Efeito do tratamento neonatal com 17-'beta'-estradiol sobre o penis de rato em diferentes idades : aspectos estruturais do orgão e expressão do receptor de androgeno pelas celulas musculares lisas e endoteliais in vitro / Effects of neonatal 17-'beta'-estradiol treatment on the rat penis at different ages : structural aspects of the organ and androgen receptor expression by smooth muscle cells and endothelial cells in vitro

Cardoso, Lilian Caroline Vaz

13 August 2018

Orientador: Hernandes Faustino de Carvalho / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-13T19:33:26Z (GMT). No. of bitstreams: 1 Cardoso_LilianCarolineVaz_M.pdf: 2401125 bytes, checksum: 71ef0bb78a4f9804919ce3f2d13b8a0a (MD5) Previous issue date: 2009 / Resumo: Os hormônios androgênicos (testosterona e diidrotestosterona) regulam a diferenciação e o crescimento das estruturas penianas via receptor de andrógenos (AR), tendo este função reguladora da transcrição de genes relacionados a aspectos do desenvolvimento de indivíduos do sexo masculino. A presença de receptores de estrógenos no pênis permite assumir que o 17-â-estradiol (E2) e moléculas similares tenham efeito direto sobre sua fisiologia. De forma geral, o estrógeno tem efeito anti-androgênico, atuando sobre o eixo hipotálamo-hipófise e, assim, reduzindo a produção de testosterona pelos testículos. O estrógeno é essencial para funcionamento reprodutivo em machos, no entanto, a exposição ao estrógeno ou xenobióticos durante períodos críticos do desenvolvimento pode ter conseqüências negativas para o trato reprodutivo e para a fertilidade, através de um mecanismo conhecido como imprinting estrogênico. Um dos efeitos do imprinting estrogênico causado por altas doses de estrógeno é o comprometimento do desenvolvimento peniano. Embora seja controverso na literatura, este efeito se daria pela regulação negativa da expressão do AR e reduzida resposta aos andrógenos. Sendo assim, para estudar o efeito do imprinting estrogênico no desenvolvimento do pênis foram administrados 25 µL de óleo de milho contendo E2 a 15 mg/kg (dose alta) (Putz, et al., 2001 a, b) a ratos Wistar, nos dias 1, 3 e 5 após o nascimento e observação dos efeitos nos períodos pré-púbere (28 dias), púbere (49 dias) e adulto (90 dias). Foi feito ainda isolamento de células musculares lisas (CML), cultivadas com e sem T, e endoteliais do órgão. Para cada situação, a expressão do AR foi verificada por Western blotting e a localização por imunocitoquímica. Para o órgão e as células CML, a expressão do RNAm do AR foi analisado por Real-time PCR. Nos animais adultos foram quantificados: colágeno solúvel, hidroxiprolina e glicosaminoglicano (GAG). O tratamento neonatal com E2 resultou na queda do peso corporal, má formação do pênis, menor quantidade de hidroxiprolina e maior quantidade de GAG. A expressão do AR aumentou em animais de 28 dias e reduziu aos 90 dias. Nessas idades a marcação do AR foi menos intensa nos animais estrogenizados em todos os compartimentos penianos. Nas CML, a expressão do AR exibiu padrão diferente quando cultivadas com ou sem T. Nas células endoteliais a expressão não varia com a idade, porém diminui naquelas isoladas de animal tratado. A exposição neonatal ao E2 causa má formação do pênis o que pode estar relacionado à alteração da expressão do AR no órgão, nas CML e endoteliais presentes no mesmo. / Abstract: The androgens, testosterone and dihydrotestosterone, regulate the differentiation and growth of penile structures through the androgen receptor (AR), which regulates the transcription of genes associates with several aspects of the development of male individuals. In contrast to the prostate, the AR expression in the penis of the rat falls with age according to the androgen levels reached in the adult. The presence of estrogen receptor in the penis allows the assumption that 17-â- estradiol (E2) and similar molecules have direct effect on its physiology. It is known that estrogen has an anti-androgenic effect acting on the hypothalamic-pituitary axis reducing the production of testosterone by the testes. The estrogen is essential for reproductive function in males, but the exposure to estrogen or xenobiotics during critical periods of the development has negative consequences for the reproductive tract and fertility, through a mechanism known as estrogenic imprinting. One of the effects of estrogenic imprinting caused by high doses of estrogen is defective penile development. Although controversial in the literature, this effect occurs by down regulation of androgens receptors and reduced response to androgens. To study the effect of estrogenic imprinting on penis development, Wistar rats received subcutaneous injections of 25 µL of corn oil containing E2 at a dose of 15 mg/kg body weight (Putz, et al., 2001 a, b) on days 1, 3, and 5 after birth and observation of the effects on 28, 49 or 90 days after birth (prepubertal, pubertal and adulthood stages, respectively). Smooth muscle cells (SMC) and endothelial cells were isolated from the organ. For each situation, AR expression was verified by Western blotting and the localization by immunocitochemstry. Androgen receptor mRNA expression was done for the penis and SMC by Real-time PCR. In adult animals soluble collagen, hydroxyproline and glycosaminoglycans (GAGs) were quantified. Neonatal treatment with E2 resulted in reduction of weight and abnormal development of the penis at all ages, reduction in hydroxyproline and increase in GAGs. The AR expression increased at 28 days, but not at 90 days and in these ages the staining intensity of AR was smaller in all penile compartments. In SMC, AR expression exhibited a different expression pattern when cultured with or without T. In endothelial cells, the AR expression increased on day 28, reducing in the other ages, but without difference in comparison to control, what leds us to believe that endothelial cells do not interfere in the reduction AR expression after sexual maturation. The neonatal treatment with E2 leds to abnormal penile development what may be related to an alteration of AR expression in the organ and in their SMC and endothelial cells. / Mestrado / Biologia Celular / Mestre em Biologia Celular e Estrutural

