Signaux électriques des îlots pancréatiques enregistrés sur matrices de microélectrodes : caractérisation et application au phénotypage d'animaux transgéniques / Electrical signals from pancreatic islets recorded on multielectrode arrays : characterization and application to the phenotyping of transgenic animals

Lebreton, Fanny

17 December 2014

Les cellules β des îlots de Langerhans jouent un rôle central dans l’homéostasie glucidique car elles seules sécrètent l’insuline, unique hormone hypoglycémiante de l’organisme. La cellule β est un détecteur du glucose qui couple sa réponse sécrétoire et son expression génique aux niveaux ambiants de glucose. Le couplage entre le métabolisme du glucose et l’exocytose des granules d’insuline implique la génération d’une activité électrique. Son étude est importante pour déchiffrer la façon dont la cellule β encode la demande en insuline de l’organisme. Afin de contourner les limites des approches électrophysiologiques classiques incompatibles avec les études à long-terme, les enregistrements extracellulaires par matrice de microélectrodes (MEA) ont été mis en place.L’objectif de ma thèse était de mieux comprendre les signaux complexes enregistrés par MEAs. Cette étude a révélé l’existence d’une nouvelle signature électrique des cellules des îlots, les slow potentials (SP), qui reflète la fonction de couplage des cellules β. Les SP jouent un rôle important dans l’homéostasie du glucose et représentent un biomarqueur de la fonction normale des îlots. La réponse en hystérèse des îlots au glucose suggère l’existence d’un algorithme d’encodage de la demande en insuline intégrée au niveau du micro-organe. De plus, ce nouveau signal a été exploité pour le phénotypage d’îlots de souris invalidées pour le gène GluK2, que nous avons utilisées comme modèle d’interaction entre les cellules α et β. La caractérisation de ce nouveau type de signal constitue aussi une avancée importante pour le développement d’un biocapteur destiné à être intégré dans le futur à un pancréas artificiel. / Pancreatic β cells are central to glucose homeostasis because they are the only cell that secretes insulin, the sole hypoglycemic hormone in the organism. The β cell is a glucose sensor that regulates its secretory response and gene expression according to ambient glucose levels. The coupling between glucose metabolism and insulin granule exocytosis involves the generation of electrical activity. An investigation of this activity is important to decipher how β cells encode the organism’s insulin demand. In order to overcome the limits of classically used electrophysiological approaches that are not compatible with long-term studies, extracellular recordings using multielectrode arrays (MEA) have been set-up.My thesis aim was to better understand the complex signals recorded with MEA. This study revealed the existence of a new electrical signature of islet cells: slow potentials (SP) that reflect the coupling function of β cells. SP play an important role in glucose homeostasis and represent a biomarker of normal functioning of islets. The observed hysteretic response of islets to glucose suggests the existence of an algorithm encoding the insulin demand embedded at the microorgan level. Moreover, this new signal was used for the phenotyping of GluK2 deficient mouse islets that were employed as an α-to-β cell interaction model. The characterization of this new signal is an important progress in the development of a biosensor intended to be integrated in an artificial pancreas in the future.

Îlots de Langerhans

Cellules β

Électrophysiologie

Matrices de microélectrodes

Signalisation

Couplage

Jonction communicantes

Oscillations

Islets of Langerhans

Β-cells

Electrophysiology

Microelectrode arrays

Signalling

Coupling

Gap junctions

Oscillations

Pattern formation in a neural field model : a thesis presented in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Mathematics at Massey University, Auckland, New Zealand

