Global ETD Search

91	Estudo da infecção de vírus ZIKA em modelo de explantes de placenta humana / Ribeiro, Milene Rocha. January 2018 (has links) Orientador: Paula Rahal / Coorientador: / Banca: / Resumo: O ZIKV é um vírus de RNA, não segmentado, de fita simples e sentido positivo membro da família Flaviviridae. O genoma viral possui uma arquitetura típica de flavivírus, com cerca de 11kb de comprimento, que codifica três proteínas estruturais (Capsídeo, precursor-Membrana, Envelope) e sete proteínas não-estruturais (NS1, NS2A, NS2B, NS3, NS4A, NS4B, NS5). Nas Américas, emergiu rapidamente após surto na ilha da Páscoa, Chile. No Brasil, o surto iniciou em 2015, aumentando consideravelmente casos de microcefalia em recém-nascidos. Aliada a esses casos, também foi observada a ocorrência de síndrome neurológica de Guillain-Barré. Essas associações transformaram o impacto da transmissão e infecções por ZIKV em uma preocupação de saúde pública global. O vírus é transmitido principalmente pelos mosquitos do gênero Aedes, que possuem ampla distribuição e apresentam grandes adaptações a ambientes urbanos. Além de transmissão vetorial, pode ser transmitido via sexual e materno-fetal. O objetivo deste trabalho foi comparar as infecções por uma cepa contemporânea de ZIKV com DENV2 em modelo de explantes de placenta humana a termo, bem como quantificar expressão de citocinas, interferons do tipo I, II e III e marcadores de apoptose induzida via infecção viral. Os resultados demonstram que os explantes da placenta a termo são permissivos e apoiam a infecção por ZIKV. A quantificação da carga viral entre infecções ZIKV e DENV2 foram similares. No entanto, DENV2 apresentou decréscimo na... / Abstract: ZIKV is a non-segmented, single-stranded, positive-sense RNA virus and a member of the Flaviviridae family. Its genome has a typical 11 kB-long flavivirus architecture that encodes three structural proteins (Capsid, PrecursorMembrane, Envelop) and seven non-structural proteins (NS1, NS2A, NS2B, NS3, NS4A, NS4B and NS5). In the Americas, the viruses emerged rapidly after outbreak on Pascoa Island, Chile. The outbreak reached Brazil in 2015, substantially increasing cases of microcephaly in newborns. In addition to microcephaly, cases associated with neurological diseases such as GuillainBarré syndrome have made ZIKV a global public health concern. The virus is mainly transmitted by mosquitoes of the genus Aedes, which are widely distributed and which have adapted well great to urban environments. In addition to vector transmission, ZIKV can be transmitted via sexual and maternal-fetal routes, the virus has been isolated is from sperm, amniotic fluid and central nervous systems of stillborn fetuses. The goal of this report was compare ZIKV-infected to DENV2 in full-term human placenta explant model. Quantify expression of cytokines, type I, II and III interferons and markers of induced-apoptosis by viral infection. The results demonstrated that full-term placenta explants are permissive and support ZIKV infection. Viral loads in ZIKV and DENV2 infections were similar. However, DENV2 presented a decrease in viral load release at 24 hours post infection (h.p.i). The kinetics of viral replication coincided with the expression of proinflammatory cytokines and the increase of apoptosis in the infected tissue. Apoptosis was partially dependent on TNF-α. Anti-TNF-α treatment significantly decreased the activated-caspase 3 mediated viral infection. Cumulatively, this model demonstrates that human placental tissues are targets of ZIKV-infection and that the infection is pathogenic to ... / Doutor Virologia. Placenta. Flavivírus. Caspase 3. Apoptose. Interferon. Virus Zika Virology