Penis

Estradiol

Receptores de andrógenos

Miócitos de músculo liso

Células endoteliais

Penis

Estradiol

Androgen receptors

Smooth muscle cell

Endothelial cells

Expressão gênica de fatores relacionados à  hipóxia e fibrose em pacientes submetidos à  ampliação vesical por disfunção neurogênica do trato urinário inferior / Expression of hypoxia and fibrosis related genes in patients with neurogenic lower urinary tract dysfunction undergoing bladder augmentation surgery

Thiago Souto Hemerly

06 June 2018

Introdução: A disfunção neurogênica do trato urinário inferior (DNTUI) é comum, tendo como causa diversas doenças neurológicas e se apresentando de maneira diversa e heterogênea. O tratamento da DNTUI pode incluir medicamentos, utilização de toxina botulínica intravesical e tratamento cirúrgico. A cirurgia de ampliação vesical é uma alternativa consagrada, usada principalmente no caso de bexigas fibrosadas ou em pacientes refratários ao tratamento conservador ou minimamente invasivo. Os mecanismos que levam à progressão da fibrose vesical e à refratariedade aos tratamentos conservadores nessa população de pacientes não são bem conhecidos. Objetivos: Avaliar a expressão gênica dos fatores relacionados à hipóxia e fibrose nos pacientes com DNTUI e correlacionar o padrão de expressão gênica com as características urodinâmicas dos pacientes estudados. Métodos: Foram avaliados prospectivamente 17 pacientes com DNTUI que foram submetidos à cirurgia de ampliação vesical pelo Departamento de Urologia do HCFMUSP. Os pacientes foram avaliados de acordo com os sintomas clínicos, exames laboratoriais e avaliação urodinâmica completa. Durante a cirurgia foi obtido um fragmento vesical interessando todas as camadas da bexiga para análise de expressão gênica com utilização de qRT-PCR de MMP-1, TIMP-1, HIF1alfa, HIF2alfa, HIF3alfa, iNOS, eNOS, VEGF e CTGF. Amostras vesicais de 9 doadores cadavéricos foram utilizados como controles. Resultados: A média dos pacientes estudados foi de 37,5 anos, com complacência vesical variando entre 3,8 e 50 ml/cmH20, com média de 11,16ml/cmH20. Os pacientes apresentaram superexpressão estatisticamente significativa de TIMP-1 e HIF3alfa e subexpressão estatisticamente significativa de MMP-1. A expressão gênica de HIF1alfa e HIF2alfa também apresentou uma tendência à superexpressão, apesar de não ser estatisticamente significativa (p = 0,14 e p = 0,11). Os outros genes avaliados foram expressos de forma heterogênea. Conclusão: Em pacientes com DNTUI associados a fibrose vesical e/ou refratariedade ao tratamento conservador, que foram submetidos à cirurgia de ampliação vesical, os fatores relacionados ao aumento da deposição da matriz extracelular e à hipóxia parecem ser relevantes na progressão da disfunção vesical. Esse achados são compatíveis com estudos em modelos animais de obstrução infravesical e hipóxia e reforçam a necessidade de estudos complementares para o melhor entendimento da fisiopatologia da progressão da disfunção vesical na DNTUI / Introduction: The neurogenic lower urinary tract dysfunction (NLUTD) is a common complication of a variety of neurological diseases and can present itself in a diverse and heterogeneous way. NLUTD can be treated with anticholinergic or alfa3 agonists drugs, intravesical botulinum toxin and/or surgical treatment. The bladder augmentation surgery is a classic alternative, used mainly in cases of fibrotic bladders or in patients with refractory symptoms with conservative treatment. The mechanisms that lead to the progression of bladder fibrosis and to conservative treatments failure are not well known. Objectives: To evaluate the expression of fibrosis and hypoxia related genes in patients with NLTUD and correlate the pattern of gene expression with urodynamic data of the population studied. Methods: We analyzed bladder specimens of 17 patients with NLUTD undergoing bladder augmentation surgery due to bladder fibrosis or conservative treatment failure. Urodynamic tests were performed in all patients. A bladder fragment was obtained during surgery for relative gene epression with quantitative real-time polymerase chain reaction (qRT-PCR) of MMP-1, TIMP-1, HIF1alfa, HIF2alfa, HIF3alfa, iNOS, eNOS, VEGF e CTGF. 9 cadaveric organ donors composed the control group. Results: The mean age of the patients was 37.5 years. Bladder compliance ranged form 3,8 to 50 ml/cmH20, with a mean of 11,16 ml/cmH20. Patients undergoing bladder augmentation surgery presented a statistically significant overexpression of TIMP-1 and HIF3alfa. MMP-1 was statistically significant underexpressed. The gene expression of HIF1alfa and HIF2alfa also showed a tendency to overexpression, although it was not statistically significant (p = 0,14 and p = 0,11). The other genes were expressed heterogenously. Discussion: In patients with NLUTD associated with bladder fibrosis and/or failure to conservative treatment, the gene expression of factors related to increased extracellular matrix deposition and hypoxia appears to be relevant in the progression of bladder dysfunction. These findings are comparable with studies in animal models of bladder oulet obstrucion and hypoxia and reinforces the need for complentary studies to better understand the pathophysiology of the progression of bladder dysfunction in the NLTUD

