The vertebrate adaptive immune system has well defined functions in maintaining tolerance to self‐tissues. Suppression of autoreactive T cells is dependent on the regulatory cytokine transforming growth factor‐β (TGF‐β) and regulatory T (Treg) cells, a distinct T cell lineage specified by the transcription factor Foxp3. Although TGF‐β promotes thymic Treg (tTreg) cell development by repressing T cell clonal deletion and peripheral Treg cell differentiation by inducing Foxp3 expression, a recent study shows that TGF‐β suppresses autoreactive T cells (...) independent of Foxp3+ Treg cells. These findings imply that as an ancestral growth factor family member, TGF‐β may have been co‐opted as a T cell‐intrinsic mechanism of self‐tolerance control to assist the evolutionary transition of vertebrate adaptive immunity. Later, perhaps in placental mammals upon their acquisition of a TGF‐β regulatory element in the Foxp3 locus, the TGF‐β pathway is further engaged to induce peripheral Treg cell differentiation and expand the scope of T cell tolerance control to innocuous foreign antigens. (shrink)

The Protein Ontology (PRO) is designed as a formal and principled Open Biomedical Ontologies (OBO) Foundry ontology for proteins. The components of PRO extend from a classification of proteins on the basis of evolutionary relationships at the homeomorphic level to the representation of the multiple protein forms of a gene, including those resulting from alternative splicing, cleavage and/or posttranslational modifications. Focusing specifically on the TGF-beta signaling proteins, we describe the building, curation, usage and dissemination of PRO. PRO provides a framework (...) for the formal representation of protein classes and protein forms in the OBO Foundry. It is designed to enable data retrieval and integration and machine reasoning at the molecular level of proteins, thereby facilitating cross-species comparisons, pathway analysis, disease modeling and the generation of new hypotheses. (shrink)

Cis‐regulatory elements govern gene expression programs to determine cell identity during development. Recently, the possibility that multiple enhancers are orchestrated in clusters of enhancers has been suggested. How these elements are arranged in the 3D space to control the activation of a specific promoter remains unclear. Our recent work revealed that the TGFβ pathway drives the assembly of enhancer clusters and precise gene activation during neurogenesis. We discovered that the TGFβ pathway coactivator JMJD3 was essential in maintaining these structures in (...) the 3D space. To do that, JMJD3 required an intrinsically disordered region involved in forming phase‐separated biomolecular condensates found in the enhancer clusters. Our data support the existence of a relationship between 3D‐conformation of the chromatin, biomolecular condensates, and TGFβ‐driven response during mammalian neurogenesis. In this review, we discuss how signaling (TGFβ), epigenetics (JMJD3), and biochemical properties (biomolecular condensates nucleation) are coordinated to modulate the genome structure to guarantee proper neural development. Moreover, we comment on the potential underlying mechanisms and implications of the enhancer‐mediated regulation. Finally, we point out the knowledge gaps that still need to be addressed. (shrink)

Defects of growth inhibitory pathways have an important role in disorders of cell growth and differentiation. The discovery of a mutation in one of the principle components of the transforming growth factor β (TGFβ) receptor system which is linked to a DNA repair defect(1) represents one possible mechanism of escape from negative regulatory influences acting upon cells. TGFβ is a pre‐eminent negative growth factor and this article discusses (1) the role of TGFβ in maintaining epithelial homeostasis; (2) how breakdown of (...) inhibitory pathways can promote neoplastic development; (3) the significance of a receptor defect in a negative signalling pathway; and (4) the potential therapeutic sequelae resulting from restoration of cellular responsiveness to TGFβ. (shrink)

