, not by modifying our genomes, but rather by fine-tuning our behaviour. What we are experiencing is a bioinformatisation of the life-world. Genomics-based technologies will increasingly pervade our daily lives, our autobiographies and narratives, as well as our anthropologies, rather than our genomes as such. (shrink)

The cerebral cortex controls our most distinguishing higher cognitive functions. Human‐specific gene expression differences are abundant in the cerebral cortex, yet we have only begun to understand how these variations impact brain function. This review discusses the current evidence linking non‐coding regulatory DNA changes, including enhancers, with neocortical evolution. Functional interrogation using animal models reveals converging roles for our genome in key aspects of cortical development including progenitor cell cycle and neuronal signaling. New technologies, including iPS cells and organoids, offer (...) potential alternatives to modeling evolutionary modifications in a relevant species context. Several diseases rooted in the cerebral cortex uniquely manifest in humans compared to other primates, thus highlighting the importance of understanding human brain differences. Future studies of regulatory loci, including those implicated in disease, will collectively help elucidate key cellular and genetic mechanisms underlying our distinguishing cognitive traits. (shrink)

This essay examines issues involving personal privacy and informed consent that arise at the intersection of information and communication technology and population genomics research. I begin by briefly examining the ethical, legal, and social implications program requirements that were established to guide researchers working on the Human Genome Project. Next I consider a case illustration involving deCODE Genetics, a privately owned genetics company in Iceland, which raises some ethical concerns that are not clearly addressed in the current ELSI guidelines. The (...) deCODE case also illustrates some ways in which an ICT technique known as data mining has both aided and posed special challenges for researchers working in the field of population genomics. On the one hand, data-mining tools have greatly assisted researchers in mapping the human genome and in identifying certain “disease genes” common in specific populations. On the other hand, this technology has significantly threatened the privacy of research subjects participating in population genomics studies, who may, unwittingly, contribute to the construction of new groups that put those subjects at risk for discrimination and stigmatization. In the final section of this paper I examine some ways in which the use of data mining in the context of population genomics research poses a critical challenge for the principle of informed consent, which traditionally has played a central role in protecting the privacy interests of research subjects participating in epidemiological studies. (shrink)

It is becoming increasingly evident that the driving forces of evolutionary novelty are not randomly derived chance mutations of the genetic text, but a precise genome editing by omnipresent viral agents. These competences integrate the whole toolbox of natural genetic engineering, replication, transcription, translation, genomic imprinting, genomic creativity, enzymatic inventions and all types of genetic repair patterns. Even the non-coding, repetitive DNA sequences which were interpreted as being ancient remnants of former evolutionary stages are now recognized as being (...) of viral descent and crucial for higher-order regulatory and constitutional functions of protein structural vocabulary. In this article I argue that non-randomly derived natural genome editing can be envisioned as (a) combinatorial (syntactic), (b) context-specific (pragmatic) and (c) content-sensitive (semantic) competences of viral agents. These three-leveled biosemiotic competences could explain the emergence of complex new phenotypes in single evolutionary events. After short descriptions of the non-coding regulatory networks, major viral life strategies and pre-cellular viral life three of the major steps in evolution serve as examples: There is growing evidence that natural genome-editing competences of viruses are essential (1) for the evolution of the eukaryotic nucleus, (2) the adaptive immune system and (3) the placental mammals. (shrink)

Next‐generation sequencing (NGS) technologies have revolutionised the analysis of genomic structural variants (SVs), providing significant insights into SV de novo formation based on analyses of rearrangement breakpoint junctions. The short DNA reads generated by NGS, however, have also created novel obstacles by biasing the ascertainment of SVs, an aspect that we refer to as the ‘short‐read dilemma’. For example, recent studies have found that SVs are often complex, with SV formation generating large numbers of breakpoints in a single event (...) (multi‐breakpoint SVs) or structurally polymorphic loci having multiple allelic states (multi‐allelic SVs). This complexity may be obscured in short reads, unless the data is analysed and interpreted within its wider genomic context. We discuss how novel approaches will help to overcome the short‐read dilemma, and how integration of other sources of information, including the structure of chromatin, may help in the future to deepen the understanding of SV formation processes. (shrink)