Bexiga neurogênica

Hipóxia

Matriz extracelular

Músculo liso

Urodinâmica

Extracellular matrix

Hypoxia

Neurogenic urinary bladder

Smooth muscle

Urodynamics

Vascular calcification in rat cultured smooth muscle cells : a role for nitric oxide

Alsabeelah, Nimer Fehaid N.

January 2016

The underlying inflammatory storm in renal or diabetic disease may induce expression of inducible nitric oxide synthase (iNOS). Similarly, expression of iNOS or nitric oxide (NO) production in vascular smooth muscle cells (VSMCs) in a calcifying environment, may promote vascular calcification (VC) (Zaragoza et al., 2006). However, emerging data suggests that NO generated by either endothelial nitric oxide synthase (eNOS) or iNOS may protect VSMCs from VC (Kanno et al., 2008). Thus, the role of NO and its associated enzymes in the development of VC is unclear. The aim of this study was to identify whether NO produced by iNOS regulates calcification in VSMCs, and to further understanding of potential mechanisms that may mediate the actions of NO/iNOS. A significant and sustained production of NO by iNOS, which peaked at day 3 and declined thereafter was found in rat aortic smooth muscle cells (RASMCs) that were preactivated with lipopolysaccharide (LPS; 100μg ml-1) and interferon gamma (IFN-γ;100U ml-1) in the presence of calcification buffer (CB) containing calcium chloride (CaCl2; 7mM) and β-glycerophosphate (β-GP; 7mM). This was associated with formation of hydroxyapatite crystals (HA) or calcification plaques, observed via alizarin red staining (ARS) and/or fourier transform infrared (FT-IR) analysis. However, when RASMCs were incubated with the iNOS inhibitor GW274150 at 10 μM, together with LPS + IFN-γ + CB, HA crystal formation was abolished. When RASMCs were pretreated with diethylenetriamine/nitric oxide adduct (NOC 18) at either 30 or 50 μM for an hour prior to addition of CB, to generate NO; calcium levels were elevated leading to form HA crystals. However, the elevation of calcium caused by the presence of NO generated via iNOS, did not result in phosphorylation of mitogen activated protein kinases (p38 MAPK), extracellular signal-regulated kinases (Erks), and protein kinase B. Furthermore, there was a reduction of Runx2 levels (pro-calcific factor) which could be another pro-calcific factor involved in this mechanism. These findings suggest that NO may indeed play a fundamental role in calcification, enhancing mineralisation of smooth muscle cells. Furthermore, the expression of iNOS/ NO appears to be enhanced under conditions that favour calcification and these together may contribute to enhanced calcification with potential detrimental consequences in vivo.

572

The role of prostaglandins, nitric oxide and oxygen in the ductus arteriosi of the pre-term chicken embryo (Gallus domesticus).

Greyner, Henry José

12 1900

The chicken ductus arteriosi (DA) are two embryonic blood vessels that shunt blood away from the non-ventilated lungs and towards the body and chorioallantoic membrane. I show that prostaglandins have a diminished role in maintaining chicken DA patency and nitric oxide inhibits oxygen induced contraction of the day 19 proximal DA in a time dependent manner. The pathways governing oxygen induced contraction in the chicken DA are similar to those found in mammals and include contributions from ROS, Kv channels, L-type Ca2+ channels, and the Rho kinase pathway. Longer exposure to high oxygen generates increased oxygen induced constriction of the day 19 DA that may be mediated through the Rho kinase pathway.

prostaglandins

Ductus artieriosi

chicken embryos

smooth muscle contraction

oxygen

cardiovascular physiology

Ductus arteriosus.

Chickens -- Embryos -- Physiology.

Prostaglandins.

Nitric oxide.

Oxygen.

Atividade biologica e citotoxicidade de matriz polimerica com doador de oxido nitrico / Biological activity and cytotoxicity of polymeric matrix with nitric oxide donor