Elvin, Amanda Jane

January 2008

In this thesis I study the effects of gap junctions on pattern formation in a neural field model for working memory. I review known results for the base model (the “Amari model”), then see how the results change for the “gap junction model”. I find steady states of both models analytically and numerically, using lateral inhibition with a step firing rate function, and a decaying oscillatory coupling function with a smooth firing rate function. Steady states are homoclinic orbits to the fixed point at the origin. I also use a method of piecewise construction of solutions by deriving an ordinary differential equation from the partial integro-differential formulation of the model. Solutions are found numerically using AUTO and my own continuation code in MATLAB. Given an appropriate level of threshold, as the firing rate function steepens, the solution curve becomes discontinuous and stable homoclinic orbits no longer exist in a region of parameter space. These results have not been described previously in the literature. Taking a phase space approach, the Amari model is written as a four-dimensional, reversible Hamiltonian system. I develop a numerical technique for finding both symmetric and asymmetric homoclinic orbits. I discover a small separate solution curve that causes the main curve to break as the firing rate function steepens and show there is a global bifurcation. The small curve and the global bifurcation have not been reported previously in the literature. Through the use of travelling fronts and construction of an Evans function, I show the existence of stable heteroclinic orbits. I also find asymmetric steady state solutions using other numerical techniques. Various methods of determining the stability of solutions are presented, including a method of eigenvalue analysis that I develop. I then find both stable and transient Turing structures in one and two spatial dimensions, as well as a Type-I intermittency. To my knowledge, this is the first time transient Turing structures have been found in a neural field model. In the Appendix, I outline numerical integration schemes, the pseudo-arclength continuation method, and introduce the software package AUTO used throughout the thesis.

neural fields

dynamical systems

computational neuroscience

neural networks

pattern formation

gap junctions

Endothelial Cell Function Using a Tissue Engineered Blood Vessel Model: A Case Study of Cell-Cell Communication

Johnson, Tiffany Lynn

03 April 2006

Atherosclerosis is an inflammatory disease which develops focally in regions of the vasculature where there is dysfunction of endothelial cells modulated in part by shear stress from flowing blood. To address the clinical crisis of atherosclerosis, tissue engineering has focused on development of a living blood vessel substitute for use as a vascular graft in bypass surgery. Despite substantial progress in understanding the biological basis and developing clinical treatments for cardiovascular disease, critical challenges remain. As a novel strategy to improve understanding of basic human vascular biology and develop superior tissue engineered grafts, this dissertation combines the scientific and clinical approaches by using a tissue engineered blood vessel as a more physiologic in vitro model to study endothelial cell biology. Through the use of transcriptional profiling, results demonstrate significant changes in endothelial cell gene expression using the tissue engineered blood vessel model. Furthermore, the presence of a more physiologic substrate alters the cellular response to shear stress which is a critical mediator of vascular pathology. A case study of endothelial cell function in this system focuses on cell-cell communication through gap junctions. Endothelial cell connexins which form gap junctions are shown to be differentially regulated by substrate and shear stress. Moreover, gap junction communication between endothelial cells is modulated by the mechanical environment. Studies using RNA interference to knockdown expression of individual connexin isotypes demonstrate integrated regulation of connexins yet unique roles in endothelial cell function. Collectively, results exemplify the sensitivity of endothelial cell phenotype to substrate and shear stress and underline the importance of using more physiologic models in the study of basic cell biology.

Gap junction

Connexin

Tissue engineering

Endothelial cells

Shear stress

Blood vessel prosthesis

Vascular endothelium

Connexins

Tissue engineering

Gap junctions (Cell biology)

Atherosclerosis

Influência do interior do inibidor da enzina conversora da angiotensina na remodelação cardíaca induzida pela exposição á fumaça do cigarro /

Duarte, Daniella de Rezende.