High‐throughput DNA analyses are increasingly being used to detect rare mutations in moderately sized genomes. These methods have yielded genome mutation rates that are markedly higher than those obtained using pre‐genomic strategies. Recent work in a variety of organisms has shown that mutation rate is strongly affected by sequence context and genome position. These observations suggest that high‐throughput DNA analyses will ultimately allow researchers to identify trans‐acting factors and cis sequences that underlie mutation rate variation. Such work should (...) provide insights on how mutation rate variability can impact genome organization and disease progression. (shrink)

This year’s topic is “Genomics and Philosophy of Race.” Different researchers might work on distinct subsets of the six thematic clusters below, which are neither mutually exclusive nor collectively exhaustive: (1) Concepts of ‘Race’; (2) Mathematical Modeling of Human History and Population Structure; (3) Data and Technologies of Human Genomics; (4) Biological Reality of Race; (5) Racialized Selves in a Global Context; (6) Pragmatic Consequences of ‘Race Talk’ among Biologists.

Deriving ethical conclusions from arguments that rely heavily on metaphysical foundations, as Parfit (1984) does in generating his Nonidentity Problem, is an approach fraught with problems. Sparrow...

Genomics provides information on genetic susceptibility to diseases and new possibilities for interventions which can fundamentally alter the design of fair health policies. The aim of this paper is to explore implications of genomics from the perspective of equal opportunity ethics. The ideal of equal opportunity requires that individuals are held responsible for some, but not all, factors that affect their health. Informational problems, however, often make it difficult to implement the ideal of equal opportunity in the context of (...) healthcare. In this paper, examples are considered of how new genetic information may affect the way individual responsibility for choice is assigned. It is also argued that genomics may result in relocation of the responsibility cut by providing both new information and new technology. Finally, how genomics may affect healthcare policies and the market for health insurance is discussed. (shrink)

This focus issue considers the normative implications of the recent emergence in genome editing technology known as CRISPR (clustered regularly interspaced short palindromic repeats) or CRISPR‐associated protein 9. Originally discovered in the adaptive immune systems of bacteria and archaea, CRISPR enables researchers to make efficient and site‐specific modifications to the genomes of cells and organisms. More accessible, precise, and economic than previous gene editing technologies, CRISPR holds the promise of not only transforming the fields of genetics, agriculture, and human medicine, (...) but also heralding a new era of democratized biotechnology. However, the speed with which developments in the field have progressed threatens to overwhelm our normative sensibilities about the long‐term practical and ethical implications. The contributors to this focus issue attempt to think through some of the more salient moral and practical consequences of CRISPR in the context of religious ethics, particularly as they relate to themes of autonomy, human flourishing, social justice, and the ethics of enhancement. (shrink)

The introduction of novel diagnostic techniques in clinical domains such as genomics and radiology has led to a rich ethical debate on how to handle unsolicited findings that result from these innovations. Yet while unsolicited findings arise in both genomics and radiology, most of the relevant literature to date has tended to focus on only one of these domains. In this article, we synthesize and critically assess similarities and differences between “scanning the body” and “sequencing the genome” from an ethical (...) perspective. After briefly describing the novel diagnostic contexts leading to unsolicited findings, we synthesize and reflect on six core ethical issues that relate to both specialties: terminology; benefits and risks; autonomy; disclosure of unsolicited findings to children; uncertainty; and filters and routine screening. We identify ethical rationales that pertain to both fields and may contribute to more ethically sound policies. Considerations of preserving public trust and ensuring that people perceive healthcare policies as fair also support the need for a combined debate. (shrink)

In this article, I argue that genomic programs are not substitutes for multi-causal molecular mechanistic explanations of inheritance, but abstract representations of the same sort as mechanism schemas already described in the philosophical literature. On this account, the program analogy is not reductionistic and does not ignore or underestimate the active contribution of epigenetic elements to phenotypes and development. Rather, genomic program representations specifically highlight the genomic determinants of inheritance and their organizational features at work in the (...) wider context of the mechanisms of genome expression. (shrink)