Soraggi, Claudia de Lourdes

23 November 2006

Orientadores: Maria Edwirges Hoffmann, Marta Helena Krieger / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-07T20:12:26Z (GMT). No. of bitstreams: 1 Soraggi_ClaudiadeLourdes_D.pdf: 1381104 bytes, checksum: c9a1645ee2ea31e5e43d843d4db6a1fd (MD5) Previous issue date: 2006 / Resumo: O óxido nítrico é uma molécula multifuncional, a qual está envolvida numa extensa variedade de funções fisiológicas, estendendo-se da neurotransmissão, citotoxicidade de macrófagos e modulação das funções fisiológicas do sistema cardiovascular. Devido às ações benéficas do NO nas diversas disfunções vasculares, há um grande interesse no desenvolvimento em dispositivos que possam liberar NO de maneira controlada no sistema cardiovascular e tecido-específica. Por exemplo, 'stents¿ intracoronarianos recobertos por materiais com liberação de NO, podem reduzir a incidência da reestenose e inibir a formação da neoíntima após angioplastia percutânea coronariana. O objetivo deste estudo foi o de estabelecer protocolos para avaliação da citotoxicidade e do potencial anti-reestenótico e anti-trombogênico de formulações eluidoras de NO para aplicações em dispositivos intravasculares. As formulações eluidoras de NO foram avaliadas por meio de: A) citotoxicidade através dos ensaios da redução do MTT e da captação do vermelho neutro (NR) com as linhagens celulares: 3T3 e RASM, B) potencial anti-reestenótico utilizando-se o ensaio de inibição da proliferação celular com células de musculatura lisa de coelho (RASM) e C) potencial anti-trombogênico, utilizando-se plaquetas humanas em ensaios de agregação e adesão plaquetária. Foram testadas S-nitrosoglutationa (GSNO), solução polimérica contendo poli (vinil álcool) PVA e poli (vinil pirrolidona) (PVP), e formulação contendo PVA, PVP, GSNO. O ensaio da captação do vermelho neutro mostrou que a GSNO e GSNO/PVA/PVP não apresentaram citotoxicidade em concentrações até 30 mg/mL de GSNO, em ambas as linhagens celulares. Enquanto que o ensaio de redução do MTT mostrou que apenas a solução contendo GSNO apresentou citotoxicidade com EC50=2,75±0,05 mg/mL em células 3T3. A sensibilidade da linhagem 3T3 foi maior do que =2,3±0,4 µg/mL), e GSNO (EC= 2,5±0,3 µg/mL). O ensaio da adesão plaquetária mostrou que a inibição superior a 50% causada pela GSNO só foi obtida em concentração acima 6,72 mg/mL, mas nesta concentração não foram encontradas plaquetas viáveis. Os resultados mostraram que a metodologia adotada foi apropriada para a avaliação do potencial anti-reestenótico e anti-trombogênico e também para estabelecer a margem de segurança de novas formulações envolvendo S-nitrosoglutationa e soluções poliméricas. para células RASM, enquanto que células RASM foram mais sensíveis à alteração de permeabilidade de membrana. A GSNO per se promoveu inibição da proliferação celular no ensaio da proliferação celular e este efeito foi potencializado em presença dos polímeros PVA/PVP em concentrações superiores a 22,7 mg/mL. Foi verificada inibição da agregação plaquetária para ambas as soluções, GSNO/PVA/PVP (EC5050 =2,3±0,4 µg/mL), e GSNO (EC= 2,5±0,3 µg/mL). O ensaio da adesão plaquetária mostrou que a inibição superior a 50% causada pela GSNO só foi obtida em concentração acima 6,72 mg/mL, mas nesta concentração não foram encontradas plaquetas viáveis. Os resultados mostraram que a metodologia adotada foi apropriada para a avaliação do potencial anti-reestenótico e anti-trombogênico e também para estabelecer a margem de segurança de novas formulações envolvendo S-nitrosoglutationa e soluções poliméricas / Abstract: Nitric oxide (NO) is a multifunctional molecule which is involved in a wide variety of physiological functions, ranging ftom neurotransmission, macrophage cytotoxicity, and modulation of physiological functions of the cardiovascular system. Due to NO beneficial action in various vascular pathological conditions, there is a great interest on development in devices that can release NO by a controlled manner and tissue-specific. For example, intracoronary stents coated with NO releasing materials, may reduce the incidence of restenosis and inhibit neo-intima formation after following percutaneous angioplasty. The aim of this study was to establish protocols for evaluation of NO eluting formulations cytotoxicity and antirestenotic and antithrombotic activities which have potential for application in intravascular devices. NO releasing formulations were evaluated regarding to following aspects: A) cytotoxicity measured by MTT reduction and Neutral Red uptake assays with 3T3 and RASM celllines, B) antirestenotic potential by using cell proliferation assay, with rabbit smooth muscle cells ~M), and C) antithrombogenic potential, by using a human platelet aggregation and adhesion assays. S-nitrosoglutathione (GSNO), polymer solutions containing poly(vinyl alcohol) (pV A) and poly(vinyl pyrrolidone) (pVP), and formulation containing GSNO, PV A and PVP were tested. Neutra! Red uptake assays showed that .GSNO and GSNOIPV A/P)'P-solutions presented no cytotoxicity up to 30 mg /mL GSNO, in both celllines. While, MTT reduction assays showed that only the solution of GSNO alone presented cytotoxicity with ECso=2.75± 0,05 mg/rnL, in 3T3 cell line. The sensitivity of3T3 cells to cytotoxicity was higher than that ofRASM cells, while RASM cells were more sensitivity to membrane permeation alterations. GSNO per se presented inhibition in a cell proliferation assay and this effect was potentialized with PV AIPVP in concentrations up 'to 22.7 mglmL. Concentration-dependent inhibition of platelet aggregation was verified for both GSNO/PV AIPVP (ECso of 2.3±0.4 JlglmL), and GSNO alone (ECso of 2.5±0.3 JlglrnL) solutions. Platelet adhesion assay showed that the inhibition above 50% caused by GSNO only in concentration up to 6.72 mglmL was found, but in this concentration range, decrease of viable platelets was presented. The results showed that the methodology adopted was suitable to evaluate antirestenotic and antithrombotic potential, and to establish security margins for the development of new formulations involving GSNO and polymers in solution / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular

