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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
191

O efeito do treinamento intervalado de alta intensidade em componentes celulares e moleculares relacionados ? resist?ncia ? insulina em indiv?duos obesos

Matos, Mariana Aguiar de 20 October 2016 (has links)
Submitted by Jos? Henrique Henrique (jose.neves@ufvjm.edu.br) on 2017-04-27T15:00:50Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) mariana_aguiar_matos.pdf: 2901378 bytes, checksum: 40dbd704043d49a1eee587bb086c4eb4 (MD5) / Approved for entry into archive by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2017-05-16T19:24:00Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) mariana_aguiar_matos.pdf: 2901378 bytes, checksum: 40dbd704043d49a1eee587bb086c4eb4 (MD5) / Made available in DSpace on 2017-05-16T19:24:00Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) mariana_aguiar_matos.pdf: 2901378 bytes, checksum: 40dbd704043d49a1eee587bb086c4eb4 (MD5) Previous issue date: 2016 / Funda??o de Amparo ? Pesquisa do Estado de Minas Gerais (FAPEMIG) / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico (CNPq) / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior (CAPES) / O excesso de gordura corporal caracter?stico da obesidade est? relacionado a diversas altera??es metab?licas, que incluem a resist?ncia ? insulina. Dentre as medidas n?o farmacol?gicas empregadas para a melhora da sensibilidade ? insulina est? o treinamento f?sico aer?bio, como o treinamento intervalado de alta intensidade (HIIT, do ingl?s high intensity interval training). Sendo assim, esse estudo avaliou os efeitos do HIIT em componentes bioqu?micos, celulares e moleculares relacionados ? resist?ncia ? insulina em obesos. Indiv?duos obesos sens?veis (n=9) e resistentes ? insulina (n=8) foram submetidos a 8 semanas de HIIT, em cicloerg?metro, realizado 3 vezes por semana, com intensidade e volume progressivos (8 a 12 est?mulos; 80 a 110% da pot?ncia m?xima). Amostras de sangue venoso e do m?sculo vasto lateral foram obtidas antes e ap?s o programa de HIIT. Ap?s o programa de treinamento houve aumento da sensibilidade ? insulina nos obesos resistentes ? insulina, mas n?o houve redu??o da massa de gordura. A concentra??o de citocinas no soro, o estresse oxidativo sist?mico e frequ?ncia das c?lulas imunes n?o foram modificadas ap?s o treinamento. No m?sculo esquel?tico, o HIIT promoveu aumento da fosforila??o do substrato do receptor de insulina (IRS) (Tyr612), da Akt (Ser473) e da prote?na quinase dependente de c?lcio/calmodulina (CAMKII) (Thr286), e aumento do conte?do da ?-hidroxiacil-CoA desidrogenase (?-HAD) e citocromo C oxidase (COX-IV). Houve ainda, redu??o da fosforila??o da quinase regulada por sinal extracelular (ERK1/2) nos obesos resistentes ? insulina. Conclu?mos que 8 semanas de HIIT promoveram melhora da sensibilidade ? insulina, modificou componentes da via de sinaliza??o da insulina e do metabolismo oxidativo no m?sculo esquel?tico. Essas altera??es ocorreram independentes de mudan?as na gordura corporal total e de par?metros inflamat?rios sist?micos. / Tese (Doutorado) ? Programa Multic?ntrico de P?s-Gradua??o em Ci?ncias Fisiol?gicas, Universidade Federal dos Vales do Jequitinhonha e Mucuri, 2016. / Obesity is characterized by excess of body fat, and its development can lead to a variety of metabolic disorders, including insulin resistance. Exercise is recognized as a non-pharmacological approach to increasing skeletal muscle insulin sensitivity, although the mechanisms are not elucidated. Additionally, the understanding of high intensity interval training (HIIT, high intensity interval training) treat insulin resistance is less understood. Therefore, this study evaluated the effects of HIIT on biochemical, molecular, and cellular markers related to insulin resistance in sedentary obese individuals. Sensitive (n=9) and insulin resistant (n=8) obese individuals (body mass index ? 30 kg/m-2) were engaged in 8 weeks of HIIT using a cycle ergometer. The HIIT was performed 3 times a week, and its intensity and volume progressively increased throughout the training period (from 8 to 12 stimuli; from 80 to 110% of the maximum power). Venous blood and the vastus lateralis muscle samples were obtained before and after the HIIT. HIIT enhanced insulin sensitivity in insulin-resistant obese individuals without changing body fat mass. Cytokine concentration in serum, blood oxidative stress, and frequency of some immune cells were not altered by HIIT. In skeletal muscle, HIIT increased the phosphorylation of insulin receptor substrate (IRS) (Tyr612), Akt (Ser473), and protein kinase dependent calcium/calmodulin (CaMKII) (Thr286). HIIT also increased the expression of ?-hydroxyacyl-CoA dehydrogenase (?-HAD) and cytochrome C oxidase (COX-IV). A reduction of the kinase phosphorylation of extracellular signal-regulated (ERK1/2) was only seen in obese insulin resistant individuals. The results show that 8 weeks of HIIT enhanced insulin sensitivity, modified components of the insulin-signaling pathway, and improved skeletal muscle oxidative metabolism. These changes were independent of alterations in body fat and inflammatory parameters.
192

