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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
161

Characterization of the Second Messenger Signaling Cascade Linking Angiotensin II Receptor Activation with Vascular Smooth Muscle Cell Mitogenesis

Wildroudt, Maria L. 28 July 2005 (has links)
No description available.
162

The Roles of the Notch2 and Notch3 Receptors in Vascular Smooth Muscle Cells

Baeten, Jeremy T. January 2016 (has links)
No description available.
163

RNA-binding proteins mediate anti-inflammatory regulation of vascular disease

Herman, Allison January 2019 (has links)
This work identifies the Fragile X-related protein (FXR1) as a reciprocal regulator of HuR target transcripts in vascular smooth muscle cells (VSMC). FXR1 was identified as an HuR interacting protein by liquid chromatography-tandem mass spectrometry (LC-MS/MS). The-HuR-FXR1 interaction is abrogated in RNase-treated extracts, indicating that their association is tethered by mRNAs. FXR1 expression is induced in diseased, but not normal arteries. SiRNA knock down of FXR1 increases abundance and stability of inflammatory mRNAs, while overexpression of FXR1 reduces their abundance and stability. RNA-EMSA and RIP demonstrate that FXR1 directly interacts with an ARE and a previously uncharacterized element in the 3’UTR of TNFa. FXR1 expression is increased in VSMC challenged with the anti-inflammatory cytokine IL-19, and FXR1 is required for IL-19 reduction of HuR. This suggests FXR1 is an anti-inflammation responsive, HuR counter-regulatory protein that reduces abundance of pro-inflammatory transcripts. Additionally, we observed significantly increased poly-A-Binding protein (PABP) expression localizing to discrete punctate structures in both vascular smooth muscle (VSMC) and endothelial cells (EC) of the aortic arch of Ldlr-/- mice, as compared to WT controls. EIF2α phosphorylation, requisite for SG formation, was also induced by clotrimazole and oxLDL in these cells. Interestingly, VSMCs pre-treated with anti-inflammatory cytokine IL-19 followed by clotrimazole significantly reduced the formation of SGs and eIF2a phosphorylation, suggesting a relationship between inflammation and SG formation in vascular cells. Reduction of SG component G3BP1 by siRNA knockdown significantly reduced stress granule formation and inflammatory gene abundance in hVSMC. Microtubule inhibitors reduced SG formation in hVSMC. These results support the hypothesis that SG formation in atherosclerosis is driven by inflammation, SG may mediate the cellular response to inflammation, and that anti-inflammatory treatment may lessen atherosclerosis progression and plaque formation by reduction of SGs. / Biomedical Sciences
164

Synthesis, evaluation, and applications of hydrogen sulfide-releasing  supramolecular materials

