The role of the cAMP mediator Epac in vascular smooth muscle cell migration

McKean, Jenny Susan

January 2015

Surgical intervention can result in endothelial denudation, driving growth factor-stimulated vascular smooth muscle cell (VSMC) migration towards the intima, leading to luminal narrowing and restenosis. Clinically approved PGI₂ analogues, including beraprost, activate the cyclic adenosine monophosphate (cAMP) signaling pathway to inhibit VSMC migration in vitro. This pathway is a potential therapeutic target, however the downstream proteins involved in the inhibitory effects of cAMP on migration remain unknown. The aims of this study were to determine the signalling pathways involved in inhibiting VSMC migration through cAMP downstream mediators, protein kinase A (PKA) and the more recently characterised exchange protein activated by cAMP (Epac), and delineate the mechanisms involved. In human saphenous vein VSMCs, Epac activation using an Epac analogue inhibited VSMC migration. Therapeutic concentrations of beraprost (1 nM) also resulted in an inhibition of VSMC migration. The use of fluorescence resonance energy transfer (FRET) confirmed 1 nM beraprost activated Epac, but not PKA. Epac is a guanine nucleotide exchange factor (GEF) for Rap1 thus Rap1 siRNA was used to inhibit the Epac pathway. This blocked the inhibitory effects of beraprost on VSMC migration. Epac1 was localised to the leading edge of migrating VSMCs. Another G-protein, RhoA, was investigated since it is essential for cell migration and is involved in several processes including actin regulation. Epac signaling inhibited PDGF-induced RhoA activation and disassembled F-actin at the leading edge, where Epac1 was previously located. This indicates that beraprost activated the Epac pathway, which inhibited RhoA to decrease VSMC migration. The clinical relevance of this study has discovered the mechanisms of Epac's inhibitory action on VSMC migration and this pathway could be targeted therapeutically to reduce restenosis. In the future the potential use of beraprost on a drug eluting stent might be beneficial to prevent restenosis formation following surgical intervention.

610

Immune Mechanisms of Extracellular Matrix Remodeling in the Common Carotid: A Model of Intimal Hyperplasia

Robb, Tiffany Marie

January 2012

Intimal hyperplasia (IH) is characteristic of a cell population increase within the innermost layer of the arterial wall. It is hypothesized that extracellular matrix vascular remodeling secondary vascular injury is dependent upon the Th17 subset of the CD4+ lymphocytes. Male C57BL/6J and FVB/NJ murine strains underwent complete left common carotid artery ligation for periods of 14 and 28 days. A therapeutic simvastatin model was carried out in the FVB/NJ strain and involved a daily subcutaneous injection regimen of 40 mg/kg/mouse beginning 72 hours prior to and daily following a 14 day carotid ligation period. Histological and RT-PCR analysis was carried out with harvested carotid artery samples. The FVB/NJ 14 day and 28 day histological stains of the left common carotid artery following ligation injury developed evident structured and disassembled intimal hyperplasia, respectively. A gene array demonstrated dramatic expression of immune and cytokine transcription markers particularly in the FVB/NJ strain at both ligation time points. IL-17 and IL-6 transcriptional gene expression was upregulated greater than 20-fold in the FVB/NJ 28 day injury model. IL-17 transcription was significantly expressed by a change of 50.06 ± 0.19 (p = 0.004) in this strain at 28 days versus the control. Lastly, the simvastatin treatment model was found to exacerbate the immune response to ligation injury. These results revealed that the immune system elicits a role in the vascular remodeling that potentiates intimal hyperplasia.

Vascular endothleial cell

Vascular smooth muscle cell

Pharmacology & Toxicology

Intimal hyperplasia

Simvastatin

Estudo dos efeitos de duas fosfolipases A2 (MT-III e BthTx-II) isoladas do venenos de serpentes Bothrops em células de músculo liso vascular em cultura: formação de corpúsculos lipídicos e mecanismos envolvidos. / Study on the effects of two phospholipases A2 (MT-III and BthTx-II) isolated from Bothrops<\\i> snake venoms in vascular smooth muscle cells: lipid droplets formation and mechanisms involved.