ObjectiveThe scarcity of research on associations between inflammatory markers and symptoms of depression and anxiety during adolescence has yielded inconsistent results. Further, not all studies have controlled for potential confounders. We explored the associations between baseline inflammatory markers and psychological distress including moderators at follow-up in a Norwegian adolescent population sample.MethodsData was derived from 373 girls and 294 boys aged 15–18 years at baseline, in the Fit Futures Study, a large-scale 2-year follow-up study on adolescent health. Baseline data was gathered (...) from 2010 to 2011 and follow-up data from 2012 to 2013. Psychological distress was measured with Hopkins Symptom Checklist. Serum levels of the following inflammatory markers were measured: C-reactive protein, Interleukin 6, Transforming growth factor alpha, Tumor necrosis factor alpha variant 1, and variant 2. Independent associations between baseline inflammatory markers and HSCL-10 at follow-up were explored by linear regressions, in sex-stratified analyses.ResultsIn girls, analyses showed positive associations between all inflammatory markers and HSCL-10, except for TRANCE. However, all associations were non-significant in crude as well as in adjusted analyses. In boys, CRP and TGF-α showed significant associations with HSCL-10, that remained significant after adjustment. Additionally, moderators were found. In boys, CRP was associated with HSCL-10 in those with high body fat and those being physical inactive, and the association between TWEAK and HSCL-10 was dependent upon sleep duration.ConclusionThere were significant prospective associations between CRP, TFG-α, and HSCL-10 in boys aged 15–18 years at baseline. (shrink)

Ubiquitination of protein species in regulating signal transduction pathways is universally accepted as of fundamental importance for normal development, and defects in this process have been implicated in the progression of many human diseases. One pathway that has received much attention in this context is transforming growth factor‐beta (TGF‐β) signalling, particularly during the regulation of epithelial‐mesenchymal transition (EMT) and tumour progression. While E3‐ubiquitin ligases offer themselves as potential therapeutic targets, much remains to be unveiled regarding mechanisms that culminate in (...) their regulation. With this in mind, the focus of this review highlights the regulation of the ubiquitination pathway and the significance of a recently described group of NEDD4 E3‐ubiquitin ligase isoforms in the context of TGF‐β pathway regulation. Moreover, we now broaden these observations to incorporate a growing number of protein isoforms within the ubiquitin ligase superfamily as a whole, and discuss their relevance in defining a new ‘iso‐ubiquitinome’. (shrink)

Signaling through both the transforming growth factor β (TGFβ) superfamily of growth factors and Notch play crucial roles during embryonic pattern formation and cell fate determination. Although both pathways are able to exert similar biological responses in certain cell types, a functional interaction between these two signaling pathways has not been described. Now, three papers provide evidence of both synergy and antagonism between TGFβ and Notch signaling.1-3 These reports describe a requirement for Notch signal transducers in TGFβ- and BMP-induced expression (...) of Notch target genes, as well as in BMP-controlled cell differentiation and migration. These papers uncover a direct link between the Notch and TGFβ pathways and suggest a critical role for Notch in some of the biological responses to TGFβ family signaling. BioEssays 27:115–118, 2005. © 2005 Wiley Periodicals, Inc. (shrink)

TGFβ signaling plays a central role in regulating a broad range of cellular responses in a variety of organisms. TGFβ signaling from the cell membrane to the nucleus is mediated by the Smad family of proteins. During the past five years of intense investigation, key events in TGFβ signaling have been documented at the molecular and cellular level. Recent structural studies have improved our understanding of how specificity is generated in the TGFβ signaling pathways. Despite this progress, significant questions remain (...) regarding the precise mechanisms of signaling and point to the urgent need for well-controlled biochemical studies. Rather than giving a comprehensive review on Smad-mediated TGFβ signaling, this review focuses on functional insights provided by recent structural studies and discusses several existing controversies. BioEssays 23:223–232, 2001. © 2001 John Wiley & Sons, Inc. (shrink)

The Transforming growth factor beta (TGF‐β) family of secreted proteins regulates a variety of key events in normal development and physiology. In mammals, this family, represented by 33 ligands, including TGF‐β, activins, nodal, bone morphogenetic proteins (BMPs), and growth and differentiation factors (GDFs), regulate biological processes as diverse as cell proliferation, differentiation, apoptosis, metabolism, homeostasis, immune response, wound repair, and endocrine functions. In Drosophila, only 7 members of this family are present, with 4 TGF‐β/BMP and 3 (...) class='Hi'>TGF‐β/activin ligands. Studies in the fly have illustrated the role of TGF‐β/BMP ligands during embryogenesis and organ patterning, while the TGF‐β/activin ligands have been implicated in the control of wing growth and neuronal functions. In this review, we focus on the emerging roles of Drosophila TGF‐β/activins in inter‐organ communication via long‐distance regulation, especially in systemic lipid and carbohydrate homeostasis, and discuss findings relevant to metabolic diseases in humans. -/- . (shrink)