92	Multiplexed biochemical imaging reveals the extent and complexity of non-genetic heterogeneity in DNA damage-induced caspase dynamics Fries, Maximilian Werner January 2018 (has links) Genetically identical cells show a heterogeneous response to a multitude of signals such as growth factors and DNA damage. While this heterogeneity has been shown to be a major determinant of treatment success in several diseases including cancer, little is known about how differences in biochemical signalling networks underlie such heterogeneity. State-of-the-art methodologies to study biochemical networks are often invasive and enable to quantify biochemical events only on cell populations or at a single point in time for a single cell, and therefore, cannot adequately quantify the fast, asynchronous and heterogeneous responses. In order to address these limitations, we have developed a unique sensing platform based on fluorescence lifetime imaging microscopy (FLIM) capable to multiplex at least three biosensors by utilizing Förster Resonance Energy Transfer (FRET) efficiently. After an overall introduction in Chapter 1, I describe the rational design and characterization of novel FRET pairs aiming to utilize the visible spectrum efficiently in combination with FLIM in Chapter 2. We combined blue, green and red donor fluorescent proteins that are excited at the same wavelength (840 nm for two-photon excitation) with genetically encoded quenchers, i.e. non-fluorescent chromoproteins as acceptors. This sensing platform enables the simultaneous detection of three biochemical reactions within single living cells providing new opportunities to characterize and understand non-genetic heterogeneity. In Chapter 3, I will demonstrate the first application of this novel platform by studying the activity of three key enzymes in DNA damage-induced cell death, caspase-2, -3, and -9. We confirm the heterogeneous nature of Cisplatin-induced cell death in genetically identical cells but reveal the existence of at least three subpopulations of cells characterized by distinct caspase dynamics. By combining biochemical and morphological information we infer the existence of different biochemical network topologies that are associated with alternative death phenotypes each cell adopts, such as apoptosis and programmed necrosis. Finally, deconvolution of cellular populations and direct measurement of a three-node caspase network - formerly impossible - permitted us to design perturbations of cell fate choices utilizing clinically relevant inhibitors. These perturbations resulted in changes in cell fate in response to Cisplatin, a clinically desirable outcome that suggests new avenues for combinatorial drugging and a new strategy to reveal cancer vulnerabilities that may be otherwise confounded by typical genetic and non-genetic heterogeneity.
93	Aspectos moleculares envolvidos na apoptose de células mononucleares em pacientes com paracoccidioidomicose. / Molecular aspects involved in the apoptosis of mononuclear cells of patients with paracoccidioidomycosis. Camila Rodrigues Cacere 05 May 2008 (has links) A hiporreatividade das células T observada na resposta imune a antígenos de P. brasiliensis de pacientes com paracoccidioidomicose ativa deve contribuir para o não controle da doença, levando à disseminação do fungo. É, na maioria das vezes, reversível com tratamento antifúngico. Os mecanismos que levam a esta hiporreatividade não são bem conhecidos. No entanto, foram demonstrados em resultados prévios em nosso laboratório que células mononucleares de pacientes frente a gp43 apresentam níveis elevados de apoptose. Para tentarmos explicar esse mecanismo, nossa primeira hipótese foi de avaliar se a ativação celular desses pacientes estavam sendo prejudicada por uma ativação inadequada induzida pela expressão alterada de moléculas co-estimulatórias como CD80, CD86, CD28, CD152, ICOS e PD-1. A expressão dessas moléculas foi avaliada em células T e monócitos de pacientes com doença ativa (n = 7...) e controles curados (n = 2...) de um episódio prévio de PCM, mantidas em cultura com antígeno metabólico de Candida albicans (CMA), gp43 ou sem estímulo após 4 dias em cultura. Os resultados obtidos demonstraram que a expressão do CD28 foi comparável entre doentes e controles, e que a expressão de CD152, PD-1 e ICOS, que preferencialmente exercem um papel negativo na sinalização celular, foi maior em células T de pacientes, estimuladas ou não, quando comparadas com células de indivíduos controles. Em