January 2009

Resumo: O hábito de fumar apresenta importante impacto na saúde da população. A associação entre fumo e doença cardiovascular tem sido amplamente explorada em relação à aterosclerose. Recentemente, evidências clínicas e experimentais sugerem que a exposição ao cigarro pode modular o processo de remodelação ventricular. O objetivo desse estudo foi avaliar o papel do inibidor da enzima conversora da angiotensina no processo de remodelação induzido pela exposição à fumaça do cigarro. Ratos Wistar foram distribuídos em três grupos: 1) grupo controle (C, n=8); 2) grupo exposto à fumaça do cigarro (EFC, n=8); 3) grupo exposto à fumaça do cigarro e recebendo 20 mg/kg/dia de lisinopril (EFC-LIS, n=8). Após dois meses os animais foram submetidos ao estudo funcional, morfométrico, e bioquímico. Para a análise estatística foi utilizado o teste de variância ANOVA complementado por Holm-Sidak, o teste Kruskal-Wallis complementado por Tukey e o teste Mann-Whitney. O nível de significância foi 5%. A pressão sistólica caudal foi menor no grupo EFC-LIS (C = 116 ± 27, EFC = 126 ± 16, EFC-LIS = 89 ± 12 mmHg; p = 0,003) em relação aos grupos C e EFC; o grupo EFC apresentou maior valor do diâmetro sistólico do ventrículo esquerdo, corrigido pelo peso (C = 8,25 ± 2,16, EFC = 11,76 ± 1,20, EFC-LIS = 9,27 ± 2,00 mm/kg; p = 0,003), em comparação aos grupos C e EFC-LIS; o diâmetro diastólico do ventrículo esquerdo ajustado pelo peso foi maior nos grupos EFC e EFC-LIS... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The habit of smoking has important impact on population health. The association between tobacco and cardiovascular disease has been widely explored in relation to atherosclerosis. Recently, clinical and experimental evidences suggest that the exposure to tobacco smoke can modulate the process of ventricular remodeling. The objective of that study was to evaluate the role of the angiotensin-converting enzyme inhibitor on cardiac remodeling induced by tobacco smoke exposure. Wistar rats were allocated in three groups: 1) group control (C, n=8); 2) group exposed to tobacco smoke (EFC, n=8); 3) group exposed to tobacco smoke and treated with lisinopril 20mg/kg/day (EFC-LIS, n=8). After two months the animals were submitted to the functional study, morphometric, and biochemical. For the statistical analysis was used the ANOVA test of variance complemented by Holm-Sidak, the test Kruskal-Wallis complemented by Tukey and the test the Mann-Whitney. The significance level was 5%. Results: the caudal systolic pressure was smaller in the group EFC-LIS (C = 116 ± 27, EFC = 126 ± 16, EFC-LIS = 89 ± 12 mmHg; p = 0,003) in relation to the groups C and EFC; the group EFC presented higher value of the systolic diameter of the left ventricle, corrected by body weight (BW) (C = 8,25 ± 2,16, EFC = 11,76 ± 1,20, EFC-LIS = 9,27 ± 2,00 mm/kg; p = 0,003), in comparison with the groups C and EFC-LIS; the diastolic diameter of the left ventricle, adjusted by BW was higher in the groups EFC e EFC-LIS (C = 18,42 ± 3,57, EFC = 22,94 ± 1,98, EFC-LIS = 22,05 ± 1,30 mm/kg; p = 0,003); the relationship EPP/DDVE was smaller in the group EFC-LIS in relation to the control (C = 0,20 (0,18-0,23), EFC = 0,15 (0,14-0,18), EFC-LIS = 0,14 (0,14-0,18); p = 0,026). The group EFC presented smaller ejection fraction... (Complete abstract click electronic access below) / Orientador: Leonardo Antonio Mamede Zornoff / Coorientador: Sergio Alberto Rupp Paiva / Banca: Fernanda M. Cosolim-Colombo / Banca: Wilson Natrus / Banca: Beatriz B. Matsubara / Banca: Katashi Okoshi / Doutor

Coração - Doenças.

Exposure to tobaco smoke. eng

Cardiac remodeling. eng

Gap junctions. eng

Myosin heavy chain. eng

Participação dos receptores P2X7 presentes em células da glia do gânglio da raiz dorsal na nocicepção