Role MAPK v regulaci cytoplazmatické polyadenylace během meiotického zrání savčích oocytů / Role of MAPK in regulation of cytoplasmic polyadenylation during meiotic maturation of mammalian oocytes

Kráčmarová, Jana January 2017 (has links)
Mammalian oocytes undergoing meiotic maturation are transcriptionally silent and gene expression is therefore regulated at the level of translation. One of the well established mechanisms employed in translational regulation of maternal mRNAs in oocytes is cytoplasmic polyadenylation. This process is generally controlled by phosphorylation and activation of cytoplasmic polyadenylation element binding protein (CPEB). The aim of this thesis is to determine the role of mitogen-activated protein kinase (MAPK) in regulation of CPEB-mediated cytoplasmic polyadenylation in maturing mouse and porcine oocytes. For this purpose, MAPK activity was inhibited using its specific inhibitor, GDC-0994 and the effect of MAPK inhibition on cyclin B1 mRNA polyadenylation was monitored. In mouse oocytes, MAPK inhibition impaired neither cyclin B1 mRNA polyadenylation nor its translation and MAPK is thus unlikely to be involved in regulation of cytoplasmic polyadenylation in this species. Based on the results of experiments performed using porcine oocytes, the possible role of MAPK in CPEB-mediated cytoplasmic polyadenylation can neither be confirmed nor ruled out. Keywords: cytoplasmic polyadenylation, mouse oocyte, porcine oocyte, mitogen-activated protein kinase (MAPK), cyclin B1, GDC-0994 inhibitor
193

Análise do impacto das proteínas E6/E7 de diferentes variantes moleculares de HPV-16 sobre as vias de transdução de sinal mediadas por MAPK / Analysis of the impact of E6/E7 proteins of different molecular variants of HPV-16 upon MAPK signaling pathways

Jimena Paola Hochmann Valls 07 July 2016 (has links)
A infecção persistente por HPV-16 está fortemente associada ao risco de desenvolvimento de neoplasias do colo do útero, vagina, vulva, pênis, canal anal e orofaringe. O estudo detalhado da variabilidade nucleotídica intra-típica de HPV-16 resultou em importantes achados no que concerne à filogenia e evolução viral, e à história natural das infecções. Variantes Asiático-Americanas (AA) e E-350G de HPV-16 foram associadas com maior risco de persistência da infecção viral e desenvolvimento de câncer de colo de útero quando comparadas à variante Européia protótipo (E-P ou E-350T), embora esta ainda apresente alto risco quando comparada aos outros tipos virais. Mais recentemente, diferenças funcionais entre as proteínas E6/E7 das distintas variantes moleculares de HPV- 16 estão sendo descritas, a fim de explicar as diferenças nas associações epidemiológicas observadas. Dados do nosso grupo apontaram para a transcrição aumentada do gene MEK2 especificamente em queratinócitos humanos primários (PHKs) transduzidos com E6/E7 da variante E-350G. Pelo exposto, objetivou-se: (1) Analisar os níveis de ativação de proteínas efetoras das vias de transdução de sinal mediadas por MAPK e PI3K/AKT em queratinócitos imortalizados por E6/E7 de três variantes moleculares de HPV-16 (AA, E-P, E-350G); (2) Analisar os efeitos das proteínas E6/E7 dessas variantes sob as vias de MAPK quanto à indução de fatores de transcrição; (3) Analisar o potencial transformante de PHKs imortalizados pelas diferentes variantes, e em cooperação com a proteína celular c-MYC; (4) Analisar o potencial de migração e invasão em PHKs imortalizados pelas diferentes variantes de HPV-16, e em cooperação com a proteína celular c-MYC. Neste estudo observou-se que a variante AA de HPV-16 induziu a maior ativação das vias de sinalização estudadas (MAPK, e PI3K/AKT). Ademais, PHKs imortalizados por esta variante apresentaram maior capacidade de migração, de invasão através de uma matriz de colágeno, além de maior potencial transformante. Adicionalmente, as células imortalizadas pela variante AA apresentaram maior expressão da proteína mesenquimal vimentina e diminuição dos níveis da proteína epitelial E-caderina, sugerindo ativação parcial de Transição Epitélio Mesênquima (EMT) nestes queratinócitos. Ademais, quando o oncogene c-MYC foi co-transduzido nas diferentes linhagens infectadas por E6/E7 de HPV-16, foi observado que em PHKs imortalizados pela variante AA também houve maior ativação da via de MAPK-ERK, maior migração, e um potencial transformante semelhante, em relação às células co-transduzidas pela variante E-350G e c-MYC. Em conjunto, estes dados sugerem que a variante AA de HPV-16 possui vantagem seletiva sob as outras variantes em promover transformação celular, migração e invasão, e isto poderia explicar, ao menos em parte, a maior prevalência desta variante no câncer cervical. Os resultados gerados neste estudo são de extrema relevância para avaliar o impacto da variabilidade intra-típica de HPV-16 sobre o potencial oncogênico observado em estudos epidemiológicos / Persistent infection with HPV-16 is strongly associated with risk of developing neoplasia in the uterine cervix, vagina, vulva, penis, anal canal and oropharynx. The detailed study of HPV-16 intra-typical nucleotide variability resulted in important findings regarding phylogeny and viral evolution, and the natural history of infections. Asian-American (AA) and E-350G variants of HPV-16 were associated with increased risk of persistent viral infection and development of cervical cancer compared to the European prototype (E-P or E-350T), although this variant still presents higher risk when compared to other viral types. More recently, functional differences between the E6/E7 proteins of distinct molecular variants of HPV-16 are being described, in order to explain the differences in the epidemiological associations observed. Data from our group pointed to increased transcription of the MEK2 gene specifically in primary human keratinocytes (PHKs) transducing E6/E7 of the E-350G variant. Consequently, the aims of this study were: 1) To examine the activation levels of effector proteins of the signal transduction pathways mediated by MAPK and PI3K/AKT in PHKs immortalized by E6/E7 of three different molecular variants of HPV-16 (AA, E-P, E-350G); (2) To analyze the effects of E6/E7 of different molecular variants of HPV-16 upon MAPK pathways concerning the induction of transcription factors; (3) To analyze the transforming potential of PHKs immortalized by different molecular variants of HPV-16, and in cooperation with the cellular protein c- MYC; (4) To analyze the potential of migration and invasion in PHKs immortalized by different molecular variants of HPV-16, and in cooperation with the cellular protein c- MYC. In this study we observed that the AA variant of HPV-16 induced higher activation of both signaling pathways studied (MAPK, and PI3K/AKT). Furthermore, this variant presented increased migration capacity, higher invasion through a collagen matrix, and greater transforming potential. Moreover, cells immortalized by the AA variant showed higher expression of the mesenchymal protein vimentin and a decrease of the epithelial protein E-cadherin, suggesting partial activation of Epithelial Mesenchymal Transition (EMT). In addition, when the c-MYC oncogene was co-transduced in the different cells lines infected with HPV-16 E6/E7, we observed that in PHKs immortalized by the AA variant there was also an enhanced activation of the MAPK-ERK pathway, a higher ability to migrate, and similar transformation potential in comparison with cells co-transduced with the E-350G variant and c-MYC. Taken together, this data suggest that the AA molecular variant of the HPV-16 has a selective advantage over the other variants to promote cell transformation, migration and invasion, and this could partly explain the higher prevalence of this variant in cervical cancer. The results generated in this study are very important to assess the impact of intra-typical variability of HPV-16 on the oncogenic potential observed in epidemiological studies
194

