MECHANICAL BEHAVIOR AND LENGTH ADAPTATION OF RABBIT BLADDER SMOOTH MUSCLE

Almasri, Atheer

28 October 2009

Overactive bladder (OAB), involuntary contractions during bladder filling, is a common condition affecting 17% of the adult population worldwide, and in the U.S. ranks ahead of diabetes in a list of the 10 most common chronic disorders (Mullins 2009). Mechanical mechanisms contributing to OAB are not completely understood and because of the unique function and broad volume range of the bladder, there may be mechanical characteristics that distinguish detrusor smooth muscle (DSM) in bladder from other smooth muscles. Recent studies have shown that the length-passive tension curve in DSM exhibits adjustable passive stiffness (APS) characterized by a passive curve that can be shifted along the length axis as a function of strain history and activation history; however, the mechanical mechanisms responsible for APS remain to be determined. Also, whether DSM exhibits a dynamic length-active tension relationship, as has been identified in airway and vascular smooth muscles, has not been investigated. This dissertation focused on both the passive and active length-tension relationships in DSM and the mechanical mechanisms responsible for these relationships. The first objective was to study the impact of APS on the length-total tension relationship and identify the mechanical mechanisms responsible for generating APS. The second objective was to determine whether the length-active tension relationship is adaptive and identify specific mechanical mechanisms contributing to any adaptive behavior. The results showed that a shift in the length-passive tension curve due to APS corresponded with a shift in the length-total tension curve in DSM, and that APS was 27.0±8.4% of active tension at the optimum length for active tension generation. Most importantly, low-grade rhythmic contraction (RC), which can occur spontaneously in rabbit and human bladders, regenerated APS. Results also showed that the length-active tension curve shifted due to stretch to and then activation at long lengths, as well as either multiple KCl-induced maximal contractions or RC. Thus, DSM exhibits length adaptation, and RC may contribute to both APS and length adaptation. Because increased RC has been correlated with OAB, understanding RC, APS and length-adaptation in bladder may enable the identification of specific targets for new treatments for OAB.

Biomechanics

Urinary Bladder

Smooth Muscle Mechanics

Length-Tension Curves

Length-Adaptation

Rhythmic Contraction

Engineering

Novel Ca2+ signalling pathways in vascular smooth muscle and endothelial cells

Lim, Chloe Siew Suan

January 2014

Novel Ca²⁺ signalling pathways in both endothelial cells and smooth muscle cells of rat small resistance arteries were investigated using a combination of confocal imaging, isometric tension recordings, and electrophysiology to study freshly isolated arteries and cells. We first examined the hypothesis that hyperpolarization could alter endothelial cell Ca²⁺ events. Hyperpolarization evoked by direct opening of K_ATP channels in the smooth muscle with levcromakalim triggered an increase in the frequency of Ca²⁺ events in the endothelium of rat cremaster arterioles. These Ca²⁺ events were discrete in nature, requiring subcellular regions of interest to reliably identify them. Opening of K_ATP channels indirectly through β-adrenoceptor stimulation with isoprenaline, caused a similar increase in the frequency of endothelial cell Ca²⁺ events in rat mesenteric third order arteries. These events also had a similar, focal profile. Pharmacological investigation suggested that the response to isoprenaline was receptor-mediated, and dependent on Ca²⁺ influx and opening of K_ATP channels. The presence of β-adrenoceptors on endothelial cells was confirmed using fluorescently-tagged β-adrenoceptor ligands, which showed punctate labelling in smooth muscle and endothelial cells of rat mesenteric arteries. Freshly isolated endothelial cells also showed Ca²⁺ increases to isoprenaline, although this was not consistently observed. Following on from the observed endothelial cell Ca²⁺ response to hyperpolarization, we tested the hypothesized involvement of hyperpolarization-activated, cyclic nucleotide-gated (HCN) channels using the channel inhibitor, ZD7288. Pre-treatment with ZD7288 (1 μM) reduced both the endothelial cell Ca²⁺ response to isoprenaline (in mesenteric arteries) and levcromakalim (in cremaster arterioles). HCN channel subtypes were identified in cremaster arterioles through immunolabelling. We also observed an interesting effect of higher concentrations of ZD7288 to potentially inhibit K⁺ channels, including endothelial cell KCa channels, since hyperpolarization to isoprenaline, levcromakalim or acetylcholine (ACh) was reduced by 10 μM ZD7288, and relaxation to ACh was partially inhibited. ACh-mediated relaxation was also partially inhibited by the clinically used HCN channel blocker, ivabradine (0.3-30 μM). Finally, we identified an interaction of the Ca²⁺-releasing second messenger nicotinic acid adenine dinucleotide phosphate (NAADP) with BKCa channels in the smooth muscle. NAADP-mobilised Ca²⁺ has been reported to interact with ryanodine receptors hence we hypothesized an interaction with BK_Ca channels via Ca²⁺ sparks. We found that NAADP-AM relaxed and hyperpolarized rat mesenteric arteries, which was blocked by iberiotoxin (BK_Ca channel inhibitor) and high extracellular [K⁺] (45 mM). Furthermore, NAADP increased paxilline-sensitive K⁺ currents and the frequency and amplitude of spontaneous transient outward currents (STOCs) in freshly isolated vascular smooth muscle cells patched in the whole-cell configuration, further supporting an action at BK_Ca channels. All together these data identify novel Ca²⁺ signalling pathways in resistance arteries that are both activated by and promote hyperpolarization, which is a key determinant of vascular tone.

