243 research outputs found

    New avenue to inhibit ras signaling

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    PreviewInhibition of Ras-stimulating enzymes is a possible avenue to treat Ras-driven diseases. In this issue of Chemistry & Biology, Evelyn and coworkers report an inhibitor for one such enzyme, Sos1, capable of impairing wild-type Ras signaling in cells.Peer Reviewe

    Knocked out by Rho/Rac T-cell biology

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    The Rho/Rac family is a group of Ras-related proteins with demonstrated roles in the regulation of proliferation and cytoskeletal structures in a number of cell lineages. Despite this, the actual role of these proteins in T-cells could not be addressed in vivo due to the lack of adequate animal models. Recently, the use of knockout and transgenic animals for Rac1, Rac2, and RhoA has provided a genetic proof of the importance of Rho/Rac protein in different aspects of T-cell signaling. These animals have also allowed us to get better views about the influence of these GTPases proteins on the maturation decisions of immature lymphocytes and on the signaling strategies these GTPases utilize to favor the generation of coherent and robust immune responses.X.R.B. is a CSIC member whose work is supported by the US National Cancer Institute (CA7373501), the British Association for International Cancer Research (00-061), the Programa General del Conocimiento of the Spanish Ministry of Science and Technology (PM99-0093), and the Programa FEDER of the Spanish Ministry of Education/European Union (1FD97-2116).Peer Reviewe

    The Use of Knockout Mice Reveals a Synergistic Role of the Vav1 and Rasgrf2 Gene Deficiencies in Lymphomagenesis and Metastasis

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    [Background]: Vav1 and RasGRF2 are GDP/GTP exchange factors for Ras superfamily GTPases with roles in the development and/or effector functions of T–lymphocytes. [Methodology/Principal Findings]: Given that the phenotype of Vav1–/–, Rasgrf2–/– and Vav1–/–;Rasgrf2–/– mice has been studied so far in young animals, we decided to explore the long–term consequences of the inactivation of those loci in the immune system. Unexpectedly, our studies revealed that the inactivation of the Vav1 proto–oncogene favors the formation of lymphoblastic lymphoma–like tumors in aging mice. Those tumors, that can be found either localized exclusively inside the thymus or widely disseminated in hematopoietic and non–hematopoietic tissues, are composed of CD3+ lymphoblasts that display heterogeneous combinations of CD4 and CD8 surface markers. Interestingly, the additional deletion of the Rasgrf2 gene induces a shortening in the latency period for the development of those tumors, an increase in the percentage of disseminated tumors outside the thymus and, as a result, higher mortality rates. [Conclusions/Significance]: These data reveal unexpected negative roles for Vav1 and RasGRF2 in different stages of T–cell lymphoma progression. They also suggest that the inactivation of Vav1 function may represent an inadequate strategy to treat T–cell lymphomas, especially those associated with low levels of Rasgrf2 gene expression.X.R.B. work is supported by grants from the NIH (5R01-CA73735-13), the Spanish Ministry of Science and Innovation (SAF2006-01789), the Red Temática de Investigación Cooperativa en Cáncer (RD06/0020/0001), and the Castilla y León Autonomous Government (SA053A05 and GR97). S.R. was supported by a Juan de la Cierva postdoctoral position funded by the Spanish Ministry of Science and Innovation. The activities of the Centro de Investigación del Cáncer are partially supported by the Ramon Areces Foundation and by the Foundation for Cancer Research at the University of Salamanca. X.R.B. lab has been recognized as a Consolidated Cancer Research Group by the Spanish Association against Cancer. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.Peer reviewe

    Vav3 proto-oncogene deficiency leads to sympathetic hyperactivity and cardiovascular dysfunction

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    El pdf del artículo es el manuscrito de autor.-- et al.Although much is known about environmental factors that predispose individuals to hypertension and cardiovascular disease, little information is available regarding the genetic and signaling events involved. Indeed, few genes associated with the progression of these pathologies have been discovered despite intensive research in animal models and human populations. Here we identify Vav3, a GDP-GTP exchange factor that stimulates Rho and Rac GTPases, as an essential factor regulating the homeostasis of the cardiovascular system.Vav3-deficient mice exhibited tachycardia, systemic arterial hypertension and extensive cardiovascular remodeling. These mice also showed hyperactivity of sympathetic neurons from the time of birth. The high catecholamine levels associated with this condition led to the activation of the renin-angiotensin system, increased levels of kidney-related hormones and the progressive loss of cardiovascular and renal homeostasis. Pharmacological studies with drugs targeting sympathetic and renin-angiotensin responses confirmed the causative role and hierarchy of these events in the development of theVav3-null mouse phenotype. These observations uncover the crucial role of Vav3 in the regulation of the sympathetic nervous system (SNS) and cardiovascular physiology, and reveal a signaling pathway that could be involved in the pathophysiology of human disease states involving tachycardia and sympathetic hyperactivity with unknown etiologies.This work was supported by grants from the US National Institutes of Health to X.R.B. and the Spanish Ministry of Education and Science to X.R.B. and J.M.L.-N. V.S. is supported by a European Molecular Biology Organization (EMBO) longterm postdoctoral fellowship.Peer reviewe

    Rho GTPases in Skeletal Muscle Development and Homeostasis.