Miócitos de músculo liso

Citotoxicidade

Óxido nítrico

GSNO

Matriz polimerica

Smooth muscle cell

Cytotoxicity

Nitric oxide

GSNO

Polymeric matrix

Inibição do proteasoma aumenta o estresse oxidativo e bloqueia a resposta da NADPH oxidase a estímulos em células musculares lisas vasculares / Proteasome Inhibiton increases oxidative stress and disrupts NADPH oxidase response to stimuli in vascular smooth muscle cells

Angelica Mastandréa Amanso

24 June 2009

Processos celulares que governam as NADPH oxidases vasculares em condições patológicas não estão claros ainda. Como os processos redox são parte intrínseca da resposta da célula ao estresse, temos investigado se o estresse oxidativo pode convergir com outros tipos de estresse via Nox(es). No presente estudo, focamos na inibição do proteasoma como uma condição relevante de estresse. A incubação de células musculares lisas com concentrações não apoptóticas de inibidores do proteasoma, MG132 e lactacistina, promoveu aumento na produção basal de superóxido e na atividade da NADPH oxidase, diminuição da atividade da SOD e da razão GSH/GSSG. Por outro lado, a inibição do proteasoma diminui a atividade da Nox após estímulo com Angiotensina II ou Tunicamicina, conhecido estressor do retículo endoplasmático. Em condições basais, MG132 induz a expressão de mRNA da Nox1, entretanto o aumento de Nox1 induzido por Angiotensina II foi diminuído na presença de MG132. O mesmo efeito ocorre com a indução de Nox4 pela Tunicamicina, que nesse caso foi drasticamente reduzida na presença de MG132. Além disso, tanto Angiotensina II quanto Tunicamicina induziram a atividade lítica do proteasoma 20S. A seguir, investigamos as conseqüências fisiológicas do MG132 na sinalização do estresse do RE, uma conhecida resposta mediada por Nox4. Células vasculares incubadas com MG132 induzem a expressão de marcadores do estresse do RE, GRP78 e XBP1, e também os marcadores mais tardios ATF4 e o próapoptótico CHOP/GADD153. Resultados similares ocorrem também com a Tunicamicina. Entretanto, a co-incubação de Tunicamicina e MG132 diminui e a sinalização do estresse do RE. AKT e p38 MAPK foram ativados por MG132, possivelmente como resposta ao estresse induzido pela inibição do proteasoma. Assim, a inibição do proteasoma bloqueia a NADPH oxidase, com aumento da atividade basal e expressão da Nox1 versus forte inibição da ativação e expressão da Nox4 frente ao estímulo. A inibição da Nox4 associa-se e pode contribuir para a inibição pelo MG132 da sinalização do estresse do RE. Portanto, o proteasoma parece exercer papel na integração de estresses celulares envolvendo a NADPH oxidase. A inibição do proteasoma pode ter papel na terapia de doenças associadas a estresse do RE. / Cellular processes governing vascular Nox family NADPH oxidases in disease conditions are unclear. Since redox processes are intrinsic to cell stress response, we asked whether oxidative stress merges with other types of stress via Nox(es). We focused on proteasome inhibition as a relevant stress condition. Vascular smooth muscle cells (VSMC) incubation with non-apoptotic concentrations of proteasome inhibitors MG132 or lactacystin promoted increased baseline superoxide generation (HPLC/DHE products) and NADPH oxidase activity, decreased SOD activity and GSH/GSSG ratio. Conversely, proteasome inhibitors decreased by Nox response to Angiotensin II (AngII) and abrogated Nox response to endoplasmic reticulum (ER) stressor tunicamycin. With MG132, basal Nox1 mRNA levels were increased, while Nox1 response to AngII was blunted. Moreover, MG132 abolished Nox4 mRNA levels TN-induced. Both AngII and TN (at 2 and 4 hs) promoted increased 20S proteasome lytic activity. We next assessed physiological consequences of MG132 in ER stress signaling, a known Nox4- mediated response. VSMC incubation with MG132 alone enhanced expression of the ER stress markers Grp78 and XBP1 and late markers such as ATF4 and proapoptotic CHOP/GADD153. Similar results occurred with the known ER stressor TN. However, co-incubation of TN and MG132 decreased Grp78, Grp94 and CHOP/GADD153, indicating that proteasome inhibition interrupts ER stress. AKT and p38 are activated by MG132 as response to stress and recover to survival. Thus, proteasome inhibition disrupts NADPH oxidase, with increased baseline activity and Nox1 expression vs. strong inhibition of stimulated Nox1 and Nox4 activation/expression. The later effect may underlie MG132-mediated inhibition of ER stress signaling. (Support: FAPESP, CNPq Milênio Redoxoma)

Células musculares lisas

Estresse oxidativo

Isomerase de dissulfeto da proteína

NADPH oxidase

NADPH oxidase

Oxidative stress

Protein disulfide isomerase

Smooth muscle cells

Rôle de SIRT1 et de la biogenèse mitochondriale dans la prolifération des cellules du muscle lisse de l'artère pulmonaire / The role of SIRT1 and mitochondrial biogenesis in the proliferation of pulmonary artery smooth muscle cells