Mutação em NRAS causa uma síndrome autoimune linfoproliferativa humana / NRAS mutation causes a human autoimmune lymphoproliferative syndrome

João Bosco de Oliveira Filho 21 August 2008 (has links)
A subfamília p21 RAS de pequenas GTPases, incluindo KRAS, HRAS e NRAS, participa de muitas redes de sinalização, incluindo proliferação celular, organização do citoesqueleto e apoptose, e é o alvo mais freqüente de mutações ativadoras em câncer. Mutações germinativas em KRAS e HRAS causam graves anormalidades desenvolvimentais levando às síndromes de Noonan, cárdio-facial-cutânea e Costello, porem mutações ativadoras germinativas em NRAS não foram descritas até hoje. A síndrome autoimune linfoproliferativa (ALPS) é o mais comum defeito genético de apoptose linfocitária, cursando com autoimunidade e acúmulo excessivo de linfócitos, particularmente do tipo T + CD4- CD8-. As mutações causadoras de ALPS descritas até hoje afetam a apoptose mediada por Fas, uma das vias extrínsecas de apoptose. Nós demonstramos aqui que os principais achados clínicos de ALPS, bem como uma predisposição para tumores hematológicos, podem ser causados por uma mutação heterozigota ativadora G13D no oncogene NRAS, sem causar prejuízo na apoptose mediada por Fas. O aumento na quantidade intracelular de NRAS ativo, ligado a GTP, induziu a um aumento da sinalização na via RAF/MEK/ERK, o que suprimiu a expressão da proteína pró-apoptótica BIM, e atenuou a apoptose intrínseca mitocondrial. Desta forma, uma mutação germinativa ativadora em NRAS causou um fenótipo clinico diferente do visto em pacientes com mutações em outros membros da família p21 RAS, cursando com um defeito imunológico seletivo, sem distúrbios generalizados do desenvolvimento / The p21 RAS subfamily of small GTPases, including KRAS, HRAS, and NRAS, regulates cell proliferation, cytoskeletal organization and other signaling networks, and is the most frequent target of activating mutations in cancer. Activating germline mutations of KRAS and HRAS cause severe developmental abnormalities leading to Noonan, cardio-facial-cutaneous and Costello syndrome, but activating germline mutations of NRAS have not been reported. Autoimmune lymphoproliferative syndrome (ALPS) is the most common genetic disease of lymphocyte apoptosis and causes autoimmunity as well as excessive lymphocyte accumulation, particularly of CD4-, CD8- ab T cells. Mutations in ALPS typically affect Fas-mediated apoptosis, but certain ALPS individuals have no such mutations. We show here that the salient features of ALPS as well as a predisposition to hematological malignancies can be caused by a heterozygous germline Gly13Asp activating mutation of the NRAS oncogene that does not impair Fas-mediated apoptosis. The increase in active, GTP-bound NRAS augmented RAF/MEK/ERK signaling which markedly decreased the pro-apoptotic protein BIM and attenuated intrinsic, nonreceptor-mediated mitochondrial apoptosis. Thus, germline activating mutations in NRAS differ from other p21 Ras oncoproteins by causing selective immune abnormalities without general developmental defects
195