615.1

Obesidade induz alterações artéria-específica: avaliação da função endotelial e do fenótipo das células musculares lisas. / Obesity leads to artery-specific alterations: evaluation of the endothelial function and smooth muscle cell phenotype.

Soares Júnior, Antonio Garcia

27 November 2014

A obesidade pode mudar as características das células endoteliais e musculares lisas (CMLVs). Reatividade e genes inflamatórios e de marcadores de fenótipo de CMLVs foram avaliados em artérias mesentéricas de resistência (AMRs) e de aorta de camundongos alimentados com dieta hiperlipídica (OB). RNAm para citocinas pró-inflamatórias e IL-10 foi aumentado em AMRs e aorta de OB. O relaxamento não foi alterado, mas a contração foi reduzida em AMRs e aorta de OB. AMRs apresentaram redução global da contração e a aorta apresentou redução específica para agonista adrenérgico. Maior modulação negativa por NO e prostanoides vasodilatadores foi observada em aorta, mas não em AMRs. RNAm para marcador do fenótipo sintético foi aumentado em AMRs de OB. Esses resultados mostram que as células endoteliais e as CMLVs de AMRs e aorta respondem diferentemente à obesidade. Inflamação e mecanismo de contrarregulação são induzidos em AMRs e aorta, que impediria a disfunção endotelial, mas não a mudança fenotípica das CMLVs em AMRs, que então, comprometeria sua capacidade contrátil. / Obesity may change the vascular endothelial cells and smooth muscle cells (VSMC) characteristics. Vascular reactivity and inflammatory and phenotypic markers for VSMC gene expression in resistance mesenteric arteries (RMA) and aorta from mice fed with high fat diet (OB). Pro-inflammatory cytokines mRNA and IL-10 were elevated in OB\'s RMA and aorta. The relaxation wasnt altered, however a reduction in contractility was observed in OB\'s RMA and aorta. A global reduction in contractility was observed in RMA and aorta demonstrated a specific reduction to adrenergic agonist. Higher negative modulation by NO and vasodilator prostanoids were seen only in aorta. Phenotypic markers mRNA were elevated in OB\'s RMA. The results shows that endothelial cells and VSMC from RMA and aorta respond differently to obesity. Inflammation and counter regulatory mechanisms are induced in RMA and aorta of which would prevent endothelial dysfunction but not VSMC phenotypic changing from RMA, compromising the contractile ability.

Endotélio vascular

Músculo liso vascular

Nitric oxide

Obesidade

Obesity

Óxido nítrico

Vascular endothelium

Vascular smooth muscle

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

Morfofisiologia e imagologia do comportamento das fibras musculares lisas no modelo canino GRMD (Golden Retriever Muscular Dystrophy) / Morphophysiology and imagology of the behavior of smooth muscle fibers in the canine model GRMD (Golden Retriever Muscular Dystrophy)