The identification of Smad proteins as molecular components of the transforming growth factor-β (TGF-β) signaling cascade has enhanced our understanding of how ligand-mediated activation of TGF-β receptors leads to modulation of target gene transcription. Recent studies have identified a distinct, structurally related class of Smads which inhibits, rather than transduces, TGF-β family signals. The molecular mechanism of action and the exact signaling pathways that are targeted by antagonistic Smads are not completely understood. These proteins appear to participate in autoregulatory negative (...) feedback loops in which signaling initiated by specific TGF-β family ligands induces the expression of an inhibitory Smad that then functions to modulate the amplitude or duration of signaling. Negative feedback circuits such as these play important roles in fine-tuning the activity of multifunctional signaling molecules during embryonic patterning and in response to pathologic stimuli in adults. BioEssays 21:382–390, 1999. © 1999 John Wiley & Sons, Inc. (shrink)

Context can determine whether a given gene acts as an oncogene or a tumor suppressor. Deubiquitinating enzymes (DUBs) regulate the stability of many components of the pathways dictating cell fate so it would be expected that alterations in the levels or activity of these enzymes may have oncogenic or tumor suppressive consequences. In the current review we survey publications reporting that genes encoding DUBs are oncogenes or tumor suppressors. For many DUBs both claims have been made. For such “double agents,” (...) the effects of gain or loss of function will depend on the overall status of a complex of molecular signaling networks subject to extensive crosstalk. As the TGF‐β paradox makes clear context is critical in cell fate decisions, and the disconnect between experimental findings and patient survival outcomes can in part be attributed to disparities between culture conditions and the microenvironment in vivo. Convincing claims for oncogene or tumor suppressor roles require the documentation of gene alterations in patient samples; survival curves are alone inadequate. (shrink)

Recent findings in several organ systems show that cytoneme‐mediated signaling transports signaling proteins along cellular extensions and targets cell‐to‐cell exchanges to synaptic contacts. This mechanism of paracrine signaling may be a general one that is used by many (or all) cell types in many (or all) organs. We briefly review these findings in this perspective. We also describe the properties of several signaling systems that have previously been interpreted to support a passive diffusion mechanism of signaling protein dispersion, but can (...) now be understood in the context of the cytoneme mechanism.Also watch the Video Abstract. (shrink)

Transforming growth factor‐β (TGF‐β) and its related proteins regulate broad aspects of body development, including cell proliferation, differentiation, apoptosis and gene expression, in various organisms. Deregulated TGF‐β function has been causally implicated in the generation of human fibrotic disorders and in tumor progression. Nevertheless, the molecular mechanisms of TGF‐β action remained essentially unknown until recently. Here, we discuss recent progress in our understanding of the mechanism of TGF‐β signal transduction with respect to the regulation of gene (...) expression, the control of cell phenotype and the potential usage TGF‐β for the treatment of human diseases. (shrink)

Chaeremon is a shadowy figure in early fourth century tragedy, but one of considerable interest. I attempt here an appraisal of his work, in so far as the fragments and the ancient testimonia allow.I. BibliographyText of the fragments: Nauck, TGF 781–92; P. Hibeh ii 224.The only general assessments of Chaeremon of any extent date from the nineteenth century with its more expansive approach. Best is G. Bernhardy, Grundriss der griechischen Literatur ii 2 61–3, who there refers to the ‘sorgfältige Monographie’ (...) of H. Bartsch, De Chaeremone poeta tragico. Older literature is listed by A. Dieterich s.v. ‘Chairemon’, PW iii 2, 2025.Since Bernhardy the space accorded Chaeremon not just in general works but even in detailed studies of tragedy diminishes sharply. He still warrants a page or so in A. and M. Croiset, Histoire de la littérature grecque iii 402 f.; in Lesky he gets a brief mention, Geschichte 680. He is not mentioned by name in Lesky's Tragische Dichtung, and only in connection with fr. 2 by Pohlenz, Griechische Tragödie 407; he is ignored, for example, by Kitto, Greek Tragedy. (shrink)

Biomedical ontologies are emerging as critical tools in genomic and proteomic research where complex data in disparate resources need to be integrated. A number of ontologies exist that describe the properties that can be attributed to proteins; for example, protein functions are described by Gene Ontology, while human diseases are described by Disease Ontology. There is, however, a gap in the current set of ontologies—one that describes the protein entities themselves and their relationships. We have designed a PRotein Ontology (PRO) (...) to facilitate protein annotation and to guide new experiments. The components of PRO extend from the classification of proteins on the basis of evolutionary relationships to the representation of the multiple protein forms of a gene (products generated by genetic variation, alternative splicing, proteolytic cleavage, and other post-translational modification). PRO will allow the specification of relationships between PRO, GO and other OBO Foundry ontologies. Here we describe the initial development of PRO, illustrated using human proteins from the TGF-beta signaling pathway. (shrink)

