Une approche afin de produire les différentes conformations de caspase-7 tout en contrôlant l'induction de l'apoptose

Tremblay, Alexandre

January 2011

Caspase-7 is a member of a family of cysteine proteases that includes apoptotic initiators (caspases-8, -9 and -10) and executors (caspases-3, -6 and -7). During apoptosis, executioner caspases are cleaved by initiator caspases either by the extrinsic (death receptors) or by the intrinsic (mitochondrial) pathway of caspase activation. Caspase-7 is an obligate dimer in the cell and cleavage of the interdomain connector (IDC), which split the catalytic domain in two subunits, at either site 1 or site 2 allows the conversion of the enzyme from the zymogen (inactive) state to the active state through a conformation switch that leads to the creation of a substrate binding pocket and the catalytic site. During caspase-7 activation, a 23-residue N-terminal peptide is also cleaved. Consequently, caspase-7 displays different N-terminal residues from those of its zymogen. This can change the stability of caspase-7 according to the N-end rule, which relates the half-life of a protein with the residue presented at its N-terminus. This degradation pathway controls the ubiquitination of the protein based on the N-terminus. To replicate the different forms of caspase-7 produced during its activation process in a controlled manner, a TEV protease cleavage site [ENLYFQ[arrow down](S/A)] was strategically inserted to mimic the different possibilities of IDC cleavage: 1) cleavage at site 1 only, 2) cleavage at site 2 only, or 3) a double cleavage. This was done in order to obtain the N-terminal residues normally presented during the cleavage of caspase-7. These constructions have been also optimized to preserve the proteolytic activity of the enzyme with as little change as possible to the length of the IDC. These constructs were cleaved by TEV protease in vitro and in cellulo and allowed the activation of apoptosis. Furthermore, the cellular half-life of caspase-7 seems to be changed by its cleavage. In conclusion, we have developed an interesting tool for the study of caspase-7.

Protéase TEV

Protéasome

N-end rule

Caspase

Apoptose

Metabolic Control of CaMKII-mediated Caspase-2 Suppression by B55β/PP2A

Huang, Bofu

January 2015

<p>Apoptosis is a programmed form of cell death, essential for maintaining tissue homeostasis and eliminating dysfunctional cells. The process of apoptosis is executed by a family of cysteine proteases called caspases. High levels of metabolic activity confer resistance to apoptosis. Caspase-2, an apoptotic initiator, can be suppressed by high levels of nutrient flux through the pentose phosphate pathway (PPP). This metabolic suppression of caspase-2 is exerted via the inhibitory phosphorylation of S135 on the caspase-2 prodomain by activated Ca2+/Calmodulin-dependent protein kinase II (CaMKII). However, it was unclear how CaMKII activity is regulated by nutrient flux.</p><p>After investigating how nutrient flux leads to activation of CaMKII, a recent study reported that coenzyme A (CoA) can directly bind to and activate CaMKII. However, by performing mass spectrometry (MS) analysis of CaMKII, and other biochemical assays, including gel filtration assays, immuno-precipitation assays, immuno-depletion assays, and in vitro kinase assays, in the Xenopus egg extract system, our studies show that the complete nutrient-driven CaMKII activation requires the additional release of a "brake" through the dephosphorylation of CaMKII at novel sites (T393/S395). Furthermore, this metabolically-stimulated dephosphorylation of CaMKII is mediated by the metabolic activation of protein phosphatase 2A (PP2A) in complex with the B55&#946; targeting subunit. Importantly, our findings have been successfully replicated in human 293T cells, including the metabolic activation of CaMKII, and also the suppression of this activation by B55&#946; knockdown.</p><p>Our discovery represents a novel locus of CaMKII regulation and also provides a mechanism contributing to metabolic control of apoptosis. These findings may have implications for metabolic control of the many CaMKII-controlled and PP2A-regulated physiological processes, as both enzymes appear to be responsive to alterations in glucose metabolized via the PPP. Finally, our study reveals B55&#946; as a potential target for cancer therapy, because of its importance in suppressing metabolic suppression of caspase-2 activation and apoptosis.</p> / Dissertation