paralelo, foram realizados experimentos com a adição dos respectivos anticorpos bloqueadores, que, no entanto, não restabeleceu a proliferação celular dos pacientes. A expressão das moléculas CD80 e CD86 na superfície dos monócitos foi similar em pacientes e controles. Já a expressão dessas moléculas na superfície de linfócitos foi maior nos pacientes tanto em células estimuladas como não estimuladas. O bloqueio com os respectivos anticorpos no dia 0 inibiu a resposta tanto com gp43 como com CMA, porém de forma diferenciada. Nos pacientes e controles a inibição da molécula CD86 diminuiu a resposta tanto para gp43 como para CMA e a inibição da molécula CD80 diminuiu a resposta proliferativa apenas para gp43, e somente no grupo controle, sugerindo que os diferentes antígenos exigem diferentes moléculas durante o processo de apresentação antigênica. A adição desses anticorpos no 4o dia da cultura não modificou a resposta linfoproliferantiva dos pacientes e controles. Nossos dados favorecem a hipótese, derivada de outros modelos de exposição crônica a antígenos exógenos, de que a exposição repetida a antígenos de P. brasiliensis por um longo período in vivo, verificada nos pacientes com paracoccidioidomicose, levam as células T a um estado de tolerância adaptativa, que dificilmente é revertida in vitro. A partir desses resultados analisamos a participação da apoptose de células T nesse provável estado de tolerância nas células dos pacientes. Observamos que a expressão da molécula anti-apoptótica Bcl-2 está diminuída nas células T de pacientes previamente estimuladas comparadas com as células dos controles, e mesmo após o reestímulo in vitro a diminuição da expressão dessa molécula persiste. Desta forma, a diminuição da expressão da molécula Bcl-2 ex vivo nas células T de pacientes sugere fortemente que essas células estão vulneráveis a apoptose. Para corroborar esta hipótese, analisamos a expressão das caspases 8 e 9 na forma ativa. Inicialmente, analisamos a expressão destas moléculas em células mononucleares de pacientes e controles mantidas em cultura por 4 dias com e sem estímulo de CMA e gp43 e observamos que as células dos controles expressam maiores níveis de ambas moléculas em relação as células dos pacientes. Esses resultados foram surpreendentes uma vez que o aumento da expressão de moléculas que estariam direcionando as células para apoptose era esperado em células de pacientes e não de controles. Para explicar este resultado sugerimos a possibilidade (hipótese já apareceu várias vezes) de que as células dos pacientes poderiam estar entrando em apoptose num estágio mais inicial, antes do quarto dia. Por isso realizamos experimentos adicionais em que analisamos a expressão dessas caspases ex vivo. Com essa análise observamos que células TCD3+ de pacientes expressam altos níveis tanto de caspase 8 como caspase 9 comparadas às células de controles. Esses resultados podem ajudar a explicar porque nos ensaios para a análise da resposta proliferativa de pacientes com acréscimo de anticorpos bloqueadores de moléculas coestimulatórias, não houve reconstituição da resposta especifica a gp43: essas células estariam pré-ativadas e pré-programadas para entrarem apoptose, e, portanto, refratárias a tratamentos in vitro, como já descrito em células em estado de tolerância adaptativa. / The T-cell hypoproliferative reactivity observed in the immune response to P. brasiliensis antigens of patients with active paracoccidioidomycosis probably contributes to the failure of the host in controlling the infection, leading to a disseminated disease. It is, however, largely reversible with treatment in most patients. The mechanisms leading to this hyporresponsiveness are not well known. We have previously demonstrated that patients\' mononuclear cells in presence of gp43 exhibit enhanced apoptotic levels. I an attempt to explain such findings, we hypothethized that these cells were inadequately activated due to altered costimulatory molecules expression, such as CD80, CD86, CD28, CD152, ICOS e PD-1. Expression of these molecules were evaluated on T-cells and monocytes of