Kaur, Kuljeet 24 January 2020 (has links)
H2S is a biologically relevant signaling gas that is endogenously produced throughout the body. The (patho)physiological roles of H2S have led researchers to develop various compounds that decompose to release H2S (H2S donors) for exogenous H2S administration. However, many small molecule H2S donors suffer from poor solubility, low stability, and lack of control over H2S release rates. As a result, there has been an increasing interest in utilizing supramolecular materials for exogenous H2S delivery. With growing potential applications of supramolecular H2S-releasing materials, it is important to explore their properties, e.g., solubility and stability under physiological conditions. We investigated the hydrolytic stability over a range of pH conditions of a series of peptides containing H2S-releasing S-aroylthiooximes (SATOs). The SATO-peptides showed structure–reactivity relationships with SATO ring substituents playing a crucial role in hydrolysis rates. Electron-donating substituents accelerate the rate of hydrolysis while electron-withdrawing substituents slows it down. We also explored their hydrolysis mechanisms at different pH values. SATO-peptides were then used to form hydrogels at 1 wt.% triggered by Ca2+. Hydrogels can be applied directly at a site of interest, potentially improving the efficacy of H2S compared with small molecule donors that diffuse away. We developed a H2S-releasing hydrogel capable of slowly releasing H2S locally to test its efficacy on intimal hyperplasia. The hydrogel delivered H2S over the period of several hours and inhibited the proliferation of human vascular smooth muscle cells (VSMCs) significantly better than fast-releasing NaSH salts. This study shows a promising application of supramolecular H2S-releasing materials over widely used sulfide salts. The macroscopic properties of peptide hydrogels could be further modulated to achieve additional control over the H2S release properties. We synthesized a series of peptide hydrogels incorporating different linker segments to study their effects on hydrogelation properties. Most peptides formed hydrogels but with significantly different rheological behavior. We found that peptides with flexible linkers such as ethyl, substituted O-methylene, and others, formed stronger hydrogels compared to those with more rigid linkers. Interestingly, we found that stiffer hydrogels released H2S over longer periods than softer ones by retarding the diffusion of a thiol trigger, likely due to bulk degradation of the soft gels but surface erosion of the stiff gels as they release H2S. / Doctor of Philosophy / H2S has long been known as a foul smelling gas until it was discovered that it is endogenously produced throughout the body and plays many (patho)physiological roles. Therapeutic benefits of H2S have led researchers to develop various compounds that release H2S (H2S donors) for exogenous H2S administration. However, many small molecule H2S donors suffer from poor solubility, low stability, and unregulated H2S release. As a result, there has been an increasing interest in utilizing materials for exogenous H2S delivery. With growing potential applications of H2S-releasing materials, it is important to explore their properties, e.g., solubility and stability under physiological conditions. We investigated the stability of a series of peptides containing H2S-releasing S-aroylthiooximes (SATOs) over a range of pH conditions. The stability of SATO-peptides was dependent on chemical makeup of the SATO part of the peptides. We also explored their hydrolysis mechanisms at different pH values. SATO-peptides were then used to form hydrogels triggered by Ca2+. Hydrogels can be applied directly at a site of interest, potentially improving the efficacy of H2S compared with small molecule donors that diffuse away. We developed a H2S-releasing hydrogel capable of slowly releasing H2S locally to test its efficacy on intimal hyperplasia. The hydrogel delivered H2S over the period of several hours and inhibited the proliferation of human vascular smooth muscle cells (VSMCs) significantly better than fast-releasing NaSH salts. This study shows a promising application of supramolecular H2S-releasing materials over widely used sulfide salts. The macroscopic properties of peptide hydrogels could be further modulated to achieve additional control over the H2S release properties. We synthesized a series of peptide hydrogels incorporating different linker segments to study their effects on hydrogelation properties. Most peptides formed weak to strong hydrogels with calcium chloride.We found that peptides with flexible linkers formed stronger hydrogels compared to those with more rigid linkers. Interestingly, we found that stiffer hydrogels released H2S over longer periods than softer ones.
165

Uniform transgene activation in Tet-On systems depends on sustained rtTA expression / Tet-Onシステムにおける均一な遺伝子発現は持続的なrtTA発現に依存する

Otomo, Jun 25 March 2024 (has links)
京都大学 / 新制・課程博士 / 博士(医科学) / 甲第25201号 / 医科博第157号 / 新制||医科||10(附属図書館) / 京都大学大学院医学研究科医科学専攻 / (主査)教授 遊佐 宏介, 教授 近藤 玄, 教授 斎藤 通紀 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM
166

Rôle des Résolvines, dérivés trihydroxylés du DHA et de l'EPA, dans la résolution de l'inflammation pour la prévention de l'hypertension artérielle pulmonaire