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    Rho guanosine triphosphate hydrolases (GTPases) are molecular switches that cycle between an inactive guanosine diphosphate (GDP)-bound and an active guanosine triphosphate (GTP)-bound state during signal transduction. As such, they regulate a wide range of both cellular and physiological processes. In this review, we will summarize recent work on the role of Rho GTPase-regulated pathways in skeletal muscle development, regeneration, tissue mass homeostatic balance, and metabolism. In addition, we will present current evidence that links the dysregulation of these GTPases with diseases caused by skeletal muscle dysfunction. Overall, this information underscores the critical role of a number of members of the Rho GTPase subfamily in muscle development and the overall metabolic balance of mammalian species

    The Rho GTPase exchange factor Vav2 promotes extensive age-dependent rewiring of the hair follicle stem cell transcriptome

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    Both the number and regenerative activity of hair follicle stem cells (HFSCs) are regulated by Vav2, a GDP/GTP exchange factor involved in the catalytic stimulation of the GTPases Rac1 and RhoA. However, whether Vav2 signaling changes in HFSCs over the mouse lifespan is not yet known. Using a mouse knock-in mouse model, we now show that the expression of a catalytically active version of Vav2 (Vav2Onc) promotes an extensive rewiring of the overall transcriptome of HFSCs, the generation of new transcription factor hubs, and the synchronization of many transcriptional programs associated with specific HFSC states and well-defined signaling pathways. Interestingly, this transcriptome rewiring is not fixed in time, as it involves the induction of 15 gene expression waves with diverse distribution patterns during the life of the animals. These expression waves are consistent with the promotion by Vav2Onc of several functional HFSC states that differ from those normally observed in wild-type HFSCs. These results further underscore the role of Vav2 in the regulation of the functional state of HFSCs. They also indicate that, unlike other Vav2-dependent biological processes, the signaling output of this exchange factor is highly contingent on age-dependent intrinsic and/or extrinsic HFSC factors that shape the final biological readouts triggered in this cell type

    Vav1 and Rac control chemokine-promoted T lymphocyte adhesion mediated by the integrin α4β1

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    13 páginas, 8 figuras.-- et al.The chemokine CXCL12 promotes T lymphocyte adhesion mediated by the integrin α4β1. CXCL12 activates the GTPase Rac, as well as Vav1, a guanine-nucleotide exchange factor for Rac, concomitant with up-regulation of α4β1-dependent adhesion. Inhibition of CXCL12-promoted Rac and Vav1 activation by transfection of dominant negative Rac or Vav1 forms, or by transfection of their siRNA, remarkably impaired the increase in T lymphocyte attachment to α4β1 ligands in response to this chemokine. Importantly, inhibition of Vav1 expression by RNA interference resulted in a blockade of Rac activation in response to CXCL12. Adhesions in flow chambers and soluble binding assays using these transfectants indicated that initial ligand binding and adhesion strengthening mediated by α4β1 were dependent on Vav1 and Rac activation by CXCL12. Finally, CXCL12-promoted T-cell transendothelial migration involving α4β1-mediated adhesion was notably inhibited by expression of dominant negative Vav1 and Rac. These results indicate that activation of Vav1-Rac signaling pathway by CXCL12 represents an important inside-out event controlling efficient up-regulation of α4β1-dependent T lymphocyte adhesion. © 2005 by The American Society for Cell Biology.This work was supported by Grants SAF2002-00207 and SAF2003-00028 from Ministerio de Educación y Ciencia (to J.T. and X.R.B., respectively) and by National Cancer Institute Grant RO1CA7373503 (to X.R.B). J.V.S. was supported by a Human Frontiers Science Program and a Ramón y Cajal contract.Peer Reviewe

    The disease-linked Glu-26-Lys mutant version of Coronin 1A exhibits pleiotropic and pathwayspecific signaling defects