Health research raises profound concerns of an ethical and legal nature — concerns primarily centered on how to balance researchers’ quest for scientific discovery against societal interest in protecting individuals whose participation makes the discovery possible. Particularly in a country such as Nigeria, which, not too long ago, suffered major abuse of research subjects, deploying a robust ethicolegal regime capable of curbing excesses and protecting research participants whilst contemporaneously not frustrating scientific progress is not an easy task. This is even (...) more critical in the context of novel scientific endeavors, such as biobanking and genomic research, particularly when a significant pool of potential donors are inadequately informed about the processes involved in their participation or the result. (shrink)

In recent years, with both the development of next‐generation sequencing approaches and the Supreme Court decision invalidating gene patents, declining costs have contributed to the emergence of a new model of hereditary cancer genetic testing. Multigene panel testing (or multiplex testing) involves using next‐generation sequencing technology to determine the sequence of multiple cancer‐susceptibility genes. In addition to high‐penetrance cancer‐susceptibility genes, multigene panels frequently include genes that are less robustly associated with cancer predisposition. Scientific understanding about associations between many specific moderate‐penetrance (...) gene variants and cancer risks is incomplete. The emergence of multigene panel tests has created unique challenges that may have meaningful psychosocial implications. Contrasted with the serial testing process, wherein patients consider the personal and clinical implications of each evaluated gene, with multigene panel testing, patients provide broad consent to whichever genes are included in a particular panel and then, after the test, receive in‐depth genetic counseling to clarify the distinct implications of their specific results. Consequently, patients undergoing multigene panel testing may have a less nuanced understanding of the test and its implications, and they may have fewer opportunities to self‐select against the receipt of particular types of genetic‐risk information. Evidence is conflicting regarding the emotional effects of this testing. (shrink)

What value does genomics hold for industry? Ten years after the White House Press conference where the human genome sequence was first presented, we ask in which ways and to what extent the developments in genomics have been integrated into industry. This enables us to assess whether this integration has been as successful as expected, but also which unexpected developments in genomics advances have triggered additional benefits for industry. Genomics has contributed to the beginning of a global transition to a (...) bio-based economy, but there have been and there still are hurdles to be cleared. The hurdles are not merely of a technological nature, since the objectives are a complex between economic progress, environmental and global climate concerns, and energy security. Therefore, they are at the same time technological, societal and environmental in nature. These categorisations fall short of articulating the many issues that arise, such as economic development (for emerging economies), public opinion formation and scientific and technological progress. We argue that to make this transition happen, industrialists, policy makers and the wider public have to be prepared to be more actively involved in the debate, weighing the pros and cons and taking responsibility in creating the desired sustainable world.This paper will examine the advances of genomics in the industrial context, the role of these advances in current attempts to find sustainable solutions to a variety of problems, the enthusiasm with which they have been picked up, the implications for industrial innovation and the accompanying discussion about possible consequential social and ethical issues. It will also sketch out the nature of this ongoing establishment of a bio-based economy, the parties that are currently at the negotiation table, and whether the current situation has an impact on the way societal debates emerge. (shrink)

The publication of the human genome has elicited commentary to the effect that, since fewer genes were identified than anticipated, it follows that genes are less important to human biology than anticipated. The flaws in this syllogism are explained in the context of a treatise on how genomes operate and evolve and how genes function to produce embryos and brains. Most of our most cherished human traits are the result of the emergence of new properties from preexisting genetically scripted (...) ideas, offering countless opportunities to celebrate the evolutionary process. (shrink)

In this article, I explore the ethical dimensions of same-sex reproduction achieved through epigenome editing—an innovative and transformative technique. For the first time, I analyse the potential normativity of this disruptive approach for reproductive purposes, focusing on its implications for lesbian couples seeking genetically related offspring. Epigenome editing offers a compelling solution to the complex ethical challenges posed by traditional gene editing, as it sidesteps genome modifications and potential long-term genetic consequences. The focus of this article is to systematically analyse (...) the bioethical issues related to the use of epigenome editing for same-sex reproduction. I critically assess the ethical acceptability of epigenome editing with reproductive purposes from multiple angles, considering harm perspectives, the comparison of ethical issues related to gene and epigenome editing, and feminist theories. This analysis reveals that epigenome editing emerges as an ethically acceptable means for lesbian couples to have genetically related children. Moreover, the experiments of a reproductive use of epigenome editing discussed in this article transcend bioethics, shedding light on the broader societal implications of same-sex reproduction. It challenges established notions of biological reproduction and prompts a reevaluation of how we define the human embryo, while poses some issues in the context of gender self-identification and family structures. In a world that increasingly values inclusivity and diversity, this article aims to reveal a progressive pathway for reproductive medicine and bioethics, as well as underscores the need for further philosophical research in this emerging and fertile domain. (shrink)