Hiram, Roddy January 2016 (has links)
Résumé : L’hypertension artérielle pulmonaire (HTAP) est une maladie rare dans laquelle les artères pulmonaires subissent un important remodelage et un recrutement de cellules proinflammatoires dans la paroi. Généralement les patients atteints sont diagnostiqués tardivement. Or, à son stade avancé, l’HTAP est irréversible. Aucun traitement actuel ne permet de soigner définitivement les patients. Nous émettons l’hypothèse que l’inflammation pourrait être à l’origine de plusieurs dysfonctions cellulaires et que sa résolution pourrait probablement prévenir l’HTAP. Deux modèles d’HTAP expérimentale ont été utilisés. Le premier met en jeu des artères pulmonaires humaines (APH) cultivées in vitro et rendues hyperréactives et sur lesquelles les effets des Résolvines D1 et E1 ainsi que leurs précurseurs respectifs ont été évalués. Le deuxième est un modèle in vivo bien connu de rats hypertendus à la monocrotaline (MCT) sur lesquels le rôle curatif du MAG-DHA (un monoacylglycéride de l’acide docosahexaénoïque) a été étudié quand l’HTAP est déjà installée. Les résultats démontrent que 24 h de prétraitement in vitro avec le TNFalpha, l’IL-6 ou l’ET-1 augmente la réactivité pharmaco-mécanique et la sensibilité au Ca2+ des APH stimulées avec 80 mM de KCl, 1 µM de 5-hydroxytryptamine (5-HT), 30 nM U-46619 et 1 µM de PDBu. En revanche, 300 nM de RvD1 ou de RvE1 ainsi que 1µM de MAG-DHA ou de MAG-EPA (monoacylglycéride de l’acide éicosapentaénoïque) renversent les effets induits par les traitements proinflammatoires et vasoconstricteurs. De plus, in vivo, il a été démontré que 7 jours de traitement avec le MAG-DHA peuvent permettre de résoudre le statut inflammatoire dans un modèle d’hypertension pulmonaire induite par la MCT chez le rat. Dans les deux modèles, l’expression de biomarqueurs inflammatoires (TNFalpha, COX-2, STAT3) et les niveaux de phosphorylation des activateurs nucléaires du remodelage tels que c-Fos, c-Jun, NFkB et MMP9 étaient augmentées par les traitements proinflammatoires. Cependant, les expériences d’immuno-buvardage montrent que la RvD1, la RvE1 et leurs précurseurs normalisaient les niveaux de détections de ces marqueurs de l’inflammation. En conclusion, l’ensemble des données montrent que les Résolvines D1 et E1 ainsi que leurs précurseurs sont des candidats efficaces pour résoudre l’inflammation induite pour prévenir l’hyperréactivité pharmacologique des artères pulmonaires. / Abstract : Pulmonary hypertension (PH) is rare disease characterized by an important remodelling and proinflammatory cells recruitement into the pulmonary artery wall. Because of the late diagnostic, the patient care is often performed when PH is at its irreversible and most severe stage. Unfortunatly, none of the actual treatments are able to cure the patients for the long term. We hypothesize that inflammation could be a major event at the origin of all the other cellular dysfunctions that characterise PH. Resolvins; metabolites from Oméga-3 could resolve inflammation and potentially prevent or reverse PH. In the present study, two models of PH have been used. The first one is an in vitro model involving cultured human pulmonary arteries (HPA) in which inflammatory or hyperreactive conditions have been induced to evaluate the effects of Resolvin D1 and E1 and their precursors. The second model is a well-known in vivo model of monocrotalineinduced PH in rats, treated with MAG-DHA (monoacylglyceride form of docosahexaenoic acid) to evaluate the curative ability of this compound to resolve the disease at its severe stage. Results show that 24-h pre-treatment with TNFα, IL-6 or ET-1 increased the reactivity and Ca2+ sensitivity of HPA as revealed by agonist challenges with: 80 mM KCl, 1 μM 5- hydroxytryptamine (5-HT), 30 nM U-46619 and 1 μM PDBu. However, 300 nM RvD1 or RvE1, as well as 1 μM MAG-DHA or MAG-EPA (monoacylglyceride form of eicosapentaenoic acid) strongly reversed the over responsiveness induced by proinflammatory and hyperreactive treatments.Moreover, a 7-day treatment with MAG-DHA is able to resolve the inflammatory status in a rat model of monocrotaline-induced pulmonary hypertension. In both models, the inflammatory status enhanced the expression of inflammatory biomarkers (TNF-α, COX-2, STAT-3) as well as the detection of MMP9 and phosphorylated nuclear factors such as P-c-Fos, P-c-Jun and P-NF-κB involved in the activation of wall remodeling. Hence, RvD1, RvE1 and their precursors normalized the expression of these inflammatory biomarkers. In conclusion, Resolvin D1 and E1 and their respective precursors MAG-DHA and MAGEPA could inhibit inflammation status to prevent and potentially cure pulmonary hypertension.
167

Regulation of the inducible L-arginine-nitric oxide pathway by oxidative stress and statins