Biology

Biochemistry

CaMKII

caspase-2

metabolism

phosphatase

phosphorylation

iPLA2β, ALTERNATIVE SPLICING AND APOPTOSIS OF PANCREATIC ISLETS

Emani, Bhargavi

01 January 2010

Ceramides are bioactive lipids that can promote splicing of apoptosis-related genes, including caspase 9 and BCL-x. A recent study demonstrated that expression of neutral sphingomyelinase (NSMase), an enzyme that hydrolyzes sphingomyelins to generate ceramide, is regulated by Group VIA phospholipase A2 (iPLA2β)-dependent mechanism during β-cell apoptosis. This prompted us to hypothesize that iPLA2 is upstream of ceramide generation in the process regulating splicing of apoptotic genes. To test this, Jurkat T cells were treated with the selective inhibitor of iPLA2β, bromoenol lactone (BEL), RNA was isolated and converted to cDNA, and caspase 9 and BCL-x mRNA viii species were amplified using RT-PCR. Inhibition of iPLA2β activity with BEL caused a significant shift in splicing favoring variants encoding the anti-apoptotic forms of caspase 9 (caspase 9b) and BCL-x (BCL-x(L)). This shift was consistent with previously reported effects of ceramide and suggested that iPLA2β regulates splicing of these pre-mRNAs. We next determined whether iPLA2β regulates splicing events during a biological response. Caspase-9 and BCL-x splice variants were compared in human and mouse islets, mouse islet cell lines, and in rat insulinoma (INS1) cells. INS-1 insulinoma cells were treated with thapsigargin to induce ER stress, which can eventually lead to apoptosis. Thapsigarin-treated INS-1 cells exhibited an increase in the ratio of BCL-x(s) (pro-apoptotic) to BCL-x(L) (anti-apoptotic) but BEL prevented this shift in splicing. Splicing data obtained from genetically modified rodent mice (iPLA2β knockouts and transgenics) also demonstrated the involvement of iPLA2β in alternative splicing. Together, these observations indicate that iPLA2β plays an important role in the regulation of pre-mRNA splicing of key apoptotic factors. Our findings therefore suggest a novel role for iPLA2β in determining whether cells survive or undergo apoptosis.

caspase 9

BCLx

ceramide

Life Sciences

The Regulation of the Alternative Splicing of Caspase 9

Goehe, Rachel

24 September 2010

The pro-apoptotic, caspase 9a, and the anti-apoptotic, caspase 9b, are derived from the caspase 9 gene by alternative splicing. This study demonstrates that the alternative splicing of caspase 9 is dysregulated in a large percentage of non-small cell lung cancer (NSCLC) tumors of the adenocarcinoma type. Furthermore, modulation of the levels of splice variants of caspase 9 had dramatic effects on the anchorage-independent growth and tumorigenic capacity of NSCLC cells. Due to these findings, the molecular mechanisms regulating the post-transcriptional processing of caspase 9 were therefore examined and an exonic splicing silencer (ESS) regulating the pre-mRNA processing of caspase 9 was identified. To study the possible RNA trans-factors interacting with this RNA sequence, we utilized an electromobility shift assay (EMSA) coupled with competitor studies and demonstrated three specific protein:RNA complexes for this ESS. Affinity purification and mass spectrometry analysis identified hnRNP L as part of these protein:RNA complexes. Downregulation of hnRNP L induced a significant increase in caspase 9a/caspase 9b mRNA ratio, which translated to the protein level. Expression of hnRNP L verified the siRNA specificity lowering the caspase 9a/9b ratio, but expression of hnRNP L produced the contrasting effect in non-transformed cells suggesting a post-translational modification specific for NSCLC cells. Indeed, the phospho-status of hnRNP L was significantly increased in NSCLC cells, and mutagenesis studies identified Ser52 as a critical residue regulating the ability of hnRNP L to repress the inclusion of the exon 3,4,5,6 cassette into the mature caspase 9 mRNA. The biological relevance of this mechanism was demonstrated by stable downregulation of hnRNP L in NSCLC cells, which induced a complete loss of both anchorage-independent growth and tumorigenic capacity. This effect of hnRNP L downregulation was due to distal modulation of the alternative splicing of caspase 9 as the loss of both phenotypes was “rescued” by ectopic expression of caspase 9b. Therefore, this study identifies cancer-specific mechanism of hnRNP L phosphorylation and subsequent lowering of the caspase 9a/9b ratio, which is required for the tumorigenic capacity of NSCLC cells.