The exponential growth of genetic knowledge and precision medicine research raises hopes for improved prevention, diagnosis, and treatment options for children with behavioral and psychiatric conditions. Although well-intended, this prospect also raise the possibility — and concern — that behavioral, including psychiatric genetic data would be increasingly used — or misused — outside the clinical context, such as educational settings. Indeed, there are ongoing calls to endorse a “personalized education” model that would tailor educational interventions to children's behavioral and (...) psychiatric genetic makeup. This article explores the justifications for, and prospects and pitfalls of such endeavors. It considers the scientific challenges and highlights the ethical, legal, and social issues that will likely arise should behavioral genetic data become available and are routinely incorporated in student education records. These include: when to disclose students' behavioral and psychiatric genetic profile; whose genomic privacy is protected and by whom; and how students' genetic data may affect education-related decisions. I argue that the introduction of behavioral genetics in schools may overshadow the need to address underlying structural and environmental factors that increase the risk for psychiatric conditions of all students, and that the unregulated use of student behavioral genetic profiles may lead to unintended consequences that are detrimental for individuals, families and communities. Relevant stakeholders — from parents and students to health professionals, educators, and policy-makers — ought to consider these issues before we forge ahead with a genomically informed education system. (shrink)

Count Me In (CMI) was launched in 2015 as a patient-driven research initiative aimed at accelerating the study of cancer genomics through direct participant engagement, electronic consent and open-access data sharing. It is an example of a large-scale direct-to-patient (DTP) research project which has since enrolled thousands of individuals. Within the broad scope of ‘citizen science’, DTP genomics research is defined here as a specific form of ‘top-down’ research endeavour developed and overseen by institutions within the traditional human subjects research (...) context; in novel ways, it engages and recruits patients with defined diseases, consents them for medical information and biospecimens sharing, and stores and disseminates genomic information. Importantly, these projects simultaneously aim to empower participants in the research process while increasing sample size, particularly in rare disease states. Using CMI as a case study, this paper discusses how DTP genomics research raises new questions in the context of traditional human subjects research ethics, including issues surrounding participant selection, remote consent, privacy and return of results. It aims to demonstrate how current research ethics frameworks may be insufficient in this context, and that institutions, institutional review boards and investigators should be aware of these gaps and their role in ensuring the conduct of ethical, novel forms of research together with participants. Ultimately, a broader question is raised of whether the rhetoric of participatory genomics research advocates for an ethic of personal and social duty for contributing to the advancement of generalisable knowledge about health and disease. (shrink)

In 2015 a team of scientists used a new gene-editing technique called CRISPR-Cas9 to edit the genome of 86 non-viable human embryos. The experiment sparked a global debate on the ethics of gene editing. In this paper; I first review the key ethical issues that have been addressed in this debate. Although there is an emerging consensus now that research on the editing of human somatic cells for therapeutic purpose should be pursued further; the prospect of using gene-editing techniques for (...) the purpose of human enhancement has been met with strong criticism. The main thesis that I defend in this paper is that some of the most vocal objections recently raised against the prospect of genetic human enhancement are not justified. I put forward two arguments for the morality of genetic human enhancement. The first argument shows how the moral and legal framework within which we currently claim our procreative rights; especially in the context of IVF procedures; could be deployed in the assessment of the morality and legality of genetic human enhancement. The second argument calls into question the assumption that the average level of human cognitive performance should have a normative character. (shrink)

The view advanced by Madole & Harden falls back on the dogma of a gene as a DNA sequence that codes for a fixed product with an invariant function regardless of temporal and spatial contexts. This outdated perspective entrenches the metaphor of genes as static units of information and glosses over developmental complexities.