the peripheral blood of patients with active, disseminated PCM (n = 7...), and healthy individuals with a past history of treated and cured PCM (n = 2...). These cells were cultured in presence of a Candida albicans metabolic antigen (CMA), gp43, or kept without exogenous stimuli for 4 days. Our results show tgat the expression of CD28 was comparable between patients an controls\' cells, and that CD152, PD-1 e ICOS, all of which known to deliver negative costimulatory signaling and to arrest cell cycle entry, were overexpressed in patients\' T-cells. In parallel, we performed additional experiments where the respective costimulatory signalings were blocked by addition of blocking antibodies specific to each of these molecules. Whatever the blocking antibody used, there was no reversal of the hypoproliferative state of patients\' T-cells. However, while the expression of the CD80 and CD86 molecules on monocytes was similar between controls and patients, their expression on T-cells was significantly higher in patients. Adding the respective blocking antibodies at day zero of the culture, we could observe that both the gp43 and the CMA responses were inhibited, but differentially according to the antibody employed. In both patients and controls the blocking CD86 signaling decreased the response to gp43 and CMA of patients and controls, while blocking of CD80 signaling decreased only the response to gp43, and only in the control group. These data suggest that different antigens may have different costimulatory requirements for antigen presentation. Addition of the antibodies at the ay 4 of culture did not restore the lymphoproliferative response or modified the response of the controls. Our results suggest that the hypothesis, raised from other models of prolonged foreign antigen exposure, that repetitive and persistent in vivo exposure to fungal antigens, which is described in patients with PCM, lead the T-cells to a adaptive tolerant state, which is hardly reverted in vitro. We then investigated the fate of such putatively tolerized patients\' cells, by analyzing the role that apoptosis may have in this tolerant state. We observed that expression of the antiapoptotic molecule Bcl-2 was lower in patients\' cells, even when the cells were in vitro reestimulated with CMA and gp43, suggesting that the cells are more susceptible to undergo apoptosis. When then analyzed the expression of the active form of the caspase 8 and 9 molecules. We first analyzed their expression on cells kept in cultures for 4 days with or without stimuli. Unexpectedly, we observed that controls\' cells, and not patients\' cells, exhibited higher levels of expression of both molecules. To explore further these data, we tested the hypothesis that the patients\' cells were already undergoing apoptosis at an earlier than 4 days stage. Caspases expression were therefore analyzed ex vivo. In fact, we observed that TCD3+ cells exhibited markedly enhanced caspase 8 and expression as compared to controls\' cells. These findings may help to explain why we failed to redress the proliferative responses to gp43 in the experiments where blocking antibodies were added: these cells would be committed to apoptotic death, thus refractory to in vitro manipulations, as described for adaptively tolerant T-cells. Paracoccidioides brasiliensis Expressão de caspase 8 e caspase 9 Moléculas anti-apoptóticas Moléculas co-stimulatórias Paracoccidioidomicose Tolerância adaptativa de células T Paracoccidioides brasiliensis Adaptively tolerant T-cell Antiapoptotic molecule Costimulatory molecules Expression of caspase 8 and caspase 9 Paracoccidioidomycosis