Members of the transforming growth factor beta (TGFβ) family are pleiotropic cytokines with key roles in tissue morphogenesis and growth. TGFβ1, TGFβ2 and TGFβ3 are abundant in mammalian reproductive tissues, where development and cyclic remodelling continue in post‐natal and adult life. Potential roles for TGFβ have been identified in gonad and secondary sex organ development, spermatogenesis and ovarian function, immunoregulation of pregnancy, embryo implantation and placental development. However, better tools must now be employed to map more precisely essential functions and (...) the regulatory networks governing their activity. Gene ablation and transgenic models are expected to provide novel insights into distinct physiological activities for each TGFβ isoform in normal reproductive function and reproductive pathologies. It is also necessary to consider the mechanisms controlling TGFβ activation from latent precursor forms, and receptor and binding protein expression. Smad intracellular signalling circuitry and modulation by environmental stimuli through cross‐talk with other signal transduction pathways will further constrain TGFβ action. This review examines existing evidence for TGFβ1, TGFβ2 and TGFβ3 regulation of male and female reproductive biology, and highlights prospects for future research. BioEssays 24:904–914, 2002. © 2002 Wiley Periodicals, Inc. (shrink)

Branching morphogenesis of epithelia is an important mechanism in mammalian development. The last decade has seen the identification of many signalling pathways and intracellular mechanisms that control epithelial branching. Tissue‐level mechanisms that space new branches out have, however, remained an unsolved problem. A recent publication by Nelson et al.1 suggests—if extrapolation from their novel and abstract culture system is valid—that branches may be spaced out by a system of mutual inhibition based on diffusion of TGFβ. Such a system would allow (...) a developing tree to arrange itself, without detailed genetic specification, by adaptive self‐organization. BioEssays 29: 205–207, 2007. © 2007 Wiley Periodicals, Inc. (shrink)

Autophagy and YAP1‐WWTR1/TAZ signalling are tightly linked in a complex control system of forward and feedback pathways which determine different cellular outcomes in differing cell types at different time‐points after perturbations. Here we extend our previous experimental and modelling approaches to consider two possibilities. First, we have performed additional mathematical modelling to explore how the autophagy‐YAP1 crosstalk may be controlled by posttranslational modifications of components of the pathways. Second, since analogous contrasting results have also been reported for autophagy as a (...) regulator of other transduction pathways engaged in tumorigenesis (Wnt/β‐catenin, TGF‐β/Smads, NF‐kB or XIAP/cIAPs), we have considered if such discrepancies may be explicable through situations involving competing pathways and feedback loops in different cell types, analogous to the autophagy‐YAP/TAZ situation. Since distinct posttranslational modifications dominate those pathways in distinct cells, these need to be understood to enable appropriate cell type‐specific therapeutic strategies for cancers and other diseases. (shrink)

Members of the astacin family of metalloproteinases such as human bone morphogenetic protein 1 (BMP‐1) have previously been linked to cell differentiation and pattern formation during development through a proposed role in the activation of latent growth factors of the TGF‐β superfamily. Recent finding(1) indicate that BMP‐1 is identical to pro‐collagen C‐proteinase, which is a metalloproteinase involved in extracellular matrix (ECM) formation. This observation suggests that a functional link may exist between astacin metalloproteinases, growth factors and cell differentiation and (...) pattern formation during development. Taken together, current studies indicate that BMP‐1 and possibly other astacin metalloproteinases are multifunctional enzymes that act directly on growth factors and the ECM. In combination, these dual actions would have profound effects on developmental processes. (shrink)