Giannotti, Karina Cristina

10 May 2017

As fosfolipases A2 secretadas (sFLA2) de veneno de serpente apresentam homologia estrutural e funcional com as sFLA2s do GIIA de mamíferos, cujos níveis estão elevados em doenças inflamatórias, como a aterosclerose. Nesta doença, as células de músculo liso vascular (CMLVs) acumulam corpúsculos lipídicos (CLs) e se diferenciam em células espumosas. Porém, o papel das sFLA2s neste fenômeno não é conhecido. Neste estudo foram avaliados os efeitos das FLA2 MT-III, cataliticamente ativa, e da BthTx-II, sem atividade catalítica, em CMLVs, com ênfase na formação de CLs e a participação de fatores da homeostasia lipídica. Os resultados obtidos demonstraram que a MT-III e a BthTx-II induziram a formação de CMLVs espumosas. Para tanto, estas enzimas recrutaram diferentes fatores envolvidos na síntese e acúmulo de lipídios. Nesta condição, os CLs constituem um local de síntese de prostaglandinas. Ainda, a MT-III induziu a diferenciação de CMLVs para fenótipo e função de macrófagos. A atividade catalítica não é relevante para a formação de CLs induzida por FLA2s. / Bothrops snake venom secreted phospholipases A2 (sPLA2s) share structural and functional features with mammalian GIIA sPLA2s, which are highly expressed during inflammatory diseases, such as atherosclerosis. In this disease, vascular smooth muscle cells (VSMCs) are loaded with lipid droplets (LDs) differentiating into foam cells. However, the role of these enzymes in this process is still unknown. In this study the effects of snake venom PLA2s MT-III with catalytic activity and BthTx-II, devoid of catalytic activity in VSMCs, with focus on LDs formation and mechanisms involved were investigated. Results here obtained show that both MT-III and BthTx-II induce formation of foam VSMCs and recruit distinct factors of synthesis and storage of lipids in these cells. In this condition, LDs constitute sites for synthesis of prostaglandins. Moreover, MT-III showed the ability to modulate VSMCs functions, leading them to a phenotipic switch to macrophage-like cells. In addition, the catalytic activity is not relevant to sPLA2-induced LDs formation.

Fosfolipase A2

Lipid droplets

Phospholipase A2

Vascular smooth muscle cell

Changes in Passive and Dynamic Mechanical Environments Promote Differentiation to a Contractile Phenotype in Vascular Smooth Muscle Cells

Reidinger, Amanda Zoe

29 April 2015

Every year, 400,000 coronary artery bypasses (CABG) are performed in the United States. However, one third of all patients who need a CABG cannot undergo the procedure because of the lack of suitable autologous blood vessels. Both synthetic and tissue engineered vascular grafts have been used clinically for vascular grafts or other surgical applications, but no small- diameter engineered vessels have yet been successfully used for CABG. The success of vascular tissue engineering is strongly dependent on being able to control tissue contractility and extracellular matrix (ECM) production to achieve balance between tissue strength and physiological function. Smooth muscle cells (SMCs), the main contributor of contractility in blood vessels, retain phenotypic plasticity, meaning they possess the ability to switch between a contractile and synthetic phenotype. In 2D culture, a number of biochemical and mechanical cues have been shown to promote the switch to a contractile phenotype in SMCs. However, achieving a stable contractile phenotype in 3D tissue has proven difficult. The work in this dissertation describes an investigation of how passive and dynamic environmental cues influence the smooth muscle phenotype. We studied the effects of substrate modulus in conjunction with changes in cell culture media composition on SMC phenotype in 2D and 3D cultures. Culturing SMCs in a low-serum culture medium resulted in an increase in SMC contractility in 2D cell culture but not in 3D cell-derived tissue. We found that, in SMCs cultured on soft substrates, the ability to modulate SMC phenotype in response to changes in media was diminished. Passively crosslinking the ECM of our cell-derived tissues with genipin resulted in modest increases in elastic modulus, though not enough to observe changes in SMC phenotype. Additionally, we investigated how dynamic cyclic mechanical stretch, in conjunction with cell culture medium, modified SMC contractility in cell and tissue cultures. SMCs increased contractile protein expression when exposed to dynamic stretch in 2D culture, even on soft substrates, which have previously been shown to inhibit phenotypic modulation. In 3D tissue rings, after mechanical stimulation, SMCs became more aligned, the tissue became tougher, and SMCs exhibited a measurable increase in contractile protein expression. In summary, we found that increasing substrate modulus, culturing in low serum cell culture medium, and imparting cyclic mechanical stretch can promote SMC differentiation and cellular alignment, and improve tissue mechanical properties. This information can be used to more accurately recapitulate vascular tissue for use in modeling or in the creation of tissue engineered blood vessels.