94	Changing the Pathobiological Paradigm in Myelodysplastic Syndromes: The NLRP3 Inflammasome Drives the MDS Phenotype Basiorka, Ashley 26 January 2017 (has links) Note: Portions of this abstract have been previously published in the journal Blood, Basiorka et al. Blood. 2016 Oct 13, and has been reproduced in this manuscript with permission from the publisher. Myelodysplastic syndromes (MDS) are genetically diverse hematopoietic stem cell malignancies that share a common phenotype of cytological dysplasia, ineffective hematopoiesis and aberrant myeloid lineage maturation. Apoptotic cell death potentiated by inflammatory cytokines has been considered a fundamental feature of MDS for over two decades. However, this non-inflammatory form of cell death cannot account for the inflammatory nature of these disorders. We report that a hallmark of lower-risk (LR) MDS is activation of the NLRP3 inflammasome, which drives clonal expansion and pyroptosis, a caspase-1-dependent programmed cell death induced by danger-associated molecular pattern (DAMP) signals. Independent of genotype, MDS hematopoietic stem and progenitor cells (HSPC) overexpress pyroptosis-related transcripts, inflammasome proteins and manifest activated NLRP3 inflammasome complexes that direct caspase-1 activation, IL-1β and IL-18 maturation and pyroptotic cell death. Using the S100A9 transgenic (S100A9Tg) mouse model that phenocopies human MDS, we demonstrated that forced expression of S100A9 was sufficient to drive pyroptosis in vivo, implicating pyroptosis as the principal mechanism of HSPC cell death in S100A9Tg mice. The lytic cell death releases intraceullar contents that include alarmins and catalytically active ASC specks, which can propagate bystander inflammation. Notably, MDS mesenchymal stromal cells (MSC) and stromal-derived linages were found to predominantly undergo pyroptosis, with marked activation of caspase-1 and NLRP3 inflammasome complexes. These findings may account for the clusters of both HSPC and stromal cell death previously described in the bone marrows of patients with MDS. Mechanistically, pyroptosis is triggered by the alarmin S100A9 that is found in excess in MDS HSPC and bone marrow (BM) plasma. Further, both somatic gene mutations and S100A9-induced signaling activate NADPH oxidase (NOX), generating reactive oxygen species (ROS) that initiate cation influx, cell swelling and β-catenin activation. Accordingly, ROS and active β-catenin were significantly increased in MDS BM mononuclear cells (BM-MNC) and S100A9Tg mice compared to normal controls, as well as in human cell lines harboring gene mutations and in murine models of gene mutation knock-in or gene loss. ROS and β-catenin nuclear translocation were significantly reduced by NLRP3 or NOX inhibition, indicating that S100A9 and somatic gene mutations prime cells to undergo NOX1/4-dependent NLRP3 inflammasome assembly, pyroptosis and β-catenin activation. Together, these data explain the concurrent proliferation and inflammatory cell death characteristic of LR-MDS. Given that loss of a gene-rich area in del(5q) disease results in derepression of innate immune signaling, we hypothesized that this genetic deficit would trigger assembly of the NLRP3 inflammasome complex, akin to the pathobiological mechanism characteristic of non-del(5q) MDS. To this end, we utilized two distinct murine models of del(5q) disease, namely in the context of Rps14 haploinsufficiency and concurrent loss of mDia1 and microRNA (miR)-146a. In both models, pyroptosis was not evident in the HSPC compartment; however, early erythroid progenitors displayed high fractions of pyroptotic cells. This was associated with significant increases in caspase-1 and NLRP3 inflammasome activation, ROS and nuclear localization of β-catenin, which was extinguished by inflammasome or NOX complex inhibition. These data suggest that early activation of the inflammasome drives cell death and prevents terminal maturation of erythroid precursors, accounting for the progressive anemia characteristic of del(5q) disease, whereby hematopoietic defects are primarily restricted to the erythroid compartment. Importantly, these data implicate a similar pathobiological mechanism in del(5q) MDS as is observed in non-del(5q) patients. The identification of the NLRP3 inflammasome as a pathobiological driver of the LR non-del(5q) and del(5q) MDS phenotype allows for novel therapeutic agent development. Notably, knockdown of NLRP3 or caspase-1, neutralization of S100A9, and pharmacologic inhibition of NLRP3 or NOX suppresses pyroptosis, ROS