Regulation and Characterization of Transcription Factor Activator Protein-2 Alpha (AP-2α)

Nama, Srikanth January 2009 (has links) (PDF)
Introduction AP2α is a 52 kDa retinoic acid inducible and developmentally regulated activator of transcription, which binds to the DNA in a sequence-specific manner. Transcription factor AP-2α was isolated from HeLa cells by affinity chromatography using specific binding sites with in SV40 and human metallothionein promoters. Further screening of HeLa cDNA library with oligonucleotide probes predicted partial peptide sequence which led to the isolation of AP-2α cDNA and subsequently it was mapped to chromosome 6 near HLA locus. A differentially spliced version of AP-2α, which lacks most of the C-terminus, encodes a dominant negative protein (AP-2B). Subsequent studies led to the identification of four more isoforms: AP-2β, AP-2γ, AP-2δ and AP-2ε. AP-2 family members can form homo or hetero dimers among themselves through the unique C-terminal helix span helix motif and bind DNA through basic domain lies N-terminus of DNA binding domain. Several evidences suggest that AP-2α can act as a tumor suppressor gene. It has been shown that AP-2α can activate growth suppressor genes like p21WAF1/CIP1. Transforming viral oncogenes like adenovirus E1A and SV40 large T antigen have been shown to alter AP-2α function. In addition, reduced expression of AP-2α has been reported in human breast, ovary, colon, skin, brain and prostate cancers. Further, supporting evidences suggest that more invasiveness and tumorogenicity was observed when dominant negative mutant of AP-2α was expressed in melanoma cells. In this work, we have carried out a systematic study to find the various signal transduction pathways which regulate AP-2 activity as well as we attempted to demonstrate the importance of DNA binding domain in the growth inhibitory functions of AP-2α. HDAC inhibitors (HDIs) activate AP-2 activity through spleen tyrosine kinase (Syk) In the literature, ample evidences are available that genotoxic drugs such as adriamycin, induce tumor suppressors like p53 and p73. In this study, we have screened pharmacological drugs which damage DNA and specific inhibitors of various signal transduction pathways for their ability to activate AP-2 activity. AP-2 specific reporter, 3Χ-AP2-CAT was used in this study to measure the AP-2 activity. Of all the compounds studied, we found that Histone Deacetylase Inhibitors (HDIs) efficiently activated AP-2 activity and was found to be specific as they failed to activate 3X-AP2 mut CAT, which contains mutated AP-2 binding sites as well as pGL tk Luc, which contains thymidine kinase minimal promoter and no AP-2 binding sites. To understand the mechanism of HDI-mediated of AP-2 activation, AP-2 isoforms and its coactivators transcript and protein levels were analyzed. We found significant change in transcript levels of the some of the molecules tested. While the endogenous protein levels of various AP-2 isoforms were undetectable, we found stabilization of AP-2α protein expressed from exogenous source in cells treated with HDIs. HDI stabilized AP-2α was found to be functionally active as it showed increased sequence-specific DNA-binding as well as increased apoptosis. While HDIs known for their ability to modulate the gene activities by chromatin remodeling, it is also known that they alter various signal transduction pathways. In an effort to find pathway(s) by which HDIs activate AP-2 activity, we found that HDIs failed to activate AP-2 reporter in the presence of staurosporine suggesting the involvement a staurosporine sensitive pathway(s) in this process. Stauosporine is a non-specific kinase inhibitor of different signaling pathways. Further studies using different pathway specific inhibitors identified that spleen tyrosine kinase (Syk) is essential for HDIs mediated activation of AP-2 activity. Syk is a non receptor tyrosine kinase which is known to be activated in stress conditions. Syk is considered to be a tumor suppressor since Syk over expression leads to growth suppression of breast cancer cells and is also inactivated in a subset of breast cancers. These results suggest that HDI mediated activation of AP-2 involves AP-2α stabilization through Syk pathway. Regulation of AP-2 by MAP kinase pathway Cell growth, differentiation, and apoptosis are mediated by the activation of mitogenactivated protein kinase (MAPK) pathways. These kinases constitute MAP kinase cascades mainly regulated through phosphorylation status. In mammalian cells, at least four MAPKs, namely, extracellular signal-regulated kinases (ERKs), c-Jun N-terminal kinase/stress-activated protein kinases (JNK/SAPKs), p38 and ERK5/big MAP kinase have been identified. The ERKs are usually activated by mitogenic stimuli which in turn increase the proliferation and survival. Over expression of any activator of this signaling cascade lead to the unregulated proliferation of cells. In many cancers, ERK pathways are known to be up regulated. In this study, we found that MEK (MEK is the immediate upstream regulator of ERK) inhibitors - PD98059 and U0126 activate 3X-AP2-CAT suggesting that AP-2 activity is repressed by activated MAP kinase pathway. MEK inhibitor mediated activation was found to be specific because they failed to activate transcription from pGL tk Luc which contains thymidine kinase minimal promoter and no AP-2 binding sites. To understand the mechanism of MEK inhibitor-mediated of AP-2 activation, AP-2 isoforms and its coactivators transcript and protein levels were analyzed. We found significant change in transcript levels of the some of the molecules tested. The endogenous protein levels of various AP-2 isoforms were undetectable. When AP-2α was exogenously expressed, while no change in protein levels and DNA-binding ability was seen, we found evidence for appearance of post-ranslationally modified AP-2α protein in U0126 treated cells. We also found CITED2 (CBP/p300-interacting transactivator 2, co-activator of AP-2α) transcript levels were up regulated in UO126 treated cells. Post translational modifications of AP-2α and increased and increased CITED2 levels may be responsible for MEK inhibitor mediated AP-2 activation. Thus we conclude that ERK pathway, which is an oncogenic MAP kinase pathway, inhibits AP-2 activity thereby suggesting the importance of down regulation of AP-2 activity during transformation. Essential role of DNA-binding domain of AP-2α for its growth inhibitory functions Transcription factor AP-2α has three distinct domains, N-terminal transactivation domain (52-108 aa), C-terminal DNA binding domain (204-408 aa) and dimerization domain (277-395 aa) which lies within the DNA binding domain. AP-2α exerts its effects through binding to specific DNA sequence in the promoter of its target genes leading to either repression or activation. Recent evidences suggest that AP-2α represses many genes through its competitive binding to overlapping AP-2 and other transcription factor binding sites. This suggests an important role exclusively for the DNA binding domain in AP-2α mediated functions. To address the importance of DNA binding domain for AP-2α mediated apoptosis, we have tested the ability different deletion/point mutants of AP-2α with varying DNA binding and transactivation capability to perform growth suppressor function and ability to induce apoptosis. Replication-deficient recombinant adenoviruses expressing different mutants were used in this study. We found that an intact DNA-binding domain alone even in the absence of activation domain is sufficient for AP-2α to inhibit colony formation and to induce significant levels of apoptosis. These results suggest an important role for DNA binding domain growth inhibitory functions of AP-2α and thereby implying the importance of transcriptional repression in AP-2α functions.
196