3D culture

phenotype

smooth muscle cell

vascular tissue engineering

cell-derived matrix

Comportamento de células endoteliais e muscular submetidas ao shear stress um panorama celular e bioquímico /

Gomes, Anderson Moreira

January 2019

Orientador: Willian Fernando Zambuzzi / Resumo: As células endoteliais (ECs) e células musculares lisas (AoSMCs) são os principais componentes celulares do endotélio. As interações entre estes tipos celulares desempenham funções na homeostase e na estrutura vascular. Como uma interface entre o sangue e a parede do vaso, as ECs ocupam um local único diretamente exposto ao shear stress (SS), a força mecânica de atrito lateral produzido pelo fluxo de sangue na membrana apical da célula endotelial, que pode influenciar o comportamento de ambas ECs e AoSMCs. Geralmente, AoSMCs não sofrem diretamente às forcas de cisalhamento, no entanto, estas são diretamente expostas ao fluxo sanguíneo quando ocorre alguma injúria vascular, como por exemplo em algumas lesões ateroscleróticas ou por técnicas invasivas, como a angioplastia. As forças hemodinâmicas influenciam as propriedades funcionais do endotélio, porém estas não são profundamente compreendidas quanto aos mecanismos bioquímicos de respostas de células endoteliais e de musculatura lisa. Assim, a proposta desta dissertação foi estabelecer um modelo de cultivo in vitro que mimetize as forças tensionais de cisalhamento (shear stress), buscando compreender mecanismos celulares, bioquímicos e epigenéticos. Cultura de células primárias endoteliais e de musculatura lisa humanas foram obtidas da empresa LONZA e mantidas conforme recomendações do fabricante. Estas células foram mantidas rotineiramente em condições convencionais em incubadora de CO2. Para mimetizar o fluxo sanguíneo, esta... (Resumo completo, clicar acesso eletrônico abaixo) / Mestre

Células endoteliais

Célula de musculatura lisa

Epigenética.

Shear stress

Endothelial cells

Smooth muscle cell

Epigenetics

Shear-stress

The functional study of Na+/Ca2+ exchanger in vascular smooth muscle cells

Zhao, Jun, e52677@ems.rmit.edu.au

January 2007

Na+/Ca2+ exchanger (NCX) is a membrane protein which can mediate either Ca2+ entry (reverse mode) or exit (forward mode) in cells. As one of the major Ca2+ transport systems, NCX is postulated to play a critical role in the vascular smooth muscle cell. The aims of the present study are to firstly demonstrate the functional existence of NCX in vascular smooth muscle (including aorta and arteriole); to clarify the modulation of NCX; to explore the selectivity of NCX inhibitor KB-R7943; and lastly to investigate the role of NCX in the myogenic response. KB-R7943 has been widely used as a NCX inhibitor. The study investigated its pharmacological actions in rat aorta on a variety of Ca2+ dependent systems. Rat aortic rings were used. The constriction to low extracellular [Na+] is a functional response mediated by NCX operating in reverse mode. The data demonstrate that 10 µM KB-R7943 inhibited L-type Ca2+ channel, the capacitative Ca2+ entry and  adrenergic receptor pathway. Nevertheless, KB-R7943 can be used as a selective inhibitor of NCX at the lower concentration of 1 µM in rat aortic rings. The study investigated whether the endothelium could modulate NCX in rat aortic rings. Lowering extracellular [Na+] to 1.18 mM induced constriction in endothelium denuded rat aortic rings, but only a small constriction in endothelium intact rat aortic rings. In endothelium intact rat aortic rings, the guanylate cyclise inhibitor ODQ (1 µM) and the nitric oxide synthase inhibitor L-NAME (50 µM) greatly amplified the vasoconstriction to lowering extracellular [Na+], but had no effect when the endothelium was removed. The adenylate cyclise inhibitor SQ 22536 (100 µM) and the cyclooxygenase inhibitor indomethacin (10 M) showed no significant effect on the low-Na+ induced vasoconstriction in either endothelium denuded or intact aortic rings. The results suggest that endothelium modulated the NCX operation via the nitric oxide/guanylate cyclase, not the adenylate cyclase system; further prostanoids including prostacyclin was not involved. The interaction between nitric oxide and NCX was furt her explored using the nitric oxide donor sodium nitroprusside. Endothelium denuded rat aortic rings were preconstricted to the same extent with either low Na+ (1.18 mM), or the thromboxane A2 agonist U46619 (0.1 µM) or high K+ (80 mM). The vasorelaxation of SNP (30 nM) in low Na+ constriction was significantly larger compared to other agents. This indicates that NO has a special antagonism of low Na+ constriction and a hypothesis is proposed involving Na+/K+ ATPase. The investigation of NCX is mainly conducted in large vessels; much less evidence is available for small resistance vessels. The study investigated the role of NCX on myogenic response in pressurized cremaster muscle arterioles. Reducing extracellular [Na+] resulted in graded vasoconstriction which was inhibited by NCX inhibitor SEA0400 (1 µM). Myogenic vasoconstriction and the concomitant rise in internal [Ca2+] were induced by a transmural pressure increase from 70 to 120 mmHg which was prevented by NCX inhibitor: SEA0400 (1 µM). In conclusion, the present study suggests that NCX contributes to the myogenic response in cremaster arteriole.