caspase 9

hnRNP L

Life Sciences

The Inflammasome in Acute Myocarditis

Kannan, Harsha

25 April 2013

Acute myocarditis is an acute inflammatory syndrome characterized by myocardial damage and dysfunction often due to a viral infection followed by a variable development over time. There are currently no specific treatments and standard treatments for heart failure are generally applied. The inflammasome is a recently identified macromolecular structure that occupies a central role in the amplification of the inflammatory response and promotion of cell death during acute and chronic infections. We hypothesized the formation of the inflammasome in acute myocarditis. To investigate, samples of patients were collected from the Cardiomyopathy Registry in Trieste, with 12 cases of biopsy-proven myocarditis and 11 cases of autopsy-proven myocarditis stained for major components of the inflammasome through immunofluorescence; 10 of the 12 (83.3%) biopsy cases and 8 of the 11 (72.7%) autopsy cases presented formation of the inflammasome in a variety of cells including resident cells (i.e. cardiomyocytes, endothelial cells, fibroblasts) and infiltrating cells (i.e. leukocytes) while varying in intensity and distribution. Control samples of 5 subjects not presenting with any acute cardiac events showed no formation of the inflammasome. While further studies should look to elucidate the correlation of inflammasome-formation and progression of disease, this finding paves the way for further insight into the pathophysiology of acute myocarditis.

Inflammasome

Myocarditis

ASC

Caspase-1

Life Sciences

Physiology

Úloha buněk přirozené imunity v patogenezi celiakie / The role of innate immunity cells in the pathogenesis of celiac disease

Dáňová, Klára

January 2012

Celiac disease is an autoimmune disease which occurs in susceptible individuals after ingestion of food containing gluten. Gluten and its monomeric fraction gliadin induce inflammatory damage of the small intestine by activating the immune cells that react strongly to gluten peptides. Gluten peptides have the ability to activate cells of adaptive as well as innate immune system. This work is focused on the production of interleukin (IL)-1 in antigen presenting cells stimulated with peptic gliadin digest. We found that monocytes and peripheral blood mononuclear cells (PBMC) isolated from blood of celiac patients secrete significantly more IL-1α and IL-1β than cells of healthy donors after stimulation with gliadin digest. The gliadin-induced IL-1β expression is controlled by a signaling cascade that includes MAPK kinase family molecules and transcription factor NF-κB. Moreover, we found that the adaptor proteins MyD88 and TRIF as well as Toll-like receptor (TLR) 2 and 4 play a role in the signaling cascade underlying gliadin-induced IL-1β expression by using murine bone marrow derived dendritic cells (BMDC). The precursor form of IL-1β in gliadin- stimulated PBMC and murine BMDC is maturated by caspase-1. In celiac PBMC the gliadin- induced maturation and secretion of IL-1β depends on the potassium...

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.