Langerhans cells (LCs), residing in the epidermis, are able to induce potent immunogenic responses and also to mediate immune tolerance. We propose that tolerogenic and immunogenic responses of LCs are directed by signaling from the epidermis and involve counter‐acting gene circuits that are coupled to a core maturation gene module. We base our analysis on recent genetic and genomic findings facilitating the understanding of the molecular mechanisms controlling these divergent immune functions. Comparing gene regulatory network (GRN) analyses of various types (...) of dendritic cells (DCs) including LCs we integrate signaling‐dependent (TGFβ, EpCAM, β‐Catenin) and transcription factor (IRF4, IRF1, NFκB) regulated gene circuits that appear to orchestrate the distinctive LC functional states. Our model proposes, that while epidermal signaling in the steady‐state promotes LC tolerogenic function, the disruption of cell‐cell contacts coupled with inflammatory signaling induces LC immunogenic programing. The conceptual framework emphasizes the sensing of discrete epidermal and inflammatory cues by resident LCs in dictating their genomic programing and cell state dynamics. (shrink)

Bone morphogenetic proteins (BMPs) are typically members of the transforming growth factor β (TGF-β) family with diverse roles in embryonic development. At least five genes with homology to BMPs are expressed during Xenopus development, along with their receptors and intracellular signalling pathways. The evidence suggests that BMPs have roles to play in both mesoderm induction and dorsoventral patterning. Studies in Xenopus have also identified a number of inhibitory binding proteins for the classical BMPs, encoded by genes such as chordin and (...) noggin. These proteins appear to be responsible for establishing a morphogen gradient of BMP4 activity, which specifies different dorsoventral fates in early gastrulae. An emerging theme is that inhibition of BMP signalling is an important mechanism regulating cell fate decisions in early development. BioEssays 21:751–760, 1999. © 1999 John Wiley & Sons, Inc. (shrink)

In Xenopus, as in all amphibians and possibly in vertebrate embryos in general, mesoderm formation and the establishment of the dorsoventral axis depend on inductive cell interactions. Molecules involved in mesoderm induction include FGF which acts predominantly as a ventrolateral inducer, the TGF‐β homolog activin which can induce all types of mesoderm, and members of the Wnt family which have powerful dorsalizing effects. Early effects of inducer action include the activation of regulatory genes. Among such genes, particular interest is (...) focused on three genes encoding putative transcription factors that are expressed specifically in the Spemann organizer region of the gastrula. Expression of one of these genes, goosecoid, has been shown to be sufficient to elicit the formation of a dorsal axis including head and notochord in the embryo. (shrink)

The transforming growth factors beta are a family of peptides which are involved in the regulation of cell growth and differentiation. It has been suggested that the loss of sensitivity to growth inhibition by endogenous TGF‐β may contribute to the process of carcinogenesis in epithelial systems. However, many breast cancer cells remain sensitive to the growth inhibitory effects of these peptides, suggesting that the local induction of TGF‐β could provide a pharmacological approach to chemoprevention. Triphenylethylene anti‐oestrogens, synthetic progestins (...) and retinoids all offer potential as chemopreventative agents. A common feature of their mechanism of action is the ability to locally increase the production of the transforming growth factors beta. (shrink)

Neural crest cells are multipotent progenitors, capable of producing diverse cell types upon differentiation. Recent studies have identified significant heterogeneity in both the fates produced and genes expressed by different premigratory crest cells. While these cells may be specified toward particular fates prior to migration, transplant studies show that some may still be capable of respecification at this time. Here we summarize evidence that extracellular signals in the local environment may act to specify premigratory crest and thus generate diversity in (...) the population. Three main classes of signals–Wnts, BMP2/BMP4 and TGFβ1,2,3–have been shown to directly influence the production of particular neural crest cell fates, and all are expressed near the premigratory crest. This system may therefore provide a good model for integration of multiple signaling pathways during embryonic cell fate specification. BioEssays 22:708–716, 2000. © 2000 John Wiley & Sons, Inc. (shrink)

Maintenance of skeletal muscle mass and strength throughout life is crucial for heathy living and longevity. Several signaling pathways have been implicated in the regulation of skeletal muscle mass in adults. TGF‐β‐activated kinase 1 (TAK1) is a key protein, which coordinates the activation of multiple signaling pathways. Recently, it was discovered that TAK1 is essential for the maintenance of skeletal muscle mass and myofiber hypertrophy following mechanical overload. Forced activation of TAK1 in skeletal muscle causes hypertrophy and attenuates denervation‐induced (...) muscle atrophy. TAK1‐mediated signaling in skeletal muscle promotes protein synthesis, redox homeostasis, mitochondrial health, and integrity of neuromuscular junctions. In this article, we have reviewed the role and potential mechanisms through which TAK1 regulates skeletal muscle mass and growth. We have also proposed future areas of research that could be instrumental in exploring TAK1 as therapeutic target for improving muscle mass in various catabolic conditions and diseases. (shrink)