Background Inadequate knowledge among health care providers (HCPs) and parents of affected children limits the understanding and utility of secondary genetic findings (SFs) in under-represented populations in genomics research. SFs arise from deep DNA sequencing done for research or diagnostic purposes and may burden patients and their families despite their potential health importance. This study aims to evaluate the perspective of both groups regarding SFs and their choices in the return of results from genetic testing in the context of (...) orofacial clefts.Methods Using an online survey, we evaluated the experiences of 252 HCPs and 197 parents across participating cleft clinics in Ghana and Nigeria toward the return of SFs across several domains.Results Only 1.6% of the HCPs felt they had an expert understanding of when and how to incorporate genomic medicine into practice, while 50.0% agreed that all SFs should be returned to patients. About 95.4% of parents were willing to receive all the information from genetic testing (including SFs), while the majority cited physicians as their primary information source (64%).Conclusions Overall, parents and providers were aware that genetic testing could help in the clinical management of diseases. However, they cited a lack of knowledge about genomic medicine, uncertain clinical utility, and lack of available learning resources as barriers. The knowledge gained from this study will assist with developing guidelines and policies to guide providers on the return of SFs in sub-Saharan Africa and across the continent. (shrink)

The introduction of genomics and biobanking methodologies to the African research context has also introduced novel ways of doing science, based on values of sharing and reuse of data and samples. This shift raises ethical challenges that need to be considered when research is reviewed by ethics committees, relating for instance to broad consent, the feedback of individual genetic findings, and regulation of secondary sample access and use. Yet existing ethics guidelines and regulations in Africa do not successfully regulate (...) research based on sharing, causing confusion about what is allowed, where and when. In order to understand better the ethics regulatory landscape around genomic research and biobanking, we conducted a comprehensive analysis of existing ethics guidelines, policies and other similar sources. We sourced 30 ethics regulatory documents from 22 African countries. We used software that assists with qualitative data analysis to conduct a thematic analysis of these documents. Surprisingly considering how contentious broad consent is in Africa, we found that most countries allow the use of this consent model, with its use banned in only three of the countries we investigated. In a likely response to fears about exploitation, the export of samples outside of the continent is strictly regulated, sometimes in conjunction with regulations around international collaboration. We also found that whilst an essential and critical component of ensuring ethical best practice in genomics research relates to the governance framework that accompanies sample and data sharing, this was most sparingly covered in the guidelines. There is a need for ethics guidelines in African countries to be adapted to the changing science policy landscape, which increasingly supports principles of openness, storage, sharing and secondary use. Current guidelines are not pertinent to the ethical challenges that such a new orientation raises, and therefore fail to provide accurate guidance to ethics committees and researchers. (shrink)

The possible integration of genomic sequencing (including whole‐genome and whole‐exome sequencing) into the three contexts addressed in this special report—state‐mandated screening programs, clinical care, and direct‐to‐consumer services—raises related but distinct legal issues. This essay will outline the legal issues surrounding the integration of genomic sequencing into state newborn screening programs, parental rights to refuse and access sequencing for their newborns in clinical and direct‐to‐consumer care, and privacy‐related legal issues attending the use of sequencing in newborns.

This report is grounded in several social concepts: First, the primary goal of genetic testing should be to promote the well-being of the child. Second, the recognition that children are part of a network of family relationships supports an approach to potential conflicts that is not adversarial but, rather, emphasizes a deliberative process that seeks to promote the child's well-being within this context. Third, as children grow through successive stages of cognitive and moral development, parents and professionals should be (...) attentive to the child's increasing interest and ability to participate in decisions about his or her own welfare. (shrink)