Zurlo, Giada

04 December 2015

L’hypertension artérielle pulmonaire (HTAP) est une maladie mortelle caractérisée par un important remodelage vasculaire, principalement dû à l’hyperprolifération et à la résistance à l’apoptose des cellules du muscle lisse de l’artère pulmonaire (CML-AP). Récemment il a été montré que les CML-AP présentent un remodelage du métabolisme énergétique, avec une régulation négative de l’oxidation phosphorylante associée à une activation de la voie glycolytique, qui semble contribuer à leur phénotype particulier. La désacétylase sirtuine1 (SIRT1) est un important modulateur du métabolisme énergétique, notamment via son activation de peroxisome proliferator-activated receptor gamma coactivator-1 alpha (PGC-1α), régulateur clé de la biogenèse mitochondriale. Dans cette étude, nous montrons pour la première fois que la prolifération des CML-AP de rat et humaines est caractérisée par une réduction de l’activité de SIRT1, et est augmentée suite à l’inhibition pharmacologique ou la sous-expression spécifique de SIRT1. De plus, suite à hypoxie chronique, des souris génétiquement déficientes en SIRT1 présentent un remodelage vasculaire plus important que celui observé chez les souris contrôles, ce qui est associé à une augmentation accentuée de l’hypertrophie et de la pression systolique du ventricule droit. Au contraire, l’activation pharmacologique de SIRT1 inhibe fortement la prolifération des CML-AP, et est associée à l’activation de la biogenèse mitochondriale. L’ensemble de ces résultats suggère que l'inactivation de SIRT1 joue un rôle causal dans l’hyperprolifération des CML-AP et cette enzyme pourrait être une nouvelle cible thérapeutique prometteuse pour le traitement de l’HTAP. / Pulmonary arterial hypertension (PAH) is a lethal disease characterized by an intensive vascular remodelling, mainly due to hyper-proliferation and resistance to apoptosis of pulmonary artery smooth muscle cells (PASMCs). Recently it has been found that PASMCs, similarly to cancer cells, demonstrate a shift in energy metabolism from oxidative phosphorylation towards glycolysis thus contributing to their particular phenotype. The deacetylase sirtuin1 (SIRT1) is an important modulator of energy metabolism, particularly via its activation of peroxisome proliferator-activated receptor gamma coactivator-1 alpha (PGC-1α), the master regulator of mitochondrial biogenesis. Here we show for the first time that rat and human PASMC proliferation is characterised by a diminution of SIRT1 activity, and is potentiated by SIRT1 pharmacological inhibition or specific downregulation. Moreover, after chronic hypoxia exposure, SIRT1 KO mice display a more intense vascular remodelling compared to their control littermates and this is associated with an exacerbated increase in right ventricle systolic pressure and hypertrophy. Conversely, pharmacological SIRT1 activation strongly inhibits PASMC proliferation, and is associated with the activation of mitochondrial biogenesis. In general, the data obtained show that SIRT1 inactivation plays a causative role in PASMC proliferation and this enzyme could be a promising therapeutic target for PAH treatment.

Sirtuine

Prolifération

Hypertension artérielle pulmonaire

Biogenèse mitochondriale

Métabolisme

Muscle lisse

Sirtuin

Proliferation

Pulmonary arterial hypertension

Mitochondrial biogenesis

Metabolism

Smooth muscle

Évaluation du rôle de nouvelles isoformes de PDE dans la compartimentation des nucléotides cycliques dans les cellules musculaires lisses vasculaires et les cardiomyocytes / Evaluation of the role of new PDE isoforms in cyclic nucleotide compartmentation in vascular smooth muscle cells and cardiomyocytes