Lemes, Júlia Borges Paes

13 February 2017

CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Nos gânglios sensitivos, os corpos celulares dos neurônios encontram-se circundados por células gliais denominadas células satélites. Estudos recentes apontam para uma possível comunicação entre neurônios e células satélites através da liberação de ATP e ativação de receptores P2X7 presentes nas células gliais. Além disto, células satélites adjacentes podem estar conectadas através de junções comunicantes (“gap junctions”). Até o presente, a comunicação entre células satélites e neurônios tem sido implicada na cronificação da dor e em processos inflamatórios. Nesse estudo buscamos avaliar o papel da comunicação entre neurônios e células satélites através da ativação dos receptores P2X7 assim como das junções comunicantes em modelos de dor aguda. Em culturas primárias de gânglios da raiz dorsal, verificamos que a administração de capsaicina leva a um aumento de cálcio em neurônios e em seguida em células satélites sendo que a resposta das células satélites foi bloqueada por A740003, um antagonista seletivo para receptores P2X7, indicando que os nociceptores quando ativados liberam ATP que, por sua vez, ativa receptores P2X7 nas células gliais. Para avaliar o papel desta comunicação celular in vivo, o antagonista P2X7 ou o bloqueador de junções comunicantes, carbenoxolona, foram administrados por via intraganglionar (L5) e foram avaliados os efeitos das injeções intraplantares de capsaicina, mentol e formalina em ratos. Tanto o A740003 quanto a carbenoxolona reduziram a nocicepção induzida por capsaicina e mentol. No teste da formalina, ambas as substâncias afetaram apenas a segunda fase do teste, considerada a fase inflamatória. Capsaicina ativa seletivamente receptores TRPV1 e mentol ativa receptores TRPM8, e possivelmente receptores TRPA1, que são expressos majoritariamente em neurônios nociceptivos associados a fibras C. Além disto, estudos de outros autores indicam a primeira fase do teste da formalina envolve principalmente a ativação de fibras do tipo Aδ enquanto que a segunda fase envolve a ativação de fibras Aδ e C. Considerando estes dados juntamente como os presentes resultados, podemos sugerir que a comunicação entre células satélites e neurônios ocorre também na dor aguda, mas apenas quando esta depende da ativação de fibras C. Deste modo, a comunicação entre neurônios e células satélites, via liberação de ATP e ativação de receptores P2X7, assim como uma comunicação entre células satélites adjacentes através de junções comunicantes parecem estar envolvidos em um processamento rápido do sinal doloroso no gânglio da raiz dorsal. / In sensory ganglia, the cellular bodies of neurons are surrounded by glial cells called satellite cells. Recent studies point to a possible communication between neurons and satellite cells through the release of ATP and activation of P2X7 receptors present in glial cells. In addition, adjacent satellite cells may be connected through gap junctions. Still today, the communication between satellite cells and neurons has been implicated in chronic pain and in inflammatory processes. In this study we sought to evaluate the role of communication between neurons and satellite cells through the activation of the P2X7 receptors as well as of the communicating junctions in acute pain models. In primary cultures of dorsal root ganglia, we found that the administration of capsaicin leads to an increase of calcium in neurons and then in satellite cells. The response of satellite cells was blocked by A740003, a selective antagonist for P2X7 receptors, indicating that nociceptors when activated release ATP, which in turn activates P2X7 receptors in the glial cells. To assess the role of this in vivo cellular communication, the P2X7 antagonist or the gap junction blocker, carbenoxolone, were administered by intraganglionar injection (L5) and the effects of intraplantar injections of capsaicin, menthol or formalin in rats were evaluated. Both A740003 and carbenoxolone reduced nociception induced by capsaicin and menthol. In the formalin test, both substances affected only the second phase of the test, considered the inflammatory phase. Capsaicin selectively activates TRPV1 receptors while menthol activates TRPM8 receptors, and possibly TRPA1 receptors, which are expressed mainly in nociceptive neurons associated with C fibers. In addition, studies by other authors indicate that the first phase of the formalin test involves primarily the activation of Aδ fibers whereas the second phase involves the activation of Aδ and C fibers. Considering these data together with the present results, we can suggest that the communication between satellite cells and neurons also occurs in acute pain, but only, when it depends on the activation of C fibers. Thus, communication between neurons and satellite cells, via release of ATP and activation of P2X7 receptors, as well as communication between adjacent satellite cells through gap junctions seems to be involved in a rapid processing of the pain signal in the dorsal root ganglion. / Dissertação (Mestrado)