Brolio, Marina Pandolphi

19 December 2012

A distrofia muscular de Duchenne (DMD) é uma doença neuromuscular fatal, a mais comum das distrofias musculares, causada pela ausência da proteína distrofina, componente importante do complexo glicoproteínadistrofina, que envolve as células musculares lisas, cardíacas e esqueléticas, estabilizando a membrana dessas células durante contrações e relaxamentos. Por ser uma doença genética ligada ao cromossomo X, acomete indivíduos do sexo masculino, sendo que casos raros de meninas afetadas também são relatados. Indivíduos afetados pela DMD apresentam alterações significantes na composição corpórea, comparados com a população normal. Cães da raça golden retriever que possuem distrofia muscular (GRMD) representam o melhor modelo animal para ensaios terapêuticos na busca do tratamento da DMD, sendo esses animais fundamentais para o estudo do desenvolvimento dessa anomalia, devido ao fato de apresentarem genes e sintomas clínicos homólogos aos dos pacientes humanos. A similaridade entre as duas doenças é surpreendente, ambas são caracterizadas por precoce miopatia degenerativa, com progressiva necrose, fagocitose, deposição de cálcio e fibrose endomisial e perimisial. O foco principal deste trabalho foi esclarecer dúvidas quanto ao comportamento da musculatura lisa dos animais distróficos e portadores da GRMD, para se conhecer os efeitos da doença nesse tipo de tecido. Para avaliação da musculatura lisa uterina foram utilizados quatro úteros de cadelas golden retriever saudáveis, cinco úteros de portadoras do gene e quatro úteros de animais afetados pela GRMD. Analisando as fotomicrografias uterinas dos grupos, podemos notar que não há diferenças morfológicas através dos estudos histológicos convencionais. Porém, quando analisamos as fotomicrografias polarizadas , nota-se nas cadelas saudáveis exclusivamente colágeno do tipo III, de coloração esverdeada. Quanto às portadoras do gene da GRMD, observa-se colágeno predominantemente vermelho, do tipo I, e pouco em verde, tipo III. Fotomicrografias das fêmeas afetadas pela GRMD encontraram colágeno tipo III na parte interna do endométrio, miométrio e perimétrio, e colágeno tipo I em epitélio vascular, porém ambos em menor quantidade. É possível visualizar colágeno entre as fibras musculares através da luz polarizada. Para a avaliação da digestibilidade dos nutrientes em cães GRMD e sua capacidade absortiva, foram utilizados nove cães GRMD, sete fêmeas portadoras e dez animais saudáveis; todos receberam a mesma dieta adicionada de oxido crômico. O período experimental constou de um intervalo de 10 dias, sendo os cinco primeiros dias de adaptação e os cinco restantes de coleta de amostras. Os coeficientes de digestibilidade aparente (CDAs) obtidos pelos grupos estudados foram comparados e analisados: os resultados indicaram que os cães com GRMD avaliados não apresentaram redução do aproveitamento nutricional. Novas pesquisas que avaliem o gasto energético e composição corpórea destes animais são necessárias para melhor compreensão dos mecanismos envolvidos no emagrecimento e perda de peso que apresentam. Para a avaliação do tempo de trânsito gastrintestinal (TTGI) em cães golden retriever saudáveis, portadores e afetados pela distrofia muscular, foram utilizados 18 cães divididos em três grupos animais saudáveis, portadores e afetados pela GRMD, com seis cães cada. Os animais foram acondicionados em canis individuais e receberam a mesma dieta; esferas de polietileno (BIPS) impregnadas com bário foram fornecidas durante a alimentação. Cada animal recebeu 10 marcadores de tamanho grande (5 mm de diâmetro) e 30 marcadores de tamanho pequeno (1.5mm de diâmetro). Os animais foram radiografados nos momentos antes (basal) da 1ª refeição, para confirmação da ausência de conteúdo alimentar e fecal no trato gastrintestinal, e após a alimentação, em intervalos de duas horas, até que os marcadores atingissem o cólon. Resultados apontaram que os cães GRMD avaliados apresentam TTGI mais rápido quando comparados aos demais grupos. Este trabalho comprovou que a mm. lisa de cães distróficos é, de diversas maneiras, afetada pela doença, apresentando tanto alterações morfológicas como morfofuncionais. Muitos estudos nessa área são necessários para melhor compreensão dos mecanismos da enfermidade, bem como maneiras de intervenção para melhoria da qualidade de vida dos indivíduos afetados. Cães GRMD(s) são o melhor modelo animal para estudos pré-clínicos da DMD, assim esses resultados são muito relevantes para aprimoramento e melhora de manejo em biotérios que