Na+/Ca2+ exchanger

vascular smooth muscle cell

aorta

arteriole

myogenic

KB-R7943

SEA0400

nitric oxide

endothelium.

Το αγγειακό λείο μυϊκό κύτταρο : μοριακή δομή και ρόλος στην παθογένεια της καρδιαγγειακής νόσου

Κωστόπουλος, Χρήστος

21 July 2008

Τα αγγειακά λεία μυικά κύτταρα (ΑΛΜΚ) αποτελούν το κυρίαρχο στοιχείο του μέσου χιτώνα των αιμοφόρων αγγείων, ενώ συμμετέχουν ενεργά και στο σχηματισμό και την ωρίμανση του καρδιαγγειακού συστήματος. Η δομή τους εξυπηρετεί την εκτέλεση της σημαντικότερης λειτουργίας τους, που είναι η συστολή. Αξιοσημείωτο χαρακτηριστικό των αγγειακών λείων μυικών κυττάρων αποτελεί η φαινοτυπική τους πλαστικότητα, δηλαδή η ικανότητα στροφής από το συσταλτικό σε έναν περισσότερο συνθετικό φαινότυπο, που λαμβάνει χώρα υπό προϋποθέσεις. Οι αλληλεπιδράσεις με τα υπόλοιπα κυτταρικά στοιχεία του τοιχώματος των αρτηριών και των έμμορφων συστατικών του αίματος, αλλά και η φαινοτυπική πλαστικότητα καθιστούν καθοριστικό το ρόλο των αγγειακών λείων μυικών κυττάρων στην παθογένεια της αθηροσκλήρωσης. / Vascular smooth muscle cells (VSMCs) comprise the main element of the tunica media of blood vessels, while they actively participate in the formation and maturation of the cardiovascular system. Their structure serves their basic function, which is contraction. An interesting feature of vascular smooth muscle cells is their phenotypic plasticity, the ability to shift from a contractile to a more synthetic phenotype, under certain conditions. The interaction with other cellular elements within the vascular wall or in the bloodstream, as well as their phenotypic plasticity, give vascular smooth muscle cells a decisive role in the pathogenesis of atherosclerosis.

Αθηροσκλήρωση

Καρδιαγγειακή νόσος

616.13

Vascular smooth muscle cell

Atherosclerosis

Cardiovascular disease

Novel genes associated with airway smooth muscle proliferation in asthma

Lau, Justine Y.

January 2008

Thesis (Ph. D.)--University of Sydney, 2009. / Title from title screen (viewed Aug. 11, 2009) Submitted in fulfilment of the requirements for the degree of Doctor of Philosophy to the Discipline of Pharmacology, Faculty of Medicine. Degree awarded 2009; thesis submitted 2008. Includes bibliographical references. Also available in print form.