Zhang, Liang

28 September 2017

Les deux nucléotides cycliques, AMPc et GMPc, sont des seconds messagers importants qui régulent une grande variété de fonctions cellulaires, en particulier la fonction contractile cardiovasculaire, la croissance des cardiomyocytaires et la prolifération des cellules musculaires lisses vasculaires. Les phosphodiestérases (PDE) dégradent les nucléotides cycliques et exercent un contrôle local de leur concentration intracellulaire. Une altération de la voie de signalisation des nucléotides cycliques est impliquée dans plusieurs situations pathologiques telles que l’hypertension artérielle systémique ou pulmonaire, l’athérosclérose et l'hypertrophie cardiaque. Ainsi, les PDE constituent de puissantes cibles thérapeutiques pour restaurer un contrôle correct des nucléotides cycliques. Onze familles de PDEs sont actuellement décrites, les PDE1-6 étant les plus étudiées et les PDE 7-11 représentant de nouvelles familles.L'objectif de cette thèse était d'étudier le rôle respectif de 4 familles de PDEs, la PDE1, famille stimulée par le complexe Ca2+/calmoduline, les PDE5 et PDE9 spécifiques du GMPc, et la PDE8 spécifique de l'AMPc, dans le contrôle des concentrations intracellulaires d'AMPc ([AMPc]i) et de GMPc ([GMPc]i) dans les cellules musculaires lisses aortiques de rat (CMLARs) et les myocytes cardiaques de rat en utilisant une approche pharmacologique facilitée par le développement de nouveaux inhibiteurs sélectifs de PDEs. Les activités d'hydrolyse d’AMPc et de GMPc ont été mesurées par dosage enzymatique, tandis que les [AMPc]i et [GMPc]i ont été suivies sur cellules isolées, in situ, en temps réel, grâce à l'utilisation de l'imagerie FRET (Fluorescence Resonance Energy Transfer). Dans les CMLARs en culture, une activité d'hydrolyse des nucléotides cycliques via les PDE1, PDE5 et PDE9 a été observée. Nous avons montré un rôle fonctionnel de la PDE1 non stimulée dans le contrôle de l’augmentation de la [GMPc]i induite par le peptide natriurétique de type C (CNP). Il est intéressant de noter que, lors de l’élévation de la concentration intracellulaire en Ca2+, la PDE1 exerce également un contrôle de la réponse GMPci induite par le monoxyde d’azote (NO) et de la réponse AMPc médiée par la stimulation des récepteurs β-adrénergiques (β-AR). La PDE5 exerce un rôle majeur dans la réponse GMPc provoquée par l'activation de la guanylyl cyclase (GC) soluble par le NO ou des GC membranaires par les peptides natriurétiques, CNP et ANP. En revanche, la PDE9 ne régule que la réponse GMPc induite par le NO dans les RASMC cultivées. Aucune activité ou fonction hydrolytique de l'AMPc n'a été révélée avec l'inhibiteur de la PDE8 dans les CMLARs ou les cardiomyocytes de rat. Dans ces cellules cardiaques, l'activité d'hydrolyse médiée par la PDE1 n'a été détectée que sur la réponse GMPc et uniquement en présence de Ca2 +/Calmoduline. L'inhibiteur de la PDE1 n'a que légèrement affecté la réponse AMPc médiée par les récepteurs β-AR, par augmentation du pic du signal FRET.En conclusion, notre travail démontre que dans les cellules musculaires lisses vasculaires, les PDE1, PDE5 et PDE9 exercent une régulation spécifique et locale des [AMPc]i et [GMPc]i, renforçant le rôle clé des PDEs dans la compartimentation subcellulaire de la signalisation des nucléotides cycliques. / The two cyclic nucleotides cAMP and cGMP are important second messengers that regulate a large variety of cellular functions, in particular cardiovascular contractile function, cardiomyocyte cell growth and vascular smooth muscle cell proliferation. Phosphodiesterases (PDEs) degrade cyclic nucleotides, and exert a fine local control of their intracellular concentration. Alteration of cyclic nucleotides signaling pathway is involved in several pathological situations such as systemic and pulmonary arterial hypertensions, atherosclerotic lesions and cardiac hypertrophy. Thus, PDEs constitute potent therapeutic targets to restore a right cyclic nucleotide function. Eleven families of PDEs are now described, PDE1-6 being the most studied and PDE 7-11 representing the new families.The aim of the present thesis was to investigate the respective role of 4 PDE families, the Ca2+/calmodulin-stimulated PDE1, the cGMP-specific PDE5 and PDE9, and the cAMP-specific PDE8, in controlling intracellular cAMP ([cAMP]i) and intracellular cGMP ([cGMP]i) concentrations in both rat aortic smooth muscle cells (RASMCs) and cardiac myocytes by using a pharmacological approach taken advantage of the development of new selective PDE inhibitors. Cyclic AMP- and cGMP-hydrolyzing activities were measured by enzymatic assay on cell lysate, whereas real-time [cAMP]i and [cGMP]i were followed in situ in isolated cells using Fluorescence Resonance Energy Transfer (FRET) imaging. In cultured RASMCs, PDE1, PDE5 and PDE9 hydrolyzing activities were observed. We showed a functional role of basal PDE1 in controlling [cGMP]i increased by the C-type Natriuretic Peptide (CNP). Interestingly, upon high intracellular Ca2+ concentration, PDE1 also regulated the Nitric Oxide (NO)-mediated [cGMP]i response and the β-adrenoceptor (β-AR)-mediated [cAMP]i response. PDE5 exerted a major role in degrading [cGMP]i produced by the activation of either the soluble guanylyl cyclase (GC) elicited by NO or the particulate GCs by the natriuretic peptides, CNP and ANP. By contrast, PDE9 only regulated NO-induced [cGMP]i increase in cultured RASMCs. No cAMP-hydrolyzing activity or function was revealed with the PDE8 inhibitor in RASMCs or cardiac myocytes. In rat cardiomyocytes, PDE1-mediated hydrolyzing activity was only detected on cGMP in the presence of Ca2+/calmodulin. Unexpectedly, PDE1 inhibition slightly affected the β-AR-mediated [cAMP]i response by increasing the peak of FRET signal.In conclusion, our work underscores the distinct role of PDE1, PDE5, and PDE9 in locally regulating the [cAMP]i and [cGMP]i, in vascular smooth muscle cells, strengthening the concept of PDEs as key actors of cyclic nucleotide subcellular compartmentation.

AMPc

GMPc

Phosphodiestérase

Cellule musculaire lisse vasculaire

Myocyte cardiaque

Camp

Cgmp

Phosphodiesterase

Vascular smooth muscle cell

Cardiac myocyte

Fonction de la protéine LIX1 dans la régulation de la plasticité cellulaire du muscle lisse digestif / Function of the LIX1 protein in the regulation of digestive smooth muscle cell plasticity