abrigam esses animais e para extrapolação de dados na própria medicina / Duchenne muscular dystrophy (DMD) is a fatal neuromuscular disease, it is the most common muscular dystrophy caused by absence of dystrophin protein, an important component of the dystrophin-glycoprotein complex, involving cell membranes of smooth, cardiac and skeletal cells, stabilizing these cells during contractions and relaxations. Because it is a genetic disorder linked to the X chromosome, it affects males, with rare cases of girls affected also reported. Individuals affected by DMD show significant changes in body composition, compared with the normal population. Golden retriever dogs who have muscular dystrophy (GRMD) represent the best animal model for therapeutic trials in the treatment of DMD,; these animals are fundamental to the study of the development of this anomaly, due to the fact that they show clinical symptoms and genes homologous to the human patients. The similarity between the two diseases is staggering; both are characterized by early degenerative myopathy with progressive necrosis, phagocytosis, calcium deposition and endomysial and perimysial fibrosis. The main focus of this thesis was to answer questions about the behavior of smooth muscles of dystrophic animals and carriers of GRMD, to know the effects of the disease in this tissue type. For evaluation of uterine smooth muscle we utilized four uteri of golden retriever healthy bitches, five uteri of gene carriers and four uteri of animals affected by GRMD. Analyzing the uterine photomicrographs of the groups we note that there are no morphological differences in conventional histological studies. However, when we analyze the polarized photomicrographs, we note that in healthy bitches we can see only collagen type III of greenish color. As regards the carriers of the GRMD gene, there is predominantly red collagen , type I, and very little green, type III. Photomicrographs of females affected by GRMD found type III collagen inside the endometrium, myometrium and perimetrium and collagen type I in vascular epithelium, but both in a very little quantity. It is possible to visualize collagen between muscle fibers by polarized light. For the assessment of nutrient digestibility in dogs GRMD and its absorptive capacity, we used nine GRMD, seven carriers females and ten healthy animals and all of them received the same diet with added chromic oxide. The experimental period consisted of an interval of 10 days, with the first five days to adaptation and the last ones to sample collection. The apparent digestibility coefficients obtained by the groups were compared and analyzed; the results showed that dogs with GRMD evaluated showed no reduction in energy utilization. The experimental period consisted of an interval of 10 days, with the first five days to adaptation and the last of them to sample collection. The apparent digestibility coefficients obtained by the groups were compared and analyzed; the results showed that dogs with GRMD evaluated showed no reduction in nutritional absorption. New research to assess energy expenditure and body composition in these animals are needed to a better understanding of the mechanisms involving reduction and weight loss they present. For the assessment of gastrointestinal transit time (TTGI) in golden retriever dogs healthy carriers and affected by GRMD 18 dogs divided into three groups were used - healthy animals, carriers and affected by GRMD, with six dogs each. The animals were placed in individual cages and were fed the same diet; polyethylene spheres (BIPS) impregnated with barium were supplied during feeding. Each animal received 10 markers large size (5mm diameter) and 30 markers small size (1.5mm diameter). Radiographs were taken in the moments before (baseline) the 1 st meal, to confirm the absence of food and fecal content in the gastrointestinal tract and after feeding at two-hour intervals until markers reach the colon. Results indicated that GRMD dogs evaluated showed TTGI faster when compared to the other groups. This thesis has shown that the smooth muscles of dystrophic dogs are, in many ways, affected by the disease, with both morphological and morphofunctional alterations; many studies in this area are needed so we can better understand the mechanisms of disease, as well as ways of intervention to improve the quality of life of affected individuals. GRMD dogs are the best animal model for preclinical studies of DMD, so these results are very relevant to enhancement and improvement of management in bioteries these animals have