generation and nuclear β-catenin in MDS, and are sufficient to restore effective hematopoiesis. In del(5q) murine models, inhibition of the NLRP3 inflammasome significantly improved erythroid colony forming capacity by a mechanism distinct from that of lenalidomide, highlighting the translational potential for targeting this innate immune complex in this subset of MDS. Thus, alarmins and founder gene mutations in MDS license a common redox-sensitive inflammasome circuit, which suggests new avenues for therapeutic intervention. Furthermore, aggregated clusters of the NLRP3 adaptor protein ASC [apoptosis-associated speck-like protein containing a caspase activation and recruitment domain (CARD)] are referred to as ASC specks. During pyroptosis, ASC specks are released from dying cells and function as DAMP signals that propagate inflammation. In this way, specks are a surrogate marker for NLRP3 inflammasome activation and pyroptotic cell death. Given that pyroptosis is the predominant mechanism of cell death in MDS and ASC specks are readily quantified by flow cytometry, we hypothesized that BM or peripheral blood (PB) plasma-derived ASC specks may be a biologically rational biomarker for the diagnosis of MDS. The percentage of ASC specks were significantly increased in MDS BM plasma compared to normal, healthy donors, which was validated by confocal microscopy. PB plasma-derived ASC specks were significantly greater in LR- versus HR-MDS, consistent with the greater extent of cell death and myeloid-derived suppressor cell (MDSC) expansion in LR disease. As hyperglycemia induces NLRP3 inflammasome activation, plasma glucose levels were measured to adjust for this confounding variable. Subsequently, the percentage of glucose-adjusted, PB plasma-derived ASC specks was measured in a panel of specimens of varied hematologic malignancies. The corrected percentage of ASC specks was significantly increased in MDS compared to normal donors and to each other malignancy investigated, including other myeloid and lymphoid leukemias, myeloproliferative neoplasms and overlap syndromes, like chronic myelomonocytic leukemia (CMML). These data indicate that the glucose-adjusted ASC speck percentage is MDS-specific and may be a valuable diagnostic biomarker. At a cutoff of 0.039, the biomarker minimizes misclassification error and achieves 95% sensitivity and 82% specificity in classifying MDS from normal donors, other hematologic malignancies and T2D. Lastly, the biomarker declined with treatment response to lenalidomide in LR-MDS patients, but not to erythropoietin stimulating agent (ESA) or hypomethylating agent (HMA) therapy. As such, the percentage of ASC specks represents the first biologically rational, diagnostic biomarker for MDS that can be implemented with current diagnostic practices to reduce diagnostic error. pyroptosis caspase-1 S100A9 NADPH oxidase β-catenin Molecular Biology
95	Cannabinoid (CB2) Receptor Deficiency Reduces the Susceptibility of Macrophages to Oxidized LDL/Oxysterol-Induced Apoptosis Freeman-Anderson, Natalie, Pickle, Theresa G., Netherland, Courtney D., Bales, Alicia, Buckley, Nancy E., Thewke, Douglas P. 01 December 2008 (has links) Macrophage apoptosis is an important process in the pathophysiology of atherosclerosis. Oxidized low-density lipoproteins (OxLDL) are a major component of lesions and potently induce macrophage apoptosis. Cannabinoid receptor 2 (CB2), the predominant macrophage cannabinoid receptor, modulates several macrophage processes associated with ongoing atherosclerosis; however, the role of CB2 in macrophage apoptosis is unknown. To determine if CB2 influences a macrophage apoptotic pathway relevant to atherosclerosis, we examined the effect of CB2 deficiency on OxLDL-induced macrophage apoptosis. In situ terminal transferase-mediated dUTP nick end labeling (TUNEL) analysis of resident peritoneal macrophages detected significantly fewer apoptotic CB2-/- macrophages than CB2+/+ macrophages after incubation with OxLDL (27.9 ± 4.7% vs. 61.9 ± 8.5%, P < 0.001) or 7-ketocholesterol (7KC) (18.9 ± 10.5% vs. 54.1 ± 6.9%, P < 0.001), an oxysterol component of OxLDL. Caspase-3 activity; proteolytic conversion of procaspase-3; and cleavage of a caspase-3 substrate, PARP, were also diminished in 7KC-treated CB2-/-macrophages. Furthermore, the deactivation of the prosurvival kinase, Akt, in response to 7KC was impaired in CB2-/-macrophages. These results suggest that CB2 expression increases the susceptibility of macrophages to OxLDL-induced apoptosis, in part, by modulating the effect of oxysterols on the Akt survival pathway and that CB2 may influence atherosclerosis by modulating lesional macrophage apoptosis. 