Characterization of signalling pathways in cardiac hypertrophic response

Koivisto, E. (Elina) 07 June 2011 (has links)
Abstract Intracellular signalling cascades regulate cardiomyocyte hypertrophic response. Initially hypertrophy of individual myocytes occurs as an adaptive response to increased demands for cardiac work, e.g. during hypertension or after myocardial infarction, but a prolonged hypertrophic response, accompanied by accelerated fibrosis and apoptosis, predisposes the heart to impaired performance and the syndrome of heart failure. The goal of this work was to elucidate some of the main signalling pathways in experimental models of the cardiac hypertrophic response. Mechanical stretching of cultured neonatal rat cardiomyocytes in vitro activates the B-type natriuretic peptide (BNP) gene, a well-established marker of the hypertrophic response, through intracellular signalling cascades mitogen-activated protein kinases (MAPKs) and protein kinase A (PKA) -pathway. Further, transcription factors transcriptional enhancer factor-1 (TEF-1) and activating transcription factor 3 (ATF3) were induced during stretch, and TEF-1 activation was shown to be regulated by extracellular signal-regulated kinase (ERK), while ATF3 activation was modulated by PKA. The BNP gene was also activated by the adenoviral overexpression of the p38 MAPK isoforms p38α and p38β in vitro. Importantly, p38α–induced activation was mediated through activator protein-1 (AP-1) while p38β mediated BNP transcription through GATA-4, which suggests distinct physiological roles for different p38 isoforms. This was further confirmed by quantitative PCR, which demonstrated pro-fibrotic role for the p38α isoform and a pro-hypertrophic role for the p38β isoform. Finally, adenoviral overexpression of ATF3 in vitro and in vivo resulted in activation of cardiac survival factors nuclear factor-κВ and Nkx-2.5, and attenuation of central pro-inflammatory and pro-fibrotic mediators. Together these data suggest a protective role for ATF3 in the heart. Overall this study provides new insights into the role of several signalling molecules involved in cardiac hypertrophic process and suggests potential therapeutic strategies for the diagnosis and treatment of heart failure. / Tiivistelmä Sydämen kammioiden seinämät paksuuntuvat kuormituksen lisääntyessä mm. verenpainetaudissa tai sydäninfarktin jälkeen. Lisääntynyt kuormitus aiheuttaa sydänlihassolujen koon kasvun (hypertrofioitumisen) ohella sidekudoksen kertymistä (fibroosia) ja solukuolemaa. Nämä solutason muutokset lopulta vioittavat sydämen rakennetta niin, että sen toiminta pettää, ja sydän ajautuu vajaatoimintaan. Tätä taudin etenemistä säätelevät molekyylitasolla lukuisat solunsisäiset signaalinvälitysjärjestelmät, joita tässä väitöskirjatyössä tutkittiin eri koemalleissa. Sydämen täyttöpaineen nousun aiheuttama sydänlihassolujen mekaaninen venytys aktivoi natriureettisten peptidien (eteispeptidi, ANP ja B-tyypin natriureettinen peptidi, BNP) synteesiä ja vapautumista verenkiertoon. BNP geenin säätelyä mekaanisen venytyksen aikana tutkittiin rotan sydänlihassoluviljelmissä. Mitogeeni-aktivoituvat proteiinikinaasit (MAPK) sekä proteiinikinaasi A (PKA) säätelivät mekaanisen ärsykkeen aiheuttamaa BNP geenin ekspressiota. Venytys aktivoi myös transkriptiotekijöitä TEF-1 (transcriptional enhancer factor-1) ja ATF3 (activating transcription factor 3). TEF-1 sääteli venytyksen aiheuttamaa BNP:n aktivaatiota ERK:n (extracellular signal-regulated kinase) välityksellä BNP geenin säätelyalueella olevan sitoutumispaikkansa (M-CAT elementti) kautta. ATF3:n säätelyssä PKA:lla oli keskeinen merkitys. Tutkimus osoitti myös, että p38 MAPK:n alatyypeistä p38α lisäsi fibroosiin liittyvien geenien aktiivisuutta, kun taas p38β aiheutti solujen hypertrofioitumista lisäävien geenien ekspressiota. Molemmat alatyypit aktivoivat BNP geenin ekspressiota, mutta aktivaatio tapahtui eri transkriptiotekijöiden kautta. Tutkimuksessa havaittiin myös, että ATF3:n yliekspressio adenovirusvälitteisellä geeninsiirrolla lisäsi kahden sydäntä suojaavan transkriptiotekijän (nuclear factor-κВ ja Nkx-2.5) aktiivisuutta, sekä vähensi sydämen tulehdusvastetta ja fibroosia lisäävien tekijöiden (interleukiini-6 ja plasminogeeniaktivaattorin inhibiittori-1) ekspressiota. Väitöskirjatutkimus antaa uutta tietoa solunsisäisistä signaalinvälitys-järjestelmistä, jotka säätelevät sydänlihaksen kuormitusvastetta sydän- ja verenkiertoelimistön sairauksissa. Näiden solutason mekanismien tunteminen osaltaan edesauttaa jatkossa uusien menetelmien kehittämistä sydämen vajaatoiminnan ehkäisyyn ja hoitoon.
197