Distrofia muscular

Gastrointestinal tract

GRMD

GRMD

Muscular dystrophy

Musculatura lisa

Smooth muscle

Trato Gastrointestinal

Útero

Uterus

Hypoxia-induced responses of porcine pulmonary veins

Arnold, Amy

January 2017

The pulmonary vein (PV) constricts to hypoxia however little is known about the underlying mechanisms. Hypoxic PV constriction is proposed to recruit upstream capillary beds and optimise gas exchange in healthy humans and may play a role in high altitude pulmonary oedema. The PV is also intrinsic to disease states including pulmonary hypertension and pulmonary veno-occlusive disease. Blood vessel culture can be a powerful tool to enable assessment of the impact of environmental factors on vessel function and as a disease model. However culture conditions alone affect vessel contractility; the effect of culture conditions on PV function remained to be established. The aim of this project was to investigate hypoxic responses of porcine PVs including the impact of maintenance in culture. Maintenance of PVs in culture conditions for 24 hours increased contraction to hypoxia and inhibited hypoxic relaxation post-contraction. These changes to PV hypoxic responses were thought to result from endothelial dysfunction. However, the endothelial nitric oxide synthase inhibitor L-NAME inhibited PV hypoxic contraction and enhanced relaxation. The impact of K+ channel inhibitors on hypoxic contraction was also investigated. Penitrem A, 4AP, DPO-1, ZnCl2 and glyburide had no significant effect however TEA and BDM inhibited the hypoxic contraction. This suggested that TASK, KV1.5, BKCa and KATP do not play a role in the mechanism of hypoxic pulmonary venoconstriction however KV channels containing KV2.1 α subunits may modulate the response. Results with L-NAME suggested endothelial dysfunction may not fully account for the change in PV function after exposure to culture. Therefore the impact of PV maintenance in culture was further explored using an isolated PV smooth muscle cell (PVSMC) model. Maintenance of PVs in culture conditions had minimal impact on morphology and electrical properties of PVSMCs. Notably, resting membrane potential and hypoxia-induced depolarisation were not significantly different. Based on the findings of this study, the endothelium in PVs appears to a) play a major role in modulation of the hypoxic response b) be sensitive to short-term exposure to culture conditions. K+ channels appear to play a minor role in PV hypoxic contraction and SMCs isolated from PVs maintained in culture conditions have similar morphological and electrophysiological characteristics to freshly isolated PVSMCs. Taking all this into account, endothelial regulation of contractility should be a key focus for future PV research.

616.2

Proposição de um modelo matemático para o estudo da alteração mecânica do músculo liso da traquéia de ratos Wistar exposto à solução de formaldeído e submetido a doses crescentes de um agente contrátil / Proposition of a mathematical model to study the mechanical change of the smooth muscle of the trachea of Wistar rats exposed to formaldehyde solution and subjected to increasing doses of a contractile agent

Castro, Mac Gayver da Silva

23 July 2012