CNPQ::CIENCIAS BIOLOGICAS

Citologia

Gânglios sensitivos

Neurônios

Receptores purinérgicos

Gânglio da raiz dorsal

Células satélites

Receptores P2X7

Junções comunicantes

Dorsal root ganglion

Satellites cells

P2X7 receptors

Gap junctions

Papel da comunicação intercelular midiada pelas junções comunicantes no mecanismo de secreção de insulina em modelos in vivo de maturação e disfunção do pancreas endocrino / Intercellular communication mediated by gap junction in in vivo models of pancreatic B-cell maturation and dysfunction

Carvalho, Carolina Prado de França

03 June 2009

Orientador: Carla Beatriz Collares Buzato / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-13T09:31:49Z (GMT). No. of bitstreams: 1 Carvalho_CarolinaPradodeFranca_D.pdf: 11012408 bytes, checksum: 13da099b8bd43a93f7783c961a08d48f (MD5) Previous issue date: 2009 / Resumo: O objetivo central dessa tese foi estudar o papel das junções comunicantes (GJs) no processo de maturação da célula B e na patogênese da diabetes tipo 2. Para isso, foram utilizados dois modelos animais. No modelo in vivo de maturação da célula B e do processo secretório de insulina foram empregados ratos em vários estágios do desenvolvimento (fetal, neonatal, jovem e adulto). No modelo de diabetes tipo 2 foram utilizados camundongos C57BL/6, wild-type e knockout para o gene do receptor de LDL (LDLR -/-), alimentados com dieta hiperlipídica. No primeiro modelo de estudo, observamos, por técnicas morfológicas (imunocitoquímica) e de biologia molecular (Western Blot, RT-PCR semi-quantitativo e qPCR) que a expressão gênica e protéica de Cx36 e Cx43, se altera durante o desenvolvimento. Os dados de microinjeção intracelular de traçadores confirmam tais resultados que sugerem que ilhotas de ratos recém-nascidos apresentam menor número de canais intercelulares associados à membrana e, conseqüentemente, um menor acoplamento intercelular mediado pelas junções comunicantes em comparação às ilhotas de adultos. Esses resultados estão de acordo com a observação de que a célula B durante o período perinatal mostra uma menor resposta secretória à glicose e sugerem a participação da comunicação intercelular mediada pelas junções comunicantes no processo de maturação da célula B. No caso do modelo in vivo de diabetes tipo 2, o estudo iniciou com a caracterização do quadro metabólico e de aspectos da morfologia e morfometria do pâncreas endócrino de animais submetidos ao tratamento com a dieta hiperlipídica. Os dados obtidos demonstram que os animais submetidos a essa dieta por um curto período de tempo já apresentam alterações metabólicas típicas da fase inicial da diabetes (hiperglicemia moderada, hiperinsulinemia, intolerância á glicose e resistência à insulina), bem como modificações de parâmetros da morfometria do pâncreas endócrino. Posteriormente, foi analisada a expressão e localização celular das proteínas juncionais (Cx36, Cx43 e ZO-1) e o aspecto funcional dos canais formados pela GJ, através da microinjeção de marcadores intracelulares. Observamos que os animais tratados com dieta hiperlipídica apresentam tendência de diminuição de expressão de Cx36 acompanhada por alteração no padrão de marcação para essa proteína. Esses dados estão de acordo os de microinjeção que revelam uma pequena diminuição do grau de acoplamento celular após o tratamento com a dieta hiperlipídica. As