Regulação da expressão e localização do receptor de androgeno em celulas musculares lisas prostaticas in vitro / Expression regulation and localization of androgen receptor in prostatic smooth muscle cell in vitro

Victorio, Sheila Cristina da Silva

26 January 2007

Orientador: Hernandes Faustino de Carvalho / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-10T10:22:10Z (GMT). No. of bitstreams: 1 Victorio_SheilaCristinadaSilva_M.pdf: 1499738 bytes, checksum: 1208b4b617e591a974a869b7fa20a388 (MD5) Previous issue date: 2007 / Resumo: O crescimento e função prostática dependem da estimulação androgênica e interação epitélio-estroma. Além dos andrógenos, outros fatores interagem com a próstata e são igualmente importantes para sua fisiologia. Sabe-se que os estrógenos exercem um importante papel no desenvolvimento prostático e que, combinados com andrógenos, podem contribuir para o aparecimento de patologias. A insulina é outro hormônio que afeta a atividade destes hormônios sexuais nos tecidos, inclusive na próstata. Os níveis séricos de esteróides sexuais estão intimamente relacionados com a sensibilidade a insulina, embora esta relação ainda seja pouco esclarecida. No estroma prostático, as células musculares lisas são o tipo celular predominante, influenciando a atividade do epitélio por mecanismos parácrinos e modificando a matriz extracelular em situações de remodelação, como no crescimento, na regressão e na invasão tumoral. Sabe-se que estas células apresentam receptores de andrógeno (AR) e que respondem à privação androgênica, alterando sua morfologia. O presente estudo buscou verificar a influência da testosterona, estradiol e insulina sobre a expressão e localização do AR em células musculares lisas da próstata ventral de ratos Wistar cultivadas in vitro. Os resultados mostraram que o estradiol causou alterações nos níveis protéicos, os níveis de RNAm do AR foram pouco afetados e a localização do AR foi predominantemente nuclear independente da dose de estradiol. Os tratamentos feitos com insulina mostraram que a sua presença causou uma queda da expressão da proteína e uma localização predominante nuclear do AR na situação em que os dois hormônios, insulina e testosterona, foram administrados juntamente. Os resultados permitem sugerir que a expressão do AR pode ser modulada por outros fatores como estrógeno e insulina / Abstract: The prostate function and growth depends on the androgenic stimulation and epitheliumstroma interaction. Besides androgens, other factors interact with the prostate and are also important for its physiology. It is known that estrogens exert an important role in prostate development, and combined with androgens they can contribute for the appearance of pathologies. The insulin is another hormone that interacts with these sexual hormones in tissues, and also in the prostate. The serum levels of sexual steroids are closely related with the sensitivity to the insulin, even though this relation is not yet clear. In prostatic stroma, smooth muscle cells are the predominant cell type. They influence the activity of the epithelium through paracrine mechanisms and modify the extracellular matrix in remodeling situations, such as gland growth and regression, and during tumor invasion. It is known that these cells express androgen receptor (AR) and respond to androgen deprivation by modifying its phenotype. The present study was undertaken to verify the influence of testosterone, estradiol and insulin on the expression and localization of the AR in the smooth muscle cells from the Wistar rat ventral prostate cultured in vitro. The results showed that estradiol caused alterations in the AR protein levels, the mRNA level was less affected and AR localization was predominantly nuclear irrespective of the estradiol dose. Insulin treatments caused a decrease in the expression of the protein and a predominant nuclear localization of AR in the presence of testosterone. The results suggest that AR expression and regulation might be modulated by others factors such as estrogen and insulin / Mestrado / Biologia Celular / Mestre em Biologia Celular e Estrutural

Prostata

Miócitos de músculo liso

Receptores de andrógenos

Estrogênios

Insulina

Androgen receptor

Strogens

Prostate

Smooth muscle cell

Insulin

Comportamento da celula muscular lisa da prostata ventral de ratos apos privação androgenica in vivo e sob estiramento mecanico in vitro / Smooth muscle cell behavior of rat ventral prostate after androgen deprivation in vivo and mechanical stretch assay in vitro