A viscoelasticidade do pulmão do mamífero é determinada principalmente pelas propriedades mecânicas, estrutura e regulação do músculo liso das vias aéreas. A exposição ao ar poluído pode deteriorar essas propriedades com consequências danosas à saúde individual. O formaldeído é um importante poluente presente em ambientes internos que adentra o músculo liso formando ligações covalentes entre proteínas da matriz extracelular e da estrutura intracelular deteriorando algumas funções do músculo liso das vias aéreas, alterando propriedades mecânicas e induzindo a hiperresponsividade. O primeiro objetivo desse trabalho foi desenvolver um modelo de rede viscoelástica bidimensional baseada na tesselação de Voronoi para reproduzir algumas propriedades mecânicas do músculo liso de via aérea a nível de tecido. O segundo objetivo foi comparar os resultados obtidos com o nosso modelo com aqueles previamente observados em experimentos com tiras de tecido após a exposição ao formaldeído. Nosso modelo simula as propriedades mecânicas do músculo liso de via aérea usando um conjunto de molas e amortecedores. Esse conjunto de molas e amortecedores não somente mimetiza as propriedades viscoeláticas do músculo liso mas também o aparato contrátil das células. Nós hipotetizamos que a formação de ligações covalentes, devido à ação do formaldeído, pode ser representada no modelo por uma alteração simples na constante elástica das molas, enquanto que a ação da metacolina reduz o tamanho da mola. Nosso modelo é hábil para reproduzir uma medida de força isométrica onde o músculo liso é sujeito a um agente contrátil, com e sem exposição in vitro ao formaldeído. Assim, a nossa nova abordagem mecanicista incorpora diversas propriedades bem conhecidas do sistema contrátil das células em um tecido a nível de modelo. O modelo pode também ser usado em diferentes escalas biológicas / The viscoelastic properties of the mammalian lung is mainly determined by the mechanical properties, structure and regulation of the airways smooth muscle. The exposure to polluted air may deteriorate these properties with harmful consequences to individual health. Formaldehyde is an important indoor pollutant that permeate through the smooth muscle tissue forming covalent bonds between proteins in the extracellular matrix and intracellular protein structure deteriorating some of the airways smooth muscle functions, changing mechanical properties, and inducing hyperresponsiveness. The first objectives of this work was to develop a two-dimensional viscoelastic network model based on Voronoi tessellation to reproduce some of the mechanical properties of airway smooth muscle at the tissue level. The second objective was to compare the results obtained with our model with those previously observed in tissue strip experiments after the tissue exposure to formaldehyde. Our model simulates the mechanical properties of airway smooth muscle using a set of springs and dashpot. This set of springs and dashpot not only mimic the viscoelastic properties of the smooth muscle but also the cells contractile apparatus. We hypothesize that the formation of covalent bonds, due to the action formaldehyde, can be represented in the model by a simple change in the elastic constant of the springs, while the action of methacholine reduce the size of the spring. Our model is able to reproduce an isometric force measurement, where the smooth muscle is subjected to a titration of a contractile agent, with and without an in vitro exposure to formaldehyde. Thus, our new mechanistic approaches incorporates several well know features of the contractile system of the cells in a tissue level model. The model can also be used in different biological scales