7-ketocholesterol Akt atherosclerosis caspase-3 Biomedical Sciences
96	Inhibition of Connexin43 Improves Functional Recovery After Ischemic Brain Injury in Neonatal Rats Li, Xiaojing, Zhao, Heqing, Tan, Xianxing, Kostrzewa, Richard M., Du, Gang, Chen, Yuanyuan, Zhu, Jiangtao, Miao, Zhigang, Yu, Hailong, Kong, Jiming, Xu, Xingshun 01 September 2015 (has links) Connexin43 (Cx43) is one of the most abundant gap junction proteins in the central nervous system. Abnormal opening of Cx43 hemichannels after ischemic insults causes apoptotic cell death. In this study, we found persistently increased expression of Cx43 8 h to 7 d after hypoxia/ischemia (HI) injury in neonatal rats. Pre-treatment with Gap26 and Gap27, two Cx43 mimetic peptides, significantly reduced cerebral infarct volume. Gap26 treatment at 24 h after ischemia improved functional recovery on muscle strength, motor coordination, and spatial memory abilities. Further, Gap26 inhibited Cx43 expression and reduced active astrogliosis. Gap26 interacted and co-localized with Cx43 together in brain tissues and cultured astrocytes. After oxygen glucose deprivation, Gap26 treatment reduced the total Cx43 level in cultured astrocytes; but Cx43 level in the plasma membrane was increased. Degradation of Cx43 in the cytoplasm was mainly via the ubiquitin proteasome pathway. Concurrently, phosphorylated Akt, which phosphorylates Cx43 on Serine373 and facilitates the forward transport of Cx43 to the plasma membrane, was increased by Gap26 treatment. Microdialysis showed that increased membranous Cx43 causes glutamate release by opening Cx43 hemichannels. Extracellular glutamate concentration was significantly decreased by Gap26 treatment in vivo. Finally, we found that cleaved caspase-3, an apoptosis marker, was attenuated after HI injury by Gap26 treatment. Effects of Gap27 were analogous to those of Gap26. In summary, our findings demonstrate that modulation of Cx43 expression and astroglial function is a potential therapeutic strategy for ischemic brain injury. astrocyte caspase-3 connexin43 glutamate ischemic brain injury Biomedical Sciences
97	Expression of the Cytoplasmic Domain of β1 Integrin Induces Apoptosis in Adult Rat Ventricular Myocytes (ARVM) via the Involvement of Caspase-8 and Mitochondrial Death Pathway Menon, Bindu, Krishnamurthy, Prasanna, Kaverina, Ekaterina, Johnson, Jennifer N., Ross, Robert S., Singh, Mahipal, Singh, Krishna 01 November 2006 (has links) Stimulation of β-adrenergic receptor (β-AR) induces cardiac myocyte apoptosis. Integrins, a family of cell-surface receptors, play an important role in the regulation of cardiac myocyte apoptosis and ventricular remodeling. Cleavage of extracellular domain of β1 integrin, also called integrin shedding, is observed during cardiac hypertrophy and progression to early heart failure. Here we show that stimulation of β-AR induces β1 integrin fragmentation in mouse heart. To examine the role of intracellular domain of β1 integrin in cardiac myocyte apoptosis, a chimeric receptor consisting of the cytoplasmic tail domain of β1A integrin and the extracellular/transmembrane domain of the interleukin-2 receptor (TAC-β1) was expressed in adult rat ventricular myocytes (ARVM) using adenoviruses. TAC-β1 increased the percentage of apoptotic ARVM as measured by TUNEL-staining assay. TAC-β1-induced apoptosis was found to be associated with increased cytosolic cytochrome c and decreased mitochondrial membrane potential. TAC-β1 increased caspase-8 activity. Z-IETD-FMK, a specific caspase-8 inhibitor, significantly inhibited TAC-β1-induced apoptosis. TAC-β1 expression also increased cleavage of Bid, a pro-apoptotic Bcl-2 family protein. These data suggest that shedding of β1 integrin may be a mechanism of induction of apoptosis during β-AR-stimulated cardiac remodeling. β-adrenergic receptors apoptosis Caspase-8 integrins Biomedical Sciences