Effects of deoxynivalenol and deepoxy-deoxynivalenol on bovine ovarian theca cell function

Torabi, Mohammad Ali 04 1900 (has links)
La mycotoxine déoxynivalénol (DON) et son métabolite déépoxy-déoxynivalenol (DOM-1) ont des effets significatifs sur la modification de la fonction des cellules thècales de l’ovaire bovin. L'objectif de cette étude était d'identifier les différentes voies de signalisation impliquées dans le mécanisme d'action de DON et DOM-1 par la spectrométrie de masse. Méthodes: Les cellules thécales de l'ovaire bovin ont été récoltées à partir des vaches adultes, indépendamment du stade du cycle œstral, et ont été cultivées à une densité de 500000 cellules viables dans 1 ml de milieu de McCoy pendant 5 jours. Les cellules ont ensuite été traitées au jour 5 de la culture avec 1 ng/ml de DON ou DOM-1 pendant 30 minutes et des échantillons cellulaires de protéins totales ont été préparés pour spectrométrie de masse. Résultats: la spectrométrie de masse a montré que DON et DOM-1 induisent une surexpression simultanée de ERK1/2, MAPK14 (p38alpha) et MAPK13 (p38delta). La spectrométrie de masse a également indiqué que 94 peptides ont été surexprimés tels que GNGT1, EDN1 et YWHAB. Ils régulent la plupart des voies de prolifération des cellules et sont impliqués dans la biosynthèse des lipides et des glucides. Néanmoins, 255 peptides ont été régulés à la baisse, tels que CALR3, PTGES3, RAD21, ACVR2B et TGFBR1 dont leurs activités sont principalement l'activation ou la désactivation des processus apoptotiques, et le métabolisme du glucose et de la choline. Nos résultats montrent que DON et DOM-1, à une dose de 1 ng/ml, ont le potentiel de stimuler la surexpression de MAPK distinctes et réguler négativement les voies de signalisation spécifiques qui stimulent la prolifération les cellules de la thèque de l’ovaire de bovin. / The mycotoxin deoxynivalenol (DON) and its metabolite deepoxy-DOM-1 have significant effects on bovine ovarian theca cell function. The objective of this study was to identify different signaling pathways involved in the mechanism of action of DON and DOM-1 by mass spectrometry. Methods: bovine ovarian theca cells were harvested from adult cows independently of the stage of the estrous cycle, and were cultured at a density of 500000 viable cells in 1 ml McCoy’s medium for 5 days. The cells were then treated on day 5 of culture with 1 ng/mL DON or DOM-1 for 30 minutes and total cell protein was collected for mass spectrometry. Results from mass spectrometry showed that both DON and DOM-1 induce simultaneous upregulation of ERK1/2 , MAPK14 (p38alpha) and MAPK13 (p38delta). Mass spectrometry also indicated that 94 peptides such as GNGT1, EDN1 and YWHAB were upregulated. They mostly regulate cell proliferation pathways and are involved in biosynthesis of lipid and carbohydrates. Nevertheless, 255 peptides such as CALR3, PTGES3, RAD21, ACVR2B and TGFBR1 were downregulated whose activities are mainly activation or deactivation of apoptotic processes, and glucose and choline metabolism. Our findings show that both DON and DOM-1 at least at a low dose (1 ng/ml) have the potential to stimulate upregulation of distinct MAPKs and downregulate specific signaling pathways that stimulate bovine ovarian theca cell proliferation.
198

Exploration du rôle de signalisation des Mitogen-Activated Protein Kinases lors de la fécondation chez les plantes