Formaldehyde

Formaldeído

Metacolina

Methacholine

Músculo liso

Ratos Wistar

Smooth muscle

Viscoelasticidade

Viscoelasticity

Voronoi

Voronoi

Wistar rats

Caracterização da crotamina e seu efeito sobre a contratilidade da musculatura lisa do ducto deferente de rato / Characterization of crotamine and its effect in the smooth muscle contraction of rat vas deferens

El-corab, Mariana Dangelo Martins Kmaid

27 November 2015

A crotamina, um peptídeo catiônico que possui 42 aminoácidos e 4,88 kDa, é proveniente do veneno de Crotalus durissus terrificus. Ela apresenta características que permitem sua forte interação com alvos moleculares e membranas biológicas e assim foi o primeiro peptídeo de veneno a ser classificado como um CPP (cell penetrating peptide), justificando seus importantes efeitos biológicos e suas diversas atividades farmacológicas. A crotamina é descrita por sua atividade miotóxica, tendo como efeito a paralisia e espasmos das patas traseiras de ratos e camundongos. Esse fenômeno é descrito por ações em canais de Na+ e/ou K+ e consequente aumento do influxo intracelular dos níveis do íon Ca2+. Estudos a descrevem como um agente despolarizante utilizando a musculatura esquelética como modelo experimental. Outra atividade descrita da crotamina é um aumento na liberação basal de acetilcolina (ACh) e dopamina no sistema nervoso central de ratos. Até o momento, pouco ou nenhum estudo foi realizado em musculatura lisa. A junção neuromuscular autônoma difere em vários aspectos importantes da já conhecida junção neuromuscular esquelética. O ducto deferente de rato (DDR), um órgão par e tubular pertencente à genitália acessória masculina, foi utilizado como modelo experimental por ser um dos órgãos periféricos mais densamente inervados pelo sistema nervoso autônomo simpático. Esse fato, o torna uma importante ferramenta para estudos que envolvam a neurotransmissão e a ação de drogas adrenérgicas. O objetivo do presente trabalho é investigar o efeito da crotamina na contração da musculatura lisa. A crotamina foi isolada a partir do veneno de C. d. terrificus por cromatografia de exclusão molecular seguida de troca iônica. Os estudos em modelos animais foram realizados utilizando o DD (porção prostática) de ratos Wistar com 5 meses de idade entre 350 g (protocolo CEUA 1261/14). O estudo de neurotransmissão foi feito em sistema de órgão isolado (n=6) por estimulação elétrica transmural com tensão de 70V, 3ms de duração em frequências de 0,05 (30 min) e 1; 5 10 e 20Hz (30 seg). A contração isométrica foi registrada em gramas de tensão. Em todos os experimentos a crotamina (0,1;0,5 e 1g/ml) incubada 30 min antes da estimulação. O efeito máximo de contração (Emax) do componente fásico e tônico foi usado como medida. O componente pós-sináptico foi avaliado por meio de curvas dose-resposta de noradrenalina e dose única de ATP (10-3M) na presença ou ausência da crotamina. A diferença estatística foi avaliada pelo teste-t de student (P0,05). Os ensaios de estimulação elétrica de baixa frequência (0,05Hz) revelaram que a crotamina (0,1 e 0,5g/ml) promoveu uma diminuição da contração do DDR (95,7±4,6% e 85,4±5,9%, respectivamente) enquanto que na dose de 1 g/mL de crotamina este efeito não foi significativo. Na curva de freqüência observamos também com as mesmas concentrações de crotamina uma tendência à diminuição da contração fásica e tônica enquanto que a dose de 1 g/mL promoveu um aumento na contração fásica na freqüência de 20,0Hz ((3,2±0,3) em relação ao controle (2,2±0,2). O componente pós-sináptico não foi alterado pela crotamina conforme evidenciado pela curva concentração-resposta de noradrenalina e concentração única de ATP. Com base nos resultados obtidos, concluímos que a crotamina atua apenas no componente pré-sináptico da contração do DDR, provavelmente interferindo na neuroliberação de ATP e noradrenalina. Ela apresenta um efeito bifásico, dependendo da dose utilizada, inibindo ou potencializando a resposta, efeito semelhante ao da -defensinas, uma proteína cuja estrutura se assemelha bastante com a da crotamina. / Crotamin, a 4.88 kDa polypeptide composed of 42 amino acids, is derived from the venom of Crotalus durissus terrificus. It presents features that allow its strong interaction with molecular targets and biological membranes and was the first venom peptide to be classified as a CPP (cell penetrating peptide), justifying the important biological effects and different pharmacological activities of crotamine. It is described by its myotoxic activity, having the effect of paralysis and spasms of the hind legs of mice and rats. This phenomenon is described by actions on Na+ channels and / or K+ and the resulting increase in intracellular influx of Ca2+ ion levels. Studies describe crotamine as a depolarizing agent and neurotransmitter release inductor using the skeletal muscle as an experimental model. Another activity of crotamine described is an increase in the basal release of acetylcholine (ACh) and dopamine in the central nervous system of rats. To date, few or no study has been performed in smooth muscle. The autonomous neuromuscular junction differs in several important aspects of already known skeletal neuromuscular junction. The vas deferens, a pair and tubular organ belonging to the male accessory genitalia, was used as experimental model because it is one of the most densely peripheral organs innervated by the sympathetic nervous system. This fact makes it an important tool for studies involving the neurotransmission and the action of adrenergic drugs. A better understanding of crotamine mechanism of action is fundamental to the development of a pharmacological agent or a possible drug. In this context, we aim to investigate the crotamine behaviour in the contraction of the smooth muscle vas deferens through neurogenic stimulation and exogenous drugs.

contração

contraction

crotamina

crotamine

ducto deferente

musculatura lisa

smooth muscle

vas deferens

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

Rôle des phophodiestérases dans la compartimentation subcellulaire de l'AMPc dans la cellule musculaire lisse vasculaire : étude des altérations dans l'insuffisance cardiaque / Role of phosphodiesterases in subcellular compartmentation of cAMP in vascular smooth muscle cell : alterations in heart failure