Costa, Maria Alexandra Barata de Vasconcelos Nunes January 2010 (has links)
Oxidative stress (OS) plays a critical role in the pathogenesis of atherosclerosis potentially through interaction with nitric oxide (NO) generated by the inducible nitric oxide synthase (iNOS) pathway. Although considerable literature supports a pro-atherogenic role for iNOS-induced NO, recent evidence suggest an anti-atherogenic property for this enzyme where iNOS-induced NO attenuates atherosclerotic lesions after immune injury, enhancing endothelial integrity, survival, protecting against OS-induced apoptosis and necrosis. We therefore hypothesize that iNOS may have a cardio-protective role in the atherosclerotic vessel and that under conditions of OS, expression and function of this enzyme may be impaired, thus contributing to the deleterious consequences of OS. Experiments have therefore been conducted to establish whether pro-oxidants regulate iNOS expression/function in rat cultured aortic smooth muscle cells (RASMCs). These cells were induced for 24 hours with LPS and IFN-γ to mimic inflammatory conditions. Oxidative stress inducers may modulate iNOS-induced NO production through alteration of the expression and/or function of the inducible L-arginine-NO pathway. We examined the effects of hydrogen peroxide (H2O2), antimycin A and diethyl maleate (DEM) on this pathway in vascular smooth muscle cells. H2O2 had little effect on NO production or L-arginine transport while antimycin A and DEM independently caused a concentration dependent inhibition of both processes. Only DEM induced hemeoxygenase-1 (HO-1) expression, monitored by western blotting as a marker of OS. The effects of statins on NO synthesis and L-arginine transport in the presence and absence of OS were also investigated. The benefits of statins therapy in cardiovascular medicine are ascribed in part to their lipid-lowering effect by inhibiting 3-hydroxy-3-methoxyglutaryl coenzyme A (HMG-CoA) reductase, the rate limiting enzyme for cholesterol synthesis. However, statins may possess anti-inflammatory properties and are able to improve endothelial function, stabilize atherosclerotic plaque, and inhibit platelet aggregation, vascular smooth muscle cells proliferation and vessel wall inflammation. These effects may be exerted through novel actions of statins that include interaction with specific signalling pathways in cells which may be associated with the induction of iNOS and/or cationic amino acid transporters (CATs). Thus, we have extended our investigations to include an examination of the effects of statins on both iNOS and CAT function and expression under control conditions and following exposure of cells to OS. Atorvastatin caused a bell shaped response on NO production and iNOS expression and also enhanced L-arginine transport but in a non-concentration dependent manner. Simvastatin only affected NO synthesis without altering transporter activity. Pravastatin was without effect on either system. Further studies demonstrated that that atorvastatin was able to reverse the effects of antimycin A and DEM but only on NO production. These findings confirm that the inducible L-arginine-NO pathway can be downregulated by pro-oxidants. This mechanism may therefore contribute to the deleterious effects observed in disease states associated with OS. Moreover, statins (in particular atorvastatin) appear to be effective in reversing the inhibition of NO production caused by inducers of OS. This, together with the fact that atorvastatin and simvastatin can potentiate iNOS-induced NO production and indeed L-arginine transport (with atorvastatin), highlights a potential novel mechanism through which the cardio-protective actions of these compounds could be mediated.
168

Evaluation of channels for angiogenic cells ingrowth in collagen scaffolds in vitro and in vivo

Yahyouche, Asma January 2011 (has links)
Pre-cellularised scaffolds are limited in volume due to the constraints of the time delay required for angiogenic cells ingrowth forming a vascular network and allowing for delivery of nutrients and waste exchange. Channels have the potential to improve the time taken for cellular penetration. The effectiveness of channels in improving angiogenic cells penetration was assessed in vitro and in vivo in porous 3-D collagen scaffolds. Initial studies conducted in vitro demonstrated that the scaffolds supported angiogenic cells ingrowth in culture and the channels improved the depth of penetration of cells into the scaffold. The cells reside mainly around the channels and migrate along the channels. In vivo, channels increased cell migration into the scaffolds and in particular angiogenic cells resulting in a clear branched vascular network of micro vessels in the channelled samples which was not apparent in the non-channelled samples. This correlated well with macrophage invasion into scaffolds since angiogenesis in vivo is usually accompanied by infiltration of macrophages which participate in organization of angiogenesis, and in regulation of tissue regeneration. Thus, macrophage-mediated biodegradation of collagen scaffolds in vitro was also assessed. Furthermore, pre-seeding channelled collagen scaffolds with endothelial cells implantation has potential of speeding up vascularisation of scaffolds compared to human bone marrow stromal cells.
169