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    This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License.Coronin 1A (Coro1A) is involved in cytoskeletal and signaling events, including the regulation of Rac1 GTPase– and myosin II–dependent pathways. Mutations that generate truncated or unstable Coro1A proteins cause immunodeficiencies in both humans and rodents. However, in the case of the peripheral T-cell–deficient (Ptcd) mouse strain, the immunodeficiency is caused by a Glu-26-Lys mutation that targets a surface-exposed residue unlikely to affect the intramolecular architecture and stability of the protein. Here we report that this mutation induces pleiotropic effects in Coro1A protein, including the exacerbation of Coro1A-dependent actin-binding and -bundling activities; the formation of large meshworks of Coro1AE26K-decorated filaments endowed with unusual organizational, functional, and staining properties; and the elimination of Coro1A functions associated with both Rac1 and myosin II signaling. By contrast, it does not affect the ability of Coro1A to stimulate the nuclear factor of activated T-cells (NF-AT). Coro1AE26K is not a dominant-negative mutant, indicating that its pathological effects are derived from the inability to rescue the complete loss of the wild-type counterpart in cells. These results indicate that Coro1AE26K behaves as either a recessive gain-of-function or loss-of-function mutant protein, depending on signaling context and presence of the wild-type counterpart in cells.This work has been supported by grants to X.R.B. from the Castilla-León Autonomous Government (CSI101U13), the Spanish Ministry of Economy and Competitiveness (SAF2012-31371, RD12/0036/0002), the Solórzano Foundation, and the Ramón Areces Foundation. Spanish government–sponsored funding is partially supported by the European Regional Development Fund.Peer Reviewe

    Drug vulnerabilities and disease prognosis linked to the stem cell-like gene expression program triggered by the RHO GTPase activator VAV2 in hyperplastic keratinocytes and head and neck cancer

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    We have recently shown that VAV2, a guanosine nucleotide exchange factor that catalyzes the stimulation step of RHO GTPases, is involved in a stem cell-like (SCL) regenerative proliferation program that is important for the development and subsequent maintenance of the tumorigenesis of both cutaneous (cSCC) and head and neck squamous cell carcinomas (hnSCC). In line with this, we have observed that the levels of the VAV2 mRNA and VAV2-regulated gene signatures are associated with poor prognosis in the case of human papillomavirus-negative hnSCC patients. These results suggest that the SCL program elicited by VAV2 in those cells can harbor therapeutically actionable downstream targets. We have addressed this issue using a combination of both in silico and wet-lab approaches. Here, we show that the VAV2-regulated SCL program does harbor a number of cell cycleand signaling-related kinases that are essential for the viability of undifferentiated keratinocytes and hnSCC patient-derived cells endowed with high levels of VAV2 activity. Our results also show that the VAV2-regulated SCL gene signature is associated with poor hnSCC patient prognosis. Collectively, these data underscore the critical role of this VAV2-regulated SCL program for the viability of both preneoplastic and fully transformed keratinocytes.Fil: Lorenzo Martín, Luis Francisco. Consejo Superior de Investigaciones Científicas; España. Universidad de Salamanca; EspañaFil: Menacho Márquez, Mauricio Ariel. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Rosario. Instituto de Inmunología Clinica y Experimental de Rosario. Universidad Nacional de Rosario. Facultad de Ciencias Médicas. Instituto de Inmunología Clinica y Experimental de Rosario; ArgentinaFil: Bustelo, Xosé R.. Universidad de Salamanca; España. Consejo Superior de Investigaciones Científicas; Españ

    Contribution of the R-Ras2 GTP-binding protein to primary breast tumorigenesis and late-stage metastatic disease

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    R-Ras2 is a transforming GTPase that shares downstream effectors with Ras subfamily proteins. However, little information exists about the function of this protein in tumorigenesis and its signalling overlap with classical Ras GTPases. Here we show, by combining loss- and gain-of-function studies in breast cancer cells, mammary epithelial cells and mouse models, that endogenous R-Ras2 has a role in both primary breast tumorigenesis and the late metastatic steps of cancer cells in the lung parenchyma. R-Ras2 drives tumorigenesis in a phosphatidylinostiol-3 kinase (PI3K)-dependent and signalling autonomous manner. By contrast, its prometastatic role requires other priming oncogenic signals and the engagement of several downstream elements. R-Ras2 function is required even in cancer cells exhibiting constitutive activation of classical Ras proteins, indicating that these GTPases are not functionally redundant. Our results also suggest that application of long-term R-Ras2 therapies will result in the development of compensatory mechanisms in breast tumoursFil: Larive, Ramon. Universidad de Salamanca; España. University of Montpellier I and II; FranciaFil: Moriggi, Giulia. Universidad de Salamanca; EspañaFil: Menacho Márquez, Mauricio Ariel. Universidad de Salamanca; España. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Rosario; ArgentinaFil: Cañamero, Marta. Centro Nacional de Investigaciones Oncológicas; EspañaFil: de Alava, Enrique. Universidad de Salamanca; España. Hospital Universitario Virgen del Rocío. Sevilla; EspañaFil: Alarcón, Balbino. Centro de Biología Molecular ‘‘Severo Ochoa’. Madrid; EspañaFil: Dosil, Mercedes. Universidad de Salamanca; EspañaFil: Bustelo, Xosé R.. Universidad de Salamanca; Españ
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