alterações observadas para Cx36 foram acompanhadas por modificações no grau de expressão e de localização celular de ZO-1, proteína envolvida em processos como a organização dos canais intercelulares da GJ na membrana e no turnover de vários subtipos de conexina. Esses resultados indicam que a comunicação intercelular, particularmente a mediada por canais formados pela Cx36 parecem desempenhar importante papel na patogênese da diabetes tipo 2, desde sua fase inicial. / Abstract: Intercellular communication and adhesion among pancreatic B-cells are crucial for a proper insulin biosynthesis and secretion. The aim of this work was to investigate the role of gap junction (GJ) mediated-intercellular communication in the processes of maturation and dysfunction of B-cells. It is well known that fetal and neonatal rat pancreatic B-cells exhibit a reduced insulin secretory response to glucose and to other secretagogues as compared to adult ones. Based on this finding, we have used Wistar rats at different stages of development (fetal, neonatal, young and adult) as a model of B-cell maturation. As a model of type 2 diabetes, C57BL/6 mice (wild-type) and LDL receptor-deficient mice were fed a high fat diet up to 60 days. The cellular expression of GJ connexin (Cx) subtypes found in the endocrine pancreas (Cx36, Cx43 and Cx45) was assessed by immunohistochemistry, Western Blot, quantitative and semi-quantitative RTPCR. Our results indicate that young and adult endocrine pancreas express relatively high levels of Cx36 on B-cells in comparison with the other groups. Meanwhile, fetal and neonatal islets express predominantly Cx43 on non B-cells located at the islet periphery. Islet microinjection of GJ tracers revealed that neonatal B-cells display lower intercellular exchange of the cationic molecule Ethidium Bromide (EB) in comparison with the adult ones, which is in accordance with their differences in Cx36 expression. No significant differences were found in expression and localization of Cx45 among all animal groups. Regarding the animal type 2 diabetic model, a metabolic characterization showed that the high-fat diet for 60 days induces glucose intolerance, insulin resistance, hyperinsulinemia and moderate hyperglycemia in both mice groups (LDLr knockout and wild-type groups). High-fat fed mice showed a subtle decrease in Cx36 islet expression and in the B-cell intercellular exchange of EB in comparison with the chow-fed group (control). We also observed an alteration in the pattern of Cx36 labeling in immunohistochemistry assays. The high-fat diet induced a redistribution of Cx36 within the islets from a disorganized pattern (more commonly seen in control mice) to a sub domain-pattern where Cx36 plaques demarcate groups of B-cells. These changes in Cx36 islet distribution observed in high-fat fed mice were accompanied by a similar pattern of immunolabeling for ZO-1, but an increase in its islet expression, a tight junctional protein that seem to be involved in Cx turnover and membrane organization of Cx-made channels. Taken all together, these findings suggest that cell-cell coupling mediated by GJ may play an important role in the pancreatic B-cell maturation observed during endocrine pancreas development as well as in the early stages of type 2 diabetes pathogenesis. / Doutorado / Histologia / Mestre em Biologia Celular e Estrutural