Guerin, Amandine

25 October 2019

L’appareil digestif est un organe vital qui assure la digestion des aliments, l’absorption des nutriments et l’élimination des déchets. Une des propriétés essentielles du tube digestif est la motricité digestive qui est définie comme l’ensemble des contractions nécessaires au transit du bol alimentaire depuis la bouche jusqu’à l’anus. Les acteurs de la motricité digestive sont le système nerveux entérique, les cellules interstitielles de Cajal, et les cellules musculaires lisses. Les cellules musculaires lisses et les cellules interstitielles de Cajal ont pour origine un progéniteur mésenchymateux commun. Les cellules dérivées du mésenchyme présentent une certaine plasticité et sont capables de transiter d’un état différencié contractile et fonctionnel à un état prolifératif et immature. Toutefois, un déséquilibre de cette balance au profit de l’état d’immaturité est à l’origine de désordres de motricité digestive. Les travaux de recherches développés par l’équipe ont pour objectifs d’étudier les mécanismes qui gouvernent la différenciation des progéniteurs mésenchymateux digestifs afin d’étudier ces mécanismes en conditions pathologiques. Dans cet optique, l’équipe a identifié le gène LIX1 (LImb eXpression 1) comme le premier marqueur moléculaire de l’immaturité du muscle lisse digestif et a mis en évidence son rôle dans le contrôle de la différenciation des progéniteurs mésenchymateux au travers de la régulation de l’oncogène YAP1 (McKey et al, 2016). Dans ce contexte, le travail de recherche que j’ai réalisé s’est principalement concentré sur l’étude de LIX1 et de ses protéines partenaires dans le contrôle de la différenciation des cellules musculaires lisses gastriques et leur plasticité en conditions pathologiques.Dans un premier temps, j’ai étudié la fonction de LIX1 dans un cancer mésenchymateux du tube digestif, les GISTs (GastroIntestinal Stromal Tumor). J’ai mis en évidence le rôle et la fonction de LIX1 dans l’agressivité et dans l’immaturité des GISTs. Dans un deuxième temps, j’ai participé à la caractérisation moléculaire de cellules dérivées de patients POIC (Pseudo Obstruction Intestinale Chronique) pour lesquelles nous avons mis en évidence un défaut de différenciation associé à une expression anormale de PDGFR-A. Dans un troisième temps, j’ai développé un modèle de cellules musculaires lisses gastriques humaines dont la différenciation est maîtrisable pour étudier le métabolisme au cours de la différenciation. L’ensemble des travaux montre que LIX1 et sa mécanistique participent à la plasticité des SMCs. / The digestive tract is a vital organ ensuring food digestion, nutrient absorption and waste excretion. One of the main properties of digestive tract is the motricity which is defined as the set of contractions that allows the transition of the food from the mouth to the anus. Cells involved in the regulation of digestive plasticity are the enteric nervous cells, the interstitial cells of Cajal and the smooth muscle cells. The interstitial cells of Cajal and smooth muscle cells derived from a common mesenchymal progenitor. Mesenchyme-derived cells have the unique capacity to switch from the contractile and functional state to an immaturity state. This plasticity is responsible for motricity disorders. Our work aims to identify the mechanisms involved in the differentiation of the mesenchymal progenitors and to study those mechanisms in pathological conditions. The team previously identified the LIX1 gene (LImb eXpression 1) as the first molecular marker of the digestive smooth muscle immaturity and demonstrated its role on the differentiation of mesenchymal progenitors through the control of YAP1 (McKey et al., 2016). In this context, during my thesis, I focused on LIX1 and the mitochondrial remodeling as a putative regulatory mechanism of mesenchymal-derived cells differentiation. First, I investigated and demonstrated the role and function of LIX1 in the aggressiveness and the immaturity of the GastroIntestinal Stromal Tumor (GIST) cells. In parallel, I participated to the characterization of cells derived from CPIO (Chronic Pseudo Intestinal Obstruction) patients. Finally, I developed a new model of human gastric smooth muscle cells to evaluate the metabolism during the SMC differentiation. Altogether, we showed that LIX1 and its downstream pathways control SMC plasticity.

Progéniteurs mésenchymateux

Immaturité

Métabolisme

Plasticité

Cancers

Cellules musculaires lisses

Mesenchymal progenitors

Immaturity

Tumors

Plasticity

Smooth muscle cells

Tumors

Úloha perivaskulární tukové tkáně v rozvoji kardiovaskulárních onemocnění / Role of perivascular fat tissue in the development of cardiovascular diseases

Čejková, Soňa

January 2014

Abnormal vascular smooth muscle cell (VSMC) proliferation is thought to play an important role in the pathogenesis of atherosclerosis. Adipocytes produce several paracrine bioactive substances that can affect VSMC growth and migration. Our study focused on the ability of epicardial adipocytes to produce bioactive substances together with studying of direct effect of these substances on the VSMC proliferation rate. The gene expression of human cytokines (IL-6, IL-8, IL-18, RANTES and MCP-1) and adipokines (leptin and adiponectin) was measured in primary cell lines of epicardial and visceral adipocytes, both in undifferentiated and mature statuses. Moreover, adipokine production (IL-6, IL-8, MCP-1, VEGF and adiponectin) in conditioned media obtained from above mentioned primary cell cultures of adipocytes was measured by a Luminex assay. The VSMC proliferation rate was measured after co-culturing with CM obtained from primary cell cultures of adipocytes. The epicardial preadipocytes showed an increased expression of IL-8 (3,25-fold, p<0,05) compared with visceral preadipocytes. The expression of the adiponectin in epicardial preadipocytes was markedly decreased in comparison of the expression in visceral preadipocytes (p< 0,0001). Moreover, the gene expression was dependent on the differentiation...