Three recent reports (1–3) identify two genes, thick veins (tkv) and saxophone (sax), which encode serine/threonine transmembrane proteins that act as receptors for mediating different aspects of the Drosophila TGF‐β‐related signal, dpp. tkv is required for patterning the entire embryonic dorsal region, while sax is required for patterning only amnioserosa, the dorsalmost cell fates. dpp signaling in other developmental processes again requires both tkv and sax, but to differing degrees. tkv and sax, encode type I receptors, which appear to (...) directly bind ligand, unlike what has been observed for other type I receptors. (shrink)

The assessment of hormones in saliva has gained wide acceptance in clinical endocrinology. To date, there is no hypothesis as to why some hormones can be found in saliva, while others cannot, and whether there is a physiological consequence of this fact. A number of carefully performed studies give examples of important physiological hormonal activity in saliva. Steroids, such as androgens, act as pheromones in olfactory communication of various mammalian species, such as facilitating mating behavior in swine or serving as (...) odor cues for rodent nestlings. Salivary peptide hormones, such as epidermal growth factor (EGF) and transforming growth factor‐α (TGF‐α), and amines such as melatonin, are involved in the regulation of inflammatory processes and in the promotion of cell proliferation, and contribute to a rapid wound healing in the oropharyngeal epithelia. Current data provide evidence of the involvement of salivary cytokines, such as interleukin‐8 and leptin, in tumorgenesis in the oral cavity and the salivary glands. The tumor tissues express and release significantly more of these cytokines than healthy glands. Consequently, the assessment of salivary hormone profiles may provide promising targets for diagnostic tumor markers. (shrink)

Major depressive disorder (MDD) is a severe mental illness that affects 5 to 20% of the general population. Current antidepressant drugs exerts only a partial clinical efficacy because approximately 30% of depressed patients failed to respond to these drugs and antidepressants produce remission only in 30% of patients. This can be explained by the fact that the complex pathophysiology of depression has not been completely elucidated, and treatments have been mainly developed following the “monoaminergic hypothesis” of depression without considering the (...) key role of other factors involved in the pathogenesis of MDD, such as the role of chronic stress and neuroinflammation. Chronic stress acts as a risk factor for the development of MDD through the impairment of neurotrophins signaling such as brain-derived neurotrophic factor (BDNF) and transforming-growth-factor-β1 (TGF-β1). Stress-induced depressive pathology contributes to altered BDNF level and function in MDD patients and, thereby, an impairment of neuroplasticity at the regional and circuit level. Recent studies demonstrate that aerobic exercise strongly increases BDNF production and it may contribute as a non-pharmacological strategy to improve the treatment of cognitive and affective symptoms in MDD. Here we will provide a general overview on the possible synergism between physical activity and antidepressants in MDD. Physical activity can synergize with antidepressant treatment by rescuing neurotrophin signaling in MDD patients, promoting neuronal health and recovery of function in MDD-related circuits, finally enhancing pharmacotherapeutic response. This synergism might be particularly relevant in elderly patients with late-life depression, a clinical subgroup with an increased risk to develop dementia. (shrink)

Cell size is an important determinant of body size. While the genetic mechanisms of cell size regulation have been well studied in yeast, this process has only recently been addressed in multicellular organisms. One recent report by Wang et al. (2002) shows that in the nematode C. elegans, the TGFβ‐like pathway acts in the hypodermis to regulate cell size and consequently body size.1 This finding is an exciting step in discovering the molecular mechanisms that control cell and body size. BioEssays (...) 25:305–308, 2003. © 2003 Wiley Periodicals, Inc. (shrink)