Cacere, Camila Rodrigues

05 May 2008

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

Paracoccidioides brasiliensis

Adaptively tolerant T-cell

Antiapoptotic molecule

Costimulatory molecules

Expressão de caspase 8 e caspase 9

Expression of caspase 8 and caspase 9

Moléculas anti-apoptóticas

Moléculas co-stimulatórias

Paracoccidioidomicose

Paracoccidioidomycosis

Tolerância adaptativa de células T

Avaliação in vitro do potencial biológico de Myrciaria plinioides (D. Legrand) em células tumorais

Leipelt, Juliano

04 1900

Submitted by FERNANDA DA SILVA VON PORSTER (fdsvporster@univates.br) on 2016-09-22T19:02:03Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) 2016JulianoLeipelt.pdf: 2508061 bytes, checksum: 100e43c73eddacc8441a11de473e260c (MD5) / Approved for entry into archive by Ana Paula Lisboa Monteiro (monteiro@univates.br) on 2016-09-29T19:20:07Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) 2016JulianoLeipelt.pdf: 2508061 bytes, checksum: 100e43c73eddacc8441a11de473e260c (MD5) / Made available in DSpace on 2016-09-29T19:20:08Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) 2016JulianoLeipelt.pdf: 2508061 bytes, checksum: 100e43c73eddacc8441a11de473e260c (MD5) Previous issue date: 2016-09 / O câncer é apontado como a segunda maior causa de morte em todo o mundo, com previsão de em breve ser tornar a primeira. O câncer de próstata está entre os 5 tipos de câncer mais diagnosticados em homens, sendo que o câncer hepático está em segundo lugar em taxa de mortalidade entre homens e mulheres. Indícios apontam para uma ativação das vias da inflamação associados a uma inibição das vias de morte celular no processo de carcinogênese. A regulação destas vias torna-se alvo importante e complementar no controle do câncer, sendo estimulada a busca de biomoléculas com este potencial. As plantas são importante fonte de descoberta de novas biomoléculas com ampla utilização para o tratamento de diversas patologias. A família Myrtaceae possui diversas espécies que são apontadas como fortes candidatos em potencial nesta busca, incluindo as do gênero Myrciaria. A espécie Myrciaria plinioides não possui estudos referentes suas propriedades terapêuticas ou a atuação em vias de sinalização envolvidas na inflamação ou na carcinogênese. Neste contexto, este estudo teve por objetivo avaliar a atividade do extrato etanólico de M. plinioides em células de carcinoma hepatocelular (HepG2) e próstata (LNCaP) , através da análise de expressão dos marcadores p38-α, pp38-α, NF-κB e caspase-3, envolvidos na carcinogênese, e o efeito sobre a viabilidade celular através do método de MTT. A viabilidade das células foi alterada significativamente, em ambas as linhagens celulares quando tratadas com o extrato etanólico. A análise da expressão proteica demonstra significativa inibição da expressão de p38-α e caspase-3 nas células LNCaP, quando tratadas com extrato etanólico de M. plinioides seguido de LPS. Em células HepG2, somente houve alteração na expressão da caspase-3 na concentração de 200 μg/mL, com ou sem adição de LPS após tratamento com extrato. Os resultados deste estudo demonstraram redução da viabilidade celular nas duas linhagens tumorais, expressão diferenciada de proteínas envolvidas em apoptose, o que leva a indícios da ativação de mecanismos distintos pelo extrato em cada tipo celular. Estudos futuros para averiguar o mecanismo celular e a indução de morte em células tumorais de câncer de próstata e de fígado podem contribuir para a identificação e elucidação de novas biomoléculas com potencial antitumoral. / Cancer is touted as the second leading cause of death worldwide, forecast to soon be making the first. Prostate cancer is among the five most cancers diagnosed in men, and liver cancer is second in mortality between men and women. Evidence points to the activation of pathways of inflammation associated with an inhibition of cell death pathways in carcinogenesis. The regulation of these pathways becomes important and complementary target in cancer control, and stimulated the search for biomolecules with this potential. The plants are important source of discovery of new biomolecules with wide use for the treatment of various diseases. The Myrtaceae family has many species that are identified as potential candidates strong in this search, including the Myrciaria genre. The species Myrciaria plinioides not have studies on its therapeutic properties or performance in signaling pathways involved in inflammation or carcinogenesis. In this context, this study aimed to evaluate the activity of the ethanol extract of M. plinioides in hepatocellular carcinoma cells (HepG2) and prostate (LNCaP) by expression analysis of p38-α markers, PP38-α, NF-kB and caspase-3, involved in carcinogenesis, and the effect on cell viability by the MTT method. The viability of cells was significantly altered in both cell lines when treated with ethanolic extract. Protein expression analysis demonstrates significant inhibition of p38-α expression and caspase-3 in LNCaP cells, when treated with ethanolic extract of M. plinioides followed by LPS. In HepG2 cells there was only a change in the expression of caspase-3 at a concentration of 200 / ml, with or without addition of LPS after treatment with extract. The results showed reduction of cell viability in both tumor lines, differential expression of proteins involved in apoptosis, leading to evidence of activation by distinct mechanisms in each extract cell type. Further studies to investigate the cellular mechanism, and induction of death in tumor cells of prostate and liver cancer may contribute to the identification and elucidation of new biomolecules with antitumor potential.