98	In Vitro Simulation of Microgravity Induced Muscle Loss Successfully Increases Expression of Key In Vivo Atrophy Markers Harding, Charles P. 01 May 2019 (has links) Muscle loss from lack of activity is a serious issue for immobilized patients on Earth and in human spaceflight, where the low gravity environment prevents normal muscle activity. Simulating muscle loss in cultured cells is an important step in understanding how this condition occurs. This work evaluates different means of simulating muscle loss and selects the one that most closely mimics the cellular responses seen in animals and humans. To simulate the microgravity environment of spaceflight, mouse skeletal muscle cells were grown in a rotary cell culture system (RCCS). Growing the cells within a natural gelled substrate was compared against growing them on the surface of small plastic beads. Changes after culture under simulated microgravity were characterized by assessing proteins and genes known to change during muscle loss. The structure of the cells was also evaluated by microscopy. The mouse skeletal muscle cells grown on plastic beads in the RCCS had significant changes in multiple key genes associated with muscle loss and demonstrated physical characteristics expected of mature tissue in live animals. This model is a valuable platform for exploring muscle loss mechanisms and testing new drugs. MuRF1 MAFbx Caspase 3 C2C12 RCCS Biological Engineering
99	Bnip3 Mediates Doxorubicin-Induced Cardiomyocyte Pyroptosis via Caspase-3/GSDME Zheng, Xinbin, Zhong, Ting, Ma, Yeshuo, Wan, Xiaoya, Qin, Anna, Yao, Bifeng, Zou, Huajiao, Song, Yan, Yin, Deling 01 February 2020 (has links) Aims: This study was aimed to investigate the role of GSDME-mediated pyroptosis in cardiac injury induced by Doxorubicin (DOX), and to evaluate the role of BH3-only protein Bcl-2/adenovirus E1B 19-kDa-interacting protein 3 (Bnip3) in regulation of DOX-induced pyroptosis. Main methods: HL-1 cardiomyocytes and C57BL/6J mice were treated by DOX to establish DOX-induced cardiotoxicity in vitro and in vivo models, respectively. Cell transfection was applied to regulate the expression of caspase-3, GSDME and Bnip3. Western blot was used for measuring expression of protein level. LDH-cytotoxicity assay was used to detect the LDH release. The Flow cytometry analysis was used to detect the cell death. Echocardiography was used to determine the cardiac function. HE staining was used for observing pathological feature of heart tissues. Key findings: Our results showed that GSDME-mediated pyroptosis was involved in DOX-induced cardiotoxicity in vivo. We showed that HL-1 cardiomyocytes exposed to DOX exhibited morphological features of pyroptosis in vitro. We also showed that DOX induced activation of caspase-3 and eventually triggered GSDME-dependent pyroptosis, which was reduced by the silence or inhibitor of caspase-3. We further showed that knockdown of GSDME inhibited DOX-induced cardiomyocyte pyroptosis in vitro. Finally, DOX increased the expression of Bnip3, whereas silencing of Bnip3 blunted cardiomyocyte pyroptosis induced by DOX, which was regulated through caspase-3 activation and GSDME cleavage. Significance: Our findings revealed a novel pathway that cardiomyocyte pyroptosis is regulated through Bnip3-caspase-3-GSDME pathway following DOX treatment, suggesting that Bnip3-dependent pyroptosis may offer a novel therapeutic strategy to reduce cardiotoxicity induced by DOX. BNIP3 caspase-3 doxorubicin GSDME pyroptosis Internal Medicine
100	The effect of resveratrol on ultraviolet light-induced skin cell death Grady, George 27 April 2013 (has links) No description available. Biochemistry resveratrol melanoma UVB irradiation PARP Caspase-8

Search results