Ilhotas pancreáticas

Maturação

Células secretoras de insulina

Insulina - Secreção

Endocrino pancreas

Maturation

Pancreatic beta cells

Gap junctions (Cellular biology)

Insulin - Secretion

Rôle des jonctions communicantes dans la paroi artérielle pulmonaire : implications en physiopathologie / Role of gap junction communication in pulmonary arterial wall : implications in pathophysiology

Billaud, Marie

25 November 2009

Les jonctions communicantes jouent un rôle important dans la prolifération et la réactivité vasculaire systémique. Dans cette étude, nous avons recherché le rôle de ces structures dans la paroi artérielle pulmonaire saine et dans l’hypertension artérielle pulmonaire (HTAP). L’HTAP est une pathologie de la circulation pulmonaire caractérisée par une prolifération cellulaire pathologique et une hyperréactivité à divers agonistes vasoconstricteurs tels que la sérotonine (5-HT). Dans la paroi artérielle pulmonaire de rats sains les protéines constituant les jonctions communicantes vasculaires (les connexines 37, 40 et 43) sont présentes. De plus, la connexine 43 située au niveau de la jonction myoendothéliale (JME) intervient dans la réactivité à la 5-HT. La 5-HT produit par ailleurs, (1) de l’anion superoxyde (O2?) au niveau du muscle lisse et (2) un vasodilatateur (le monoxyde d’azote (NO)) au niveau de l’endothélium. La JME va permettre le passage de l’O2? du muscle lisse vers l’endothélium de façon à piéger le NO et maintenir une contraction physiologique de l’artère pulmonaire. L’étude des jonctions communicantes dans la circulation pulmonaire pathologique a été réalisée sur deux modèles de rats atteints d’HTAP : (1) le modèle de rat atteint d’HTAP suite à une injection de monocrotaline (rat MCT) et (2) le modèle de rat atteint d’HTAP suite à une hypoxie chronique (rat HC). Les connexines 37, 40 et 43 sont également exprimées au niveau de la circulation pulmonaire de ces rats, mais leur distribution au niveau du muscle lisse et l’endothélium est modifiée. La réactivité des artères pulmonaires à divers agents vasoconstricteurs (5-HT, endothéline-1, phényléphrine, solutions dépolarisantes) est modifiée chez les rats MCT et HC. De plus, l’implication des jonctions communicantes dans la réactivité à ces agents est changée chez les rats MCT et HC. Ces données apportent de nouvelles connaissances sur le rôle des jonctions communicantes dans la réponse contractile des artères pulmonaires saines, et de nouveaux éléments permettant de mieux comprendre les altérations de la vasomotricité pulmonaire observée dans l’HTAP. / Gap junction communication plays an important role in proliferation and in the regulation of vascular reactivity. In this study, we investigated the role of gap junctions in physiological pulmonary circulation and in pulmonary arterial hypertension (PAH). PAH is the main pathology of pulmonary circulation and is characterized by cell proliferation and hyperreactivity to several contractile factors such as serotonin (5-HT). In pulmonary circulation from healthy rats, gap junction proteins were observed (connexins 37, 40 and 43). Moreover, connexin 43 located at the myoendothelial junction (MEJ) is involved in the reactivity to 5-HT in pulmonary arteries from healthy rats. Indeed, 5-HT produces (1) superoxyde anion (O2?) from smooth muscle and (2) a vasodilator (nitric oxide (NO)) from endothelium. O2? will pass through MEJ from the smooth muscle to the endothelium in order to scavenge NO and thus maintain contraction in physiological conditions. Gap junctions study in pathological pulmonary arteries has been performed on two animal models of PAH: (1) monocrotaline-induced PAH (MCT rat) and (2) chronic hypoxia-induced PAH (CH rat). Connexins 37, 40 and 43 were observed in pulmonary circulation from these rats, but the localization in smooth muscle and endothelium is modified. Moreover, pulmonary arterial vasoreactivity in response to several contractile agents (5-HT, endothelin-1, phenylephrine, depolarizing solutions) is modified in MCT and CH rats. Finally, the role of gap junctions in the reactivity to these agonists is changed in MCT and CH rats. These data have important implications for understanding physiological vasoreactivity to 5-HT in pulmonary circulation, and to better understand alterations of pulmonary arterial reactivity observed in PAH.

Jonctions communicantes

Anion superoxyde

Hypertension artérielle pulmonaire

Hypoxie chronique

Monocrotaline

Sérotonine

Gap junctions

Superoxyde anion

Pulmonary arterial hypertension

Chronic hypoxia

Monocrotaline

Serotonin

Drug Transport in Cell Preparations with Diffusional Dosing and Temporal Ratiometry

Oruganti, Prasad

18 May 2010

No description available.

Biomedical Research

Single cell

Diffusional drug delivery

Fluorescence

Ratiometry

Drug screening

Drug development

Cancer

Cancer drug resistance

Gap junctions

A7r5

NRKE

MCF7

Submembrane cytoskeleton-regulated assembly and functional activity of gap junctions / Funktionelle Regulation von gap junctions und ihrer Anordnung durch das Sub-membranale Zytoskelett

Butkevich, Eugenia

29 June 2004

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Gap junctions

Connexin43

Drebrin

FRET

gap junctions

connexin43

drebrin

FRET

42.13

42.15

Remodelamento do complexo de glicoproteínas associadas à distrofina, do disco intercalar e das proteínas contráteis no coração de camundongos submetidos à sépsis induzida por ligação e perfuração do ceco / Remodeling of dystrophin-glycoprotein complex, intercalated disk proteins, and contractile proteins in the hearts of mice subjected to sepsis induced by cecal ligation and puncture.