Mazin, Benjamin Damien 10 1900 (has links)
La reproduction est un événement crucial pour la vie des plantes. Ce processus nécessite la formation du pollen et des ovules. Les cellules germinales vont subir la méiose puis une succession de mitoses, deux pour le pollen et trois pour l’ovule, ce qui va leur permettre d’acquérir leurs structures finales. Une fois formés, ces deux gamètes doivent se rencontrer. Pour cela, le grain de pollen va germer sur le stigmate puis former le tube pollinique. Le tube pollinique en croissance va traverser les différents tissus femelles et ainsi tracter les deux cellules spermatiques jusqu’à l’ovule, permettant la reproduction. Un important réseau de signalisation cellulaire est nécessaire pour permettre ces événements. Les cascades des Mitogen-Activated Protein Kinases (MAPKs) sont l’un des réseaux de signalisation les plus étudiés chez les plantes. Ces kinases sont impliquées dans de très nombreux processus développementaux tels que la formation de l’embryon ou des stomates. Pour autant, leurs rôles restent encore peu caractérisés pendant de la fécondation. Ce projet a pour objectif de mieux comprendre le rôle que jouent les MAPK lors de la formation des gamètes mâles et femelles ainsi que lors de la croissance des tubes polliniques. Plusieurs membres de la superfamille des MAPKs ont été caractérisés pour leurs rôles dans la reproduction sexuée des végétaux. De précédents travaux dans le laboratoire de Daniel P. Matton, ont démontré l’implication de deux MAPK Kinases Kinases (MAP3K), la Solanum chacoense Fertilization-Related Kinase 1 (ScFRK1) et ScFRK2. Ces deux kinases sont nécessaires pour le développement de l’ovule et du pollen chez S. chacoense, une espèce de pomme de terre sauvage diploïde. Dans un premier temps, nous avons étudié la fonction d’une nouvelle ScFRK, la ScFRK3. Ce troisième membre de la classe des FRKs chez S. chacoense, est, elle aussi, impliquée dans le développement des gamétophytes mâles et femelles. Du patron d’expression jusqu’à l’établissement d’une voie de signalisation potentielle, en passant par la caractérisation phénotypique des mutants, plusieurs expériences ont été réalisées dans le but de comprendre le rôle de ScFRK3 lors de la formation des gamètes chez Solanum chacoense. Nous montrons que la ScFRK3 est impliquée dans la formation du pollen ainsi que celui des ovules. Nous avons ensuite poursuivi nos recherches en affinant le phénotypage du mutant de surexpression ScFRK2. En effet, les précédentes études ont permis de montré que la surexpression de ScFRK2 conduit le primordium ovulaire à la formation de structures carpéloïdes. Pour autant, les ensembles des primordius ovulaires ne sont pas devenu des strutures capéloïde. Nous montrons ici que seulement 10 % des ovules dans l'ovaire sont devenu 4 des carpéloïde. Notre étude montre qu’en plus des structures carpéloïdes, un grand nombre d'ovule n'ont pas de sac embryonnaire à l'anthèse ce qui explique le faible nombre de graines par fruit. L’analyse du développement des sacs embryonnaires monte que la surexpression de ScFRK2 entraine l’arrêt au stade mégaspore fonctionnelle. Ce phénotype est similaire à ce qui a pu être observé dans les lignées ARN interférant pour la ScFRK1 et la ScFRK3. De précédentes études faites chez Arabidopsis thaliana semblent montrer que les membres de la superfamille des MAPK ne sont pas essentiels pour la croissance du tube pollinique. Pour comprendre le rôle que jouent les MAPK dans l’élongation du tube pollinique, nous avons utilisé un inhibiteur des MAP Kinase Kinase (MKK), appelé U0126. La présence de cette drogue dans le milieu de croissance des grains de pollen provoque une diminution de la germination et de l’élongation du tube pollinique. L’utilisation de la méthode semi-in vivo montre une perte de la polarisation de la croissance des tubes polliniques causée par l’inhibition des MKK. La présence de l’inhibiteur conduit à la diminution de la quantité de filaments d’actine ainsi qu’à leur désorganisation à l’apex du tube. L’exocytose est aussi affectée par l’inhibition des MKK. Les cascades MAPK sont nécessaires à la croissance polarisée du tube pollinique chez Arabidopsis thaliana. Pour finir, nous avons voulu identifier certains membres de la superfamille des MAPK impliqués dans la croissance du tube pollinique. Nous nous sommes intéressés en premier lieu aux orthologues de la famille ScFRK chez Arabidopsis thaliana. Les AtMAP3K19-20-21 sont les orthologues les plus proches de ScFRK3. Ces AtMAP3K sont exprimées lors du développement des grains de pollen et lors de l’élongation de tube pollinique. L’analyse du pollen des différentes lignées mutantes montre qu’en leur absence, le pollen ne présente aucun problème de développement contrairement à ScFRK3. Par contre, les doubles mutants et le triple mutant pour les AtMAP3K19-20-21 montrent une diminution de la capacité de germination. L’élongation du tube pollinique est affectée lors de la mutation d’au moins une des AtMAP3K. Ces deux études démontrent que les MAPK sont essentielles dans la formation et l’élongation du tube pollinique. / Reproduction is a crucial event for plant life. This process requires the formation of pollen and ovules. The germ cells will undergo meiosis and then a succession of mitosis, two for the pollen and three for the ovule, which will allow them to acquire their final structures. Once formed, these two gametes must meet each other. For this, the pollen grain will germinate on the stigmas to form the pollen tube. The growth of the pollen tube will pass through the different female tissues and thus pull the two sperm cells to the ovum for reproduction. An important cellular signaling network is necessary to allow these events to occur. The Mitogen-Activated Protein Kinase (MAPKs) cascades are one of the most studied signaling networks in plants. These kinases are involved in a wide range of developmental processes such as embryo formation and stomata. However, their roles remain poorly characterized during fertilization. The aim of this project is to better understand the role played by MAPKs during the formation of male and female gametes as well as during the growth of pollen tubes. Several members of the MAPK superfamily have been characterized for their role in the sexual reproduction of plants. Previous work in Daniel P. Matton's laboratory has demonstrated the involvement of two MAPK Kinases (MAP3K), Solanum chacoense Fertilization-Related Kinase 1 (ScFRK1) and ScFRK2. These two kinases are necessary for egg and pollen development in S. chacoense, a diploid wild potato species. In a first step, we studied the functionality of a new ScFRK, ScFRK3. This third member of the class of FRKs in S. chacoense, is also involved in the development of male and female gametophytes. From the expression pattern to the establishment of a potential signaling pathway, through the phenotypic characterization of mutants, several experiments have been performed in order to understand the role of ScFRK3 in the formation of gametes in S. chacoense. We show that ScFRK3 is involved in the formation of pollen as well as that of the embryonic sac. We then continued our research by refining the phenotyping of the overexpression mutant ScFRK2. Indeed, previous studies have shown that ScFRK2 overexpression leads the ovular primordium to the formation of carpeloid structures. However, the sets of ovular primordia have not become capeloid structures. We show here that only 10% of the eggs in the ovary have become carpeloid. Our study shows that in addition to the carpeloid structures, a large number of ova do not have an embryonic sac in the anthesis, which explains the low number of seeds per fruit. The analysis of the development of the embryonic sacs shows that 7 overexpression of ScFRK2 leads to the cessation of the functional megaspore stage. This phenotype is similar to what has been observed in interfering RNA lines reducing expression of ScFRK1 and ScFRK3. Previous studies in Arabidopsis thaliana suggest that members of the MAPK superfamily are not essential for pollen tube growth. To understand the role that MAPKs play in pollen tube elongation, we used a MAP Kinase Kinase (MKK) inhibitor called U0126. The presence of this drug in the growth medium of pollen grains causes a decrease in germination and elongation of the pollen tube. The use of the semi in vivo method shows a loss of polarization of the pollen tube growth caused by the inhibition of MKK. The presence of the inhibitor leads to a decrease in the number of actin filaments and their disorganization at the apex of the tube. Exocytosis is also affected by MKK inhibition. We show in this chapter that MAPK cascades are necessary for polarized pollen tube growth in Arabidopsis thaliana. Finally, we wanted to identify some members of the MAPK superfamily involved in pollen tube growth. We were first interested in the ScFRK family orthologs in Arabidopsis thaliana. AtMAP3K19-20-21 are the closest orthologs to ScFRK3. These AtMAP3K are expressed during the development of pollen grains and during the elongation of the pollen tube. Pollen analysis of the different mutant lines shows that in their absence the pollen does not present any development problems unlike ScFRK3. On the other hand, double mutants and triple mutant for AtMAP3K19-20-21 show a decrease in germination capacity. Pollen tube elongation is affected when at least one of the AtMAP3Ks is mutated. These two studies demonstrate that MAPKs are essential for the formation and elongation of the pollen tube and that AtMAP3K19-20-21 participate in these biological processes.
199