Thrombospondin (TSP‐1) is a large glycoprotein secreted by platelets and synthesized by many cell types, including endothelial and tumor cells. Although controversy exists about the biological function of TSP‐1, the following observations suggest that TSP‐1 may potentiate tumor progression. (1) Tumor metastases in mice are promoted by TSP‐1 and inhibited by anti‐TSP‐1 antibodies. (2) TSP‐1 promotes tumor cell adhesion, migration and invasion. (3) TSP‐1 promotes angiogenesis in the rat aorta model. (4) TSP‐1 up‐regulates the plasminogen activator system through a mechanism (...) involving the activation of TGF‐β1. (5) Human tumors express increased levels of the CSVTCG‐specific TSP‐1 receptor. (6) Tumor stroma is enriched in TSP‐1. (7) Cancer patients have high blood levels of TSP‐1. (8) Poor patient survival correlates with a higher expression of the CSVTCG‐specific TSP‐1 receptor on tumor cells. In this paper we discuss the evidence that TSP‐1 promotes tumor progression and present a hypothetical scheme for its mechanism of action. (shrink)

Although the genetics of dorsal‐ventral polarity which leads to mesoderm formation in Drosophila are understood in considerable detail, subsequent molecular mechanisms involved in patterning the mesoderm primordium into individual mesodermal subtypes are poorly understood. Two papers published recently (1,2) suggest strongly that an inductive signal from dorsal ectoderm is involved in subdividing the underlying mesoderm, and present evidence that one of the signalling factors is Decapentaplegic (Dpp), a member of the bone morphogenetic protein subgroup of the Transforming Growth Factor‐β ( (...) class='Hi'>TGF‐β) super family of proteins. (shrink)

Nematodes are important parasites of humans and other animals. Nematode parasitism is thought to have evolved by free‐living, facultatively developing, arrested larvae becoming associated with animals, ultimately becoming parasites. The formation of free‐living arrested larvae of the nematode Caenorhabditis elegans is controlled by the environment, and involves dafachronic acid (DA) and transforming growth factor (TGF)‐β signalling. Recent data have shown that DA acid signalling plays a conserved role in controlling larval development in both free‐living and parasitic species. In contrast, (...) class='Hi'>TGF‐β signalling does not seem to be conserved; this difference perhaps points to how nematode parasitism did evolve. (shrink)

The year 2009 marked the 50th anniversary of Edith Penrose’s The Theory of the Growth of the Firm and saw the third edition of her now-classic book. Over the past twenty-five years or so, TGF has become a canonical reference to the currently dominant resource, knowledge, and capabilities-based approaches to business strategy, and to a lesser extent to the theory of the multinational enterprise, international business, and development scholarship. This article presents TGF’s ideas and assesses them critically. It discusses Penrose’s (...) early contributions to economics, subsequent ideas in economics that are related to her book, the book’s contribution to organizational economics, business strategy, strategic human resource management, strategic entrepreneurship, recent debates on value creation and capture, and the political economy of globalization and development. The article also touches upon Penrose’s epistemology. Lastly, it outlines possible ways in which TGF can be generalized, critiqued, and integrated with other theories. (shrink)

Early in animal development, gradients of secreted morphogenic molecules, such as Sonic hedgehog (Shh), Wnt and TGFβ/Bmp family members, regulate cell proliferation and determine the fate and phenotype of the target cells by activating well‐characterized signalling pathways, which ultimately control gene transcription. Shh, Wnt and TGFβ/Bmp signalling also play an important and evolutionary conserved role in neural circuit assembly. They regulate neuronal polarization, axon and dendrite development and synaptogenesis, processes that require rapid and local changes in cytoskeletal organization and plasma (...) membrane components. A key question then is whether morphogen signalling at the growth cone uses similar mechanisms and intracellular pathway components to those described for morphogen‐mediated cell specification. This review discusses recent advances towards the understanding of this problem, showing how Shh, Wnt and TGFβ/Bmp have adapted their ‘classical’ signalling pathways or adopted alternative and novel molecular mechanisms to influence different aspects of neuronal circuit formation. (shrink)

Neural crest cells are multipotent progenitors, capable of producing diverse cell types upon differentiation. Recent studies have identified significant heterogeneity in both the fates produced and genes expressed by different premigratory crest cells. While these cells may be specified toward particular fates prior to migration, transplant studies show that some may still be capable of respecification at this time. Here we summarize evidence that extracellular signals in the local environment may act to specify premigratory crest and thus generate diversity in (...) the population. Three main classes of signals–Wnts, BMP2/BMP4 and TGFβ1,2,3–have been shown to directly influence the production of particular neural crest cell fates, and all are expressed near the premigratory crest. This system may therefore provide a good model for integration of multiple signaling pathways during embryonic cell fate specification. BioEssays 22:708–716, 2000. © 2000 John Wiley & Sons, Inc. (shrink)