This paper has been prepared from the perspective of the ESRC Genomics Policy & Research Forum, which has the particular mandate of linking social science research on genomics with ongoing public and policy debates. It is intended as a contribution to discussions about the future agenda for social scientific analyses of genomics. Given its scope, this paper is necessarily painted with a broad brush. It is presented in the hope that it can serve both as a useful reference for those (...) less familiar with the themes and foci of UK-based social science research about genomics and, for those more engaged in the field, as a foundation for discussions about the future social sciences agenda in this area. This paper has four parts. The first identifies the boundaries of the topic. It is suggested that the boundaries of genomics are properly regarded by social scientists as soft rather than hard, and as encompassing far more than genomics as narrowly understood. In the second part, the UK context for social science research is briefly described before proceeding to part three, which offers a survey of the major areas and patterns of research. This is organised by reference to the themes of globalisation, governance and regulation, and refers to 129 current or recently completed projects (surveyed during the winter of 2005) that address these themes. Part four proposes some appropriate areas for future research, drawing on and advancing what has been achieved thus far. Social scientific analyses of the nature and consequences of genomic science, it is claimed, have been crucially framed by the institutionalising of non-scientific considerations under the heading of ELSA/elsi (Ethical, Legal and Social Aspects/implications). It is suggested that an understanding of the limitations and consequences of this framing provides a vital starting point in considering future research agendas. (shrink)

Genomic research and biobanking present several ethical, social and cultural challenges, particularly when conducted in settings with limited scientific research capacity. One of these challenges is determining the model of consent that should support the sharing of human biological samples and data in the context of international collaborative research. In this paper, we report on the views of key research stakeholders in Ghana on what should count as good ethical practice when seeking consent for genomic research and (...) biobanking in Africa. This study was part of a multi-country qualitative case study conducted in three African countries: Ghana, Uganda and Zambia under the auspices of the Human Heredity and Health in Africa initiative. Our study suggests that while participants are willing to give consent for their samples and associated data to be used for future research purposes, they expect to receive feedback about the progress of the research and about the kinds of research being undertaken on their samples and data. These expectations need to be anticipated and discussed during the consent process which should be seen as part of an ongoing communication process throughout the research process. (shrink)

ABSTRACT Genomic research and biobanking present several ethical, social and cultural challenges, particularly when conducted in settings with limited scientific research capacity. One of these challenges is determining the model of consent that should support the sharing of human biological samples and data in the context of international collaborative research. In this paper, we report on the views of key research stakeholders in Ghana on what should count as good ethical practice when seeking consent for genomic research (...) and biobanking in Africa. This study was part of a multi-country qualitative case study conducted in three African countries: Ghana, Uganda and Zambia under the auspices of the Human Heredity and Health in Africa initiative (H3Africa). Our study suggests that while participants are willing to give consent for their samples and associated data to be used for future research purposes, they expect to receive feedback about the progress of the research and about the kinds of research being undertaken on their samples and data. These expectations need to be anticipated and discussed during the consent process which should be seen as part of an ongoing communication process throughout the research process. (shrink)