Assessing the Activity of Agonistic Autoantibodies in Systemic Sclerosis and their Effects on Cultured Vascular Smooth Muscle Cells

Chokr, Nidaa 05 1900 (has links)
La sclérose systémique (ScS) est une maladie auto-immune dévastatrice d'étiologie inconnue. Le dysfonctionnement immunitaire, la fibrose et la vasculopathie sont les trois principales caractéristiques de cette maladie. Une récente étude a révélé un nouveau lien entre l'auto-immunité et la fibrose, par la présence d'auto-anticorps stimulant le récepteur du facteur de croissance dérivé des plaquettes (PDGFR) des fibroblastes. Ces auto-anticorps sont capables de stimuler les espèces réactives de l'oxygène et d’activer la kinase régulée par un signal extracellulaire (ERK1/2). L’hypothèse que nous formulons est que les cellules musculaires lisses vasculaires (VSMCs) exprimant conjointement les PDGFR, répondront elles aussi aux autoanticorps anti-PDGF-R. Le travail présenté ici vise à valider la présence d'auto-anticorps PDGFR dans les sérums de patients ScS, et à caractériser ensuite la réponse de VSMCs exposées à de l'immunoglobuline G (IgG) de ces sérums, en mesurant l’activation des cascades de signalisation spécifiques, ainsi que l'induction des gènes impliqués dans la réponse fibrotique. Nos résultats démontrent la présence d'une fraction IgG stimulant une réponse phénotypique dans les cultures de VSMCs. Notamment, d’importantes régulations positive et négative des gènes pro-fibrotiques tgfb1 et tgfb2 respectivement, ont été observées dans les VSMCs exposées à des fractions de ScS-IgG. Les fractions de IgG positives pour l'activation de ERK étaient présentes dans la plupart, mais pas dans tous les échantillons de SSc (68%, 19/28), et moins présentes dans les contrôles 27% (11/3). Bien que, les fractions de SSc-IgG ont pu considérablement immunoprécipiter le PDGFR, l'utilisation d'un inhibiteur spécifique des récepteurs au PDGF (AG1296), n'a pas inhibé l'activation de ERK médiée par les fractions de SSc-IgG. Globalement, nos résultats indiquent la présence d'autoanticorps stimulants avec activité pro-fibrotique dans les sérums des patients ScS. Des travaux sont en cours pour identifier l'entité moléculaire responsable de la réponse d’IgG observée dans les cultures de VSMCs. / Systemic Sclerosis (SSc) is a devastating autoimmune disease of unknown etiology. Immune dysfunction, fibrosis and vasculopathy are the three major features of the disease; however, the interactions between these components are poorly understood. A novel link between autoimmunity and fibrosis has been proposed by the presence of stimulatory autoantibodies to the platelet-derived growth factor receptor (PDGFR) on fibroblasts. These autoantibodies were capable of stimulating reactive oxygen species and subsequent activation of ERK1/2. If the anti-PDGFR autoantibodies are present in the systemic circulation of SSc patients, they will most certainly encounter vascular smooth muscle cells (VSMCs). The latter are known to express the PDGFR and response to PDGF, which is a known phenotypic modulator of VSMCs. The work presented here seeks to readdress the presence of stimulatory anti-PDGFR autoantibodies in serum derived from SSc-patients and to characterize the effects of SSc-IgG on VSMCs by measuring the activation of specific signaling cascades and the induction of genes involved in fibrotic responses. Our results demonstrate the presence of an IgG fraction stimulating a phenotypic response in cultured VSMCs. Notably, a significant up-regulation of the pro-fibrotic gene tgfb1 and a significant down-regulation of the anti-fibrotic gene tgfb2 were observed in VSMC exposed to SSc-IgG fractions. Positive IgG fractions for ERK activation were present in most, but not all, SSc samples (68%, 19/28), and they were less present in controls (27%) (3/11). Although, the SSc-IgG fractions were able to significantly immunoprecipitate the PDGFR, the use of a selective PDGFR inhibitor, AG1296, did not inhibit the activation of ERK mediated by SSc-IgG fractions. Altogether, our findings suggest the presence of stimulatory autoantibodies with profibrotic activity in serum derived form SSc patients. Work is in progress to identify the molecular entity responsible for the IgG response observed in cultured VSMCs.
170