Large tumor suppressor 1 (LATS1) and stress stimuli regulate mixed lineage kinases (MLKs) in ovarian cells.

Kasturirangan, Srimathi January 2021 (has links)
No description available.
200

The Role of RIP1 in the TNFR1 Signal Transduction Pathway: a Dissertation

Lee, Thomas H. 24 September 2004 (has links)
The cytokine tumor necrosis factor α (TNFα) stimulates the NF-кB, SAPK/JNK, and p38 mitogen-activated protein (MAP) kinase pathways by recruiting Rip1 and Traf2 proteins to the tumor necrosis factor receptor 1 (TNFR1). Genetic studies have revealed that Rip1 links the TNFR1 to the IкB kinase (IKK) complex, whereas Traf2 couples the TNFR1 to the SAPK/JNK cascade. We found TNFα-induced p38 MAP kinase activation and interleukin-6 (IL-6) production is impaired in rip1-/- murine embryonic fibroblasts (MEF) but unaffected in traj2-/- MEF, demonstrating that Rip1 is also a specific mediator of the p38 MAP kinase response to TNFα. Moreover, we demonstrate that endogenous Rip1 associates with the MAP3K, Mekk3 in response to TNFα and that TNFα-induced p38 MAP kinase activation is impaired in mekk3-/- cells, indicating that Rip1 may mediate the p38 MAP kinase response to TNFα by recruiting Mekk3. We also demonstrate that Rip1 is phosphorylated and ubiquitinated in response to Tnfα and that Rip1 phosphorylation is not required for ubiquitination of Rip1. Furthermore, TNFα-induced ubiquitination of Rip1 is impaired in Traf2-/- cells, suggesting that Traf2 is the E3 ubiquitin ligase responsible for the TNFα-dependent ubiquitination of Rip1. Finally, recruitment of the ubiquitinated Tak1 complex is dependent on the presence of Rip1, suggesting that Rip1 ubiquitination rather than its phosphorylation is critical in TNFR1 signaling.

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