Antonioli, Eliane

08 October 2007

Orientador: Hernandes Faustino de Carvalho / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-08T18:51:36Z (GMT). No. of bitstreams: 1 Antonioli_Eliane_D.pdf: 2188815 bytes, checksum: f2d0da35f06c89ebb912a05bcce1dc39 (MD5) Previous issue date: 2007 / resumo: As células musculares lisas (CML) são o principal componente do estroma prostático e desempenham um importante papel na manutenção da fisiologia do órgão, atuando na contração durante a ejaculação, na sua remodelação frente a neoplasias e/ou privação androgênica, na produção de fatores parácrinos e na síntese/degradação/reorganização da matriz extracelular, segundo um intrincado mecanismo de comunicação com as células epiteliais. Além disso, tem sido também proposto que a invasão tumoral depende de uma participação ativa das células estromais, inclusas as CML, na produção de metaloproteinases de matriz (MMPs) e/ou seus inibidores dentre outros fatores. O presente estudo investigou a expressão dos marcadores de músculo liso na próstata ventral de ratos após longo período de castração. Em outra frente de investigação foi analisado o efeito do estiramento mecânico no comportamento das CML in vitro. Os resultados obtidos demonstraram que as CML são afetadas pela privação androgênica. Embora demonstrem mudanças morfológicas, estas células expressam marcadores de músculo liso em nível de proteína (a-actina e cadeia pesada da miosina de músculo liso) e de RNAm (smoothelin, sm22 e calponina). Estes resultados suportam a idéia de que CML prostática pode modular o seu fenótipo (contrátil vs. sintético) sem alterar o estado de diferenciação. Sabe-se que a função primária das CML prostáticas está relacionada à contração do órgão e que isto impõe uma deformação mecânica sobre estas células. Por esta razão, resolveu-se investigar se haveria modulação do seu comportamento frente ao estiramento in vitro, sob condições controladas. Foi demonstrado que as CML diminuem a atividade proliferativa em resposta ao estiramento cíclico da mesma forma que ao estiramento estático. Em relação à expressão de proteínas relacionadas à atividade contrátil (a-actina e cadeia pesada da miosina de músculo liso), os resultados obtidos indicam que as CML respondem ao estiramento cíclico com um aumento na concentração destas proteínas o que poderia indicar hipertrofia celular, o que foi confirmado pela quantificação do conteúdo de F-actina por citometria de fluxo. Este efeito não foi observado frente ao estiramento estático. Os dois conjuntos de dados confirmam que as CML apresentam grande versatilidade fenotípica, respondendo de formas diferentes não somente a estímulos hormonais, mas também a variação na demanda funcional / Abstract: Smooth muscle cells (SMC) are the main component of the prostatic stroma and play important roles in the organ physiology, acting on the contraction associated with ejaculation and on the remodeling related to neoplasias or androgen deprivation, on the production of paracrine factors and the synthesis/degradation/reorganization of extracellular matrix components, after an intricate mechanism of intercommunication with epithelial cells. Besides, it has been proposed that tumor invasion depends on the active participation of stromal cells, including SMC, on the production of MMPs and/or their inhibitors among other factors. The present study investigated the expression of smooth muscle markers on the rat ventral prostate after long term androgen deprivation. Another set of experiments were designed to study the effect of mechanical stretching on SMC behavior in culture. The results demonstrated that SMC are affected by androgen deprivation. Even though the SMC exhibited morphological changes, they kept the expression of smooth muscle markers at the protein (SM a-actin and SM-MHC) and mRNA levels (smoothelin, sm22 and calponin). These results reinforce the idea that prostatic SMC modulate their phenotype (contractile vs. synthetic) without compromise the differentiation state. It is well known that the primary function of the SMC is the organ contraction and that it subjects the cells to mechanical deformation. For this reason, it was decided to test whether SMC modulate their behavior in response to mechanical stretching in vitro under controlled conditions. It was demonstrated that both cyclic and static mechanical stretches decrease SMC proliferation. On the other hand, cyclic stretching increased the concentration in SM-MHC and SM a-actin that could be associated with cell hypertrophy. To confirm this hypothesis, the F-actin content was measured through the intensity of FITC-phalloidin labeling by flow cytometry at the single cell level. The results confirmed that cyclic stretching caused a significant increase in cytoskeleton mass, what is compatible with cell hypertrophy. This effect was not observed after static stretching. The two sets of results confirm that SMC exhibit great phenotypical versatility, responding not only to hormonal stimuli, but also to functional demands / Doutorado / Biologia Celular / Doutor em Biologia Celular e Estrutural

Prostata

Miócitos de músculo liso

Castração

Estiramento mecanico

Prostate

Smooth muscle cell

Castration

Mechanical stretch