Hubert, Fabien

17 December 2012

L’objectif de mon travail de thèse était d’une part, de mieux comprendre le rôle des différentes familles de phosphodiestérases (PDEs) dans la régulation de la signalisation dépendante de l’AMPc (PDE-AMPc) dans les cellules musculaires lisses vasculaires (CMLVs), et d’autre part, d’évaluer leur implication fonctionnelle dans la réactivité vasculaire et leur altération potentielle dans un modèle physiopathologique, l’insuffisance cardiaque (IC). Mon travail s’est articulé autour de deux modèles de muscle lisse vasculaire : (1) des CMLVs isolées en culture ayant acquis un phénotype synthétique sur lesquelles une approche d’imagerie en temps réel (FRET : Transfert d’Energie de Fluorescence par Résonance) a été appliquée afin de visualiser in situ la dynamique spatiotemporelle des signaux dépendants de l’AMPc. Nos résultats indiquent que, dans ces cellules, l’augmentation des niveaux d’AMPc provoquée par la stimulation β-adrénergique (β-AR) implique différents récepteurs suivant le compartiment intracellulaire considéré (β1- et β2-ARs dans le cytosol et seulement β2-ARs dans le compartiment sous-membranaire). Nous avons par ailleurs observé que l’expression des ARNm des différentes isoformes de PDE-AMPc et la contribution fonctionnelle de ces enzymes dans la régulation des signaux AMPc intracellulaires étaient dépendantes de la densité des CMLVs en culture.(2) des anneaux d’artères intactes issues de deux lits vasculaires différents (aorte et artère mésentérique) isolées à partir de rats sains et IC, permettant d’étudier leur fonction contractile et donc la régulation de celle-ci par la voie de l’AMPc. Nous avons montré que les familles de PDE-AMPc contribuent de façon différente au contrôle du tonus vasculaire dans l’aorte thoracique (PDE3 = PDE4 sans participation de la PDE2) et dans l’artère mésentérique (PDE4 > PDE2 sans participation de la PDE3), l’endothélium exerçant un rôle essentiel dans la régulation de l’activité de ces PDEs musculaires lisses, notamment par le biais de la production de NO. Nous avons également mis en évidence des altérations de la réactivité vasculaire, et notamment de son contrôle par la voie de l’AMPc/PDE, dans notre modèle de rat IC. Dans l’aorte, la dysfonction endothéliale liée à l’altération de la voie du NO est à l’origine d’une augmentation de l’activité PDE3 masquant l’activité PDE4 et la relaxation β-adrénergique. Dans l’artère mésentérique des rats IC, dont la fonction endothéliale apparaît préservée, les PDE2, 3 et 4 restent fonctionnelles.L’ensemble de nos travaux souligne le rôle essentiel des PDEs dans la régulation de la signalisation AMPc vasculaire, et montre que l’activité et la fonction des différentes familles de PDE-AMPc sont finement modulées par de nombreux paramètres (phénotype et densité cellulaire des CMLVs) ou situations physio-pathologiques (nature du lit vasculaire, présence de l’endothélium, situation d’IC). / The aim of my thesis was to investigate the role of cyclic nucleotide phosphodiesterases (cAMP-PDEs) in the regulation of cAMP-dependent signaling in vascular smooth muscle cells (VSMCs), and to assess their functional involvement in vascular reactivity and their potential alteration in a pathophysiological model of heart failure (HF). My work was based on two models of vascular smooth muscle:(1) Isolated VSMCs in culture having acquired a synthetic phenotype, in which an approach of real-time imaging (FRET: Fluorescence Resonance Energy Transfer) was applied in situ to visualize the spatiotemporal dynamics of cAMP-dependent signals. Our results indicate that, in these cells, increased levels of cAMP induced by β-adrenergic stimulation (β-AR) involve different β-ARs subtypes according to the intracellular compartment considered (β1-and β2-ARs in the cytosol and only β2-ARs in the submembrane compartment). We also observed that the mRNA expression of cAMP-PDEs isoforms and the functional contribution of these enzymes in the regulation of intracellular cAMP signals were dependent on the VSMCs seeding density in culture.(2) Arterial blood vessels from two different vascular beds (aorta and mesenteric artery) isolated from healthy and HF rats, to study their contractile function and thus the regulation by the cAMP pathway. We showed that cAMP-PDE families contribute differently to the control of vascular tone in the thoracic aorta (PDE3 = PDE4, no PDE2) and mesenteric artery (PDE4 > PDE2, no PDE3), endothelium exerting a crucial role in the regulation of their functional activities, especially through the production of nitric oxide (NO). We also demonstrated alterations in vascular reactivity during HF, including its control through the cAMP-PDEs. In the aorta, endothelial dysfunction associated with the alteration of the NO pathway leads to an increase in PDE3 activity which masks PDE4 activity and β-AR relaxation. In mesenteric artery from HF rats, endothelial function is preserved and PDE2, 3 and 4 are functional.This study underlines the importance of PDEs in regulating vascular cAMP signaling, and shows that the activity and function of different cAMP-PDE families are tightly modulated by many parameters (VSMCs phenotype and seeding density) and/or physiopathological situations (vascular bed, endothelium and HF).

Phosphodiestérases

AMPc

Muscle lisse vasculaire

Insuffisance cardiaque

Phosphodiesterases

CAMP

Vascular smooth muscle

Heart failure