Mara Rubia Nunes Celes

16 April 2008

A sépsis e o choque séptico representam uma síndrome complexa de intensa resposta inflamatória sistêmica, com múltiplas anormalidades fisiológicas e imunológicas, comumente causadas por infecção bacteriana. A principal conseqüência dessa resposta é o comprometimento de muitos órgãos e tecidos. A disfunção cardíaca, decorrente de um prejuízo na contratilidade miocárdica, tem sido reconhecida como um fator importante que contribui para os altos índices de mortalidade observados na sépsis. Dados recentes do nosso laboratório indicam que alterações estruturais no miocárdio podem ser responsáveis pela disfunção cardíaca observada na sépsis. Considerando que a maquinaria contrátil interna das miofibras deve permanecer intimamente conectada com a membrana e a matriz extracelular, o presente estudo foi proposto para avaliar alterações nas comunicações intercelulares e acoplagem mecânica entre os cardiomiócitos vizinhos e avaliar a expressão de proteínas do arcabouço celular e da matriz extracelular (especificamente a laminina-?2) durante a sépsis grave. Nossos resultados mostraram que há uma diminuição na expressão das proteínas envolvidas na formação das gap junctions (conexina43) e junções aderentes (N-caderina), o que resultaria na perda da integridade estrutural dos discos intercalares, alterando o acoplamento mecânico e eletro-químico entre os cardiomiócitos vizinhos. Além disso, demonstramos que há redução na expressão de distrofina e das proteínas que constituem o complexo de glicoproteínas associadas a distrofina (CGD) durante a sépsis experimental. A redução ou perda da expressão de distrofina é o evento primário que ocorre seguido pela degeneração miofilamentar, caracterizada pela lise dos filamentos de actina e miosina. A diminuição na expressão das glicoproteínas associadas à distrofina: -distroglicana e laminina foram considerados eventos secundários. Os resultados sugerem que durante a sépsis induzida por ligação e perfuração do ceco (CLP), há perda de proteínas importantes envolvidas tanto no remodelamento do disco intercalar quanto na expressão de glicoproteínas envolvidas na ligação mecânica entre o citoesqueleto intracelular e a matriz extracelular. Embora estudos funcionais sejam necessários para determinar o efeito direto dessas alterações sobre o miocárdio podemos sugerir que as alterações estruturais são parcialmente responsáveis pela depressão miocárdica observada na sépsis. / Sepsis and septic shock represent a complex syndrome of systemic inflammatory response, with multiple physiological and immunological abnormalities, commonly caused by bacterial infection. The most important consequence of the response is the involvement of many organs and tissues. Cardiac dysfunction, caused by impairment in myocardial contractility, has been recognized as an important factor that contributes to the high mortality observed in sepsis. Evidence from our laboratory indicates that myocardial structural changes could be responsible for sepsis-induced myocardial dysfunction. Taking into account that the contractile machinery inside the myofibers must remain intimately connected with the membrane and extracellular matrix, the present investigation sought to evaluate changes in intercellular communications and mechanical coupling between the neighbor cardiomyocytes and the expression of the cell scaffold protein and extracellular matrix (specifically merosin laminin-2 chain) during the severe sepsis. Our results showed a decrease in the expression of proteins involved in formation of gap junctions (connexin-43) and adherens junctions (N-cadherin). These alterations may result in the loss of intercalated disc structural integrity, changing the mechanical and electrical-chemical coupling between neighboring cardiomyocytes. Additionally, we demonstrated the decrease of dystrophin and dystrophin-glycoprotein complex (DGC) components resulting from severe septic injury. The reduction or loss of dystrophin is the primary event that occurs followed by miofilamentar degeneration characterized by actin and myosin lysis. The decrease of glycoproteins associated with dystrophin: -dystroglican and laminin were considered secondary events. The results suggest that during experimental severe sepsis induced by cecal ligation and puncture (CLP), there is loss of important proteins involved in both the remodeling of the intercalated disc and the glycoproteins expression implicated in the mechanical link between the intracellular cytoskeleton and extracellular matrix. Although the functional studies are needed to determine the direct effect of these alterations on myocardium, we can suggest that myocardial structural changes may be partly responsible for sepsis-induced cardiac depression.

CLP

disco intercalar

miocárdio

proteínas contráteis

sepsis/choque séptico

actin

adherens junctions

dystrophin

dystrophin-glycoprotein complex

gap junctions

intercalated disc

myocardial dysfunction

myosin.

septic shock

severe sepsis