In lieu of an abstract, here is a brief excerpt of the content:Human Genome Research in an Interdependent WorldAlexander Morgan Capron (bio)This has been the year of agenda-setting conferences for the ambitious ELSI (ethical, legal and social issues) program of the Human Genome Project (HGP). But of the dozen or more major meetings of this sort held across the country, the one held at the National Institutes of Heakh (NIH) in Bethesda, MD, June 2-4, 1991, was distinctive in several respects.1As (...) its name implies, "Human Genome Research in an Interdependent World" was a global look at the issues raised by gene mapping and sequencing. Unlike previous conferences, however, this meeting looked beyond a comparative analysis of clinical and domestic legal issues, and concentrated on topics that may require responses on a truly international level if they are to be successfully resolved.The meeting's organizers gathered an impressive group of more than seventy participants from fifteen countries, including the first significant contingent of Soviet and Japanese scientists, physicians, and philosophers at an ELSI meeting. In addition to talks by the heads of the genome projects in the Soviet Union, Japan, and the United States, the meeting was keynoted by Dr. James Wyngaarden, director general of the Human Genome Organization (HUGO), and I had the honor of serving as its general chairman.The goal of the meeting was to consider an array of issues that scientists, philosophers, and lawyers from around the world suggested might have international significance, with an eye to deciding three things: (1) Does the issue deserve further attention? (2) Is the issue best addressed in an international or domestic context? and (3) Do structures exist to which the issue can be referred for resolution? In the final sessions, the entire group debated proposed resolutions on the various topics and narrowed the list needing further, intensive exploration.To provide an international framework for this process, the conference [End Page 247] established a Global Steering Committee on Ethical and Social Issues in Genome Research, which will coordinate the efforts of several task forces charged with refining the tentative resolutions adopted by the conference participants on June 4. The task forces are expected to be able to complete work on some topics by the time of the steering committee's first meeting, which was described by one participant as a "check point," probably within the coming year; on other topics, the task forces will provide interim reports and arrange to continue their analysis. Several topics—less complex or more embryonic—were referred directly to the steering committee. On all issues, a major objective will be to ascertain what existing or newly created structure or structures are capable of implementing the group's recommendations and then to monitor the issue to ensure that appropriate implementation is occurring.Issues to be Explored by Task ForcesInsurance and EmploymentWhile individuals may derive medically useful information from the expanded range of genetic tests that will flow from the HGP, they could also be harmed if test results become a basis for discrimination. An area of particular concern at the conference in Bethesda was whether genetic information should be used to decide eligibility for employment or the scope and cost of health and life insurance. The complexity of this issue is increased as barriers to worker migration fall (especially in Europe) and as more firms carry on business internationally. Furthermore, questions arise about the limits of required testing and whether individuals may decline to be informed of the results of tests.The task force will not only gather information on practices and legal standards throughout the world—especially in light of the differences among nations with regard to the linkage of employment and various forms of insurance—but will also examine international anti-discrimination laws as a possible means of supplementing domestic statutes and regulations. As a starting point, the Bethesda meeting agreed on a set of principles for the task force to refine.2ForensicsAlthough their legal status is not fully resolved, DNA tests are being used increasingly in judicial proceedings and civil and criminal investigations as a highly probative means to identify people. Most forensic uses of "DNA fingerprints" are domestic, but international cooperation among investigative bodies... (shrink)

Whole genome sequencing is quickly becoming more affordable and accessible, with the prospect of personal genome sequencing for under $1,000 now widely said to be in sight. The ethical issues raised by the use of this technology in the research context have received some significant attention, but little has been written on its use in the clinical context, and most of this analysis has been futuristic forecasting. This is problematic, given the speed with which whole genome sequencing technology (...) is likely to be incorporated into clinical care. This paper explores one particular subset of these issues: the implications of adopting this technology in the prenatal context without a good understanding of when and how it is useful. Prenatal whole genome sequencing differs from current prenatal genetic testing practice in a number of ethically relevant ways. Most notably, whole genome sequencing would radically increase the volume and scope of available prenatal genetic data. The wealth of new data could enhance reproductive decision‐making, promoting parents' freedom to make well‐informed reproductive decisions. We argue, however, that there is potential for prenatal whole genome sequencing to alter clinical practice in undesirable ways, especially in the short term. We are concerned that the technology could (1) change the norms and expectations of pregnancy in ways that complicate parental autonomy and informed decision‐making, (2) exacerbate the deleterious role that genetic determinism plays in child rearing, and (3) undermine children's future autonomy by removing the option of not knowing their genetic information without appropriate justification. (shrink)

BackgroundGenome-wide association studies (GWAS) provide a powerful means of identifying genetic variants that play a role in common diseases. Such studies present important ethical challenges. An increasing number of GWAS is taking place in lower income countries and there is a pressing need to identify the particular ethical challenges arising in such contexts. In this paper, we draw upon the experiences of the MalariaGEN Consortium to identify specific ethical issues raised by such research in Africa, Asia and Oceania.DiscussionWe explore ethical (...) issues in three key areas: protecting the interests of research participants, regulation of international collaborative genomics research and protecting the interests of scientists in low income countries. With regard to participants, important challenges are raised about community consultation and consent. Genomics research raises ethical and governance issues about sample export and ownership, about the use of archived samples and about the complexity of reviewing such large international projects. In the context of protecting the interests of researchers in low income countries, we discuss aspects of data sharing and capacity building that need to be considered for sustainable and mutually beneficial collaborations.SummaryMany ethical issues are raised when genomics research is conducted on populations that are characterised by lower average income and literacy levels, such as the populations included in MalariaGEN. It is important that such issues are appropriately addressed in such research. Our experience suggests that the ethical issues in genomics research can best be identified, analysed and addressed where ethics is embedded in the design and implementation of such research projects. (shrink)