Etude de l'expression et de la fonction de la protéine de liaison à l'ARN RBPMS2 dans les tumeurs stromales gastrointestinales (GISTs) / Study of expression and function of the RNA-Binding Proteins RBPMS2 during GastroIntetinal Stromal Tumors (GISTs)

Hapkova, Ilona 05 December 2012 (has links)
Les tumeurs stromales gastro-intestinales (GIST) sont les tumeurs mésenchymateuses les plus fréquentes du système digestif. Elles ont pour origine les cellules interstitielles de Cajal (ICC) ou les cellules précurseurs mésenchymateuses communes aux ICCs et aux cellules musculaires lisses (SMC). Les GISTs sont des tumeurs qui sont chimiorésistantes et radiorésistantes. L'identification de mutations activatrices des gènes KIT (75-80%) ou/et PDGFRA (5-10%) a ouvert la voie à un traitement systémique chez les patients GIST sous forme d'Imatinib, un inhibiteur de tyrosine-kinase. Si ce traitement aboutit à une réponse clinique d'amélioration, un certain nombre d'effet secondaire sont néanmoins observés, comme les résistances au traitement. Afin d'améliorer le traitement initial, la physiopathologie du GIST doit progresser. La musculature de l'appareil digestif est une structure complexe composée de SMCs, de neurones entériques, de fibroblastes et d'ICCs. Au cours du développement, le mésoderme splanchnique donnera lieu au moins à deux types de cellules, les SMCs et les ICCs. Récemment, notre laboratoire a montré que la protéine de liaison à l'ARN RBPMS2 (pour RNA Binding Protein with Multiple Splicing 2) est impliquée dans le développement et le remodelage des SMCs digestives. Les travaux que j'ai réalisés au cours de ma thèse avaient pour objectifs d'étudier l'expression et la fonction de RBPMS2 dans les tumeurs GISTs humains. Nous avons analysé l'expression de RBPMS2 dans les GIST humains et nous avons démontré que RBPMS2 était fortement exprimé dans les tumeurs GISTs de manière indépendante de l'activité KIT. Nous avons également analysé la fonction de RBPMS2 en culture et avons montré que l'expression ectopique de RBPMS2 dans les SMCs humaines adultes et différenciées culture conduisaient à l'augmentation de leur taux de prolifération et altèreraient leur différenciation. Ces résultats suggèrent que RBPMS2 et les voies de signalisation qu´il contrôle pourraient être des cibles thérapeutiques potentielles dans la thérapie des tumeurs GISTs. / Gastrointestinal stromal tumors (GIST) are the most common mesenchymal neoplasm of the GI tract. They are supposed to arise from the interstitial cells of Cajal (ICCs) or from a mesenchymal precursor cell, common of ICCs and smooth muscle cells (SMCs). GISTs are highly resistant to conventional chemotherapy and radiotherapy. However, a targeted therapy is now proposed. These tumors have activating mutations in two closely related genes, the KIT (75-80%) or/and the PDGFRA (5-10%). Targeting these mutated activated proteins with Imatinib mesylate, a small-molecule tyrosine kinase inhibitor, has proven efficient in GIST treatment. However, resistance to Imatinib finally develops and new-targeted therapies are necessary. The musculature of the gastrointestinal (GI) tract is a highly complex structure composed of visceral SMCs, enteric neurons, fibroblast-like cells and ICCs. During the development, the splanchnic mesoderm will give rise at least to two cell types, ICCs and SMCs. Recently our laboratory showed that the RNA Binding Protein with Multiple Splicing 2 (RBPMS2) is involved into the development and remodeling of SMC.My PhD works investigate the expression and function of RBPMS2 in human GISTs. We analyzed the expression of RBPMS2 in human GISTs and we found that RBPMS2 was abnormally highly expressed in the tumoral cells of GISTs. We also analyzed the function of RBPMS2 into human adult SMC cell culture and demonstrated that ectopic expression of RBPMS2 in mature and differentiated SMC cultures increases their proliferation rate and alters their differentiation. These findings suggest that RBPMS2 could be a potential target for cancer therapy.

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