LNCaP

HepG2

p38α

pp38α

NF-Kb

Caspase-3

REGULATION OF CASPASE-3 ACTIVATION BY PHOSPHORYALTED Ab-CRYSTALLIN AND ITS ROLE IN DIFFERENTIATION

Unknown Date

The lens is responsible for focusing light into the retina. It accomplishes this through its maturation from an epithelial cell into a fiber cell. A large amount of research has been done on cellular differentiation. Nevertheless, we still lack knowledge on many different aspects of differentiation, including a complete theory on the mechanism behind differentiation. Due to the lens’ unique structure and cell types, this is an ideal model for studying differentiation. Our research has shown that αB crystallin, a small heat shock protein, is able to modulate cytochrome C levels and protect the mitochondria under oxidative stress. Also, cytochrome C release is often followed by caspase 3 activation. In addition, research has shown that low levels of caspase 3 activation is essential in driving differentiation. My work examined if αB crystallin could modulate cytochrome C to lower caspase 3 levels to allow for differentiation rather than apoptosis. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2019. / FAU Electronic Theses and Dissertations Collection

Caspase 3

Cell differentiation

Crystallins

Phosphorylation

Cytochromes C

Regulation of NLRP3 inflammasome activation by mitochondria

Elliott, Eric Isaac

01 May 2018

Pattern recognition receptors coordinate innate immune responses by sensing infection or injury. Nucleotide-binding, leucine rich repeat, and pyrin domain-containing protein 3 (NLRP3) is a cytosolic PRR which perceives diverse pathogenic and sterile insults. NLRP3 orchestrates inflammatory signaling responses by forming inflammasomes with the adaptor protein apoptosis-associated speck like protein with a caspase recruitment domain (ASC) and the cysteine protease caspase-1. Assembly of the intracellular macromolecular inflammasome complex culminates in proximity-induced autocatalysis of caspase-1. Caspase-1 activation promotes cell death by pyroptosis and activation and secretion of proinflammatory cytokines interleukin (IL)-1β and IL-18. While NLRP3-mediated inflammation protects against bacterial, fungal, viral, and parasitic infections, aberrant NLRP3 activation is implicated in numerous inflammatory diseases and heritable syndromes. Mechanistically, inflammasome activation requires a preliminary NF-κB-activating priming step (signal 1) and a subsequent NLRP3-specific stimulus (signal 2). While there is enormous molecular diversity among NLRP3-specific agonists, this second signal appears to engage a common pathway involving cation flux. Furthermore, NLRP3 associates with mitochondria and mitochondrial damage is implicated in NLRP3 activation, although the precise role for mitochondria in inflammasome assembly remains controversial. We previously demonstrated that the mitochondrial phospholipid cardiolipin binds to NLRP3 and is critical for NLRP3 inflammasome activation. Here, we further investigated how mitochondria contribute to NLRP3 activation. We found that liposomes containing molar concentrations of cardiolipin that resemble mitochondrial cardiolipin levels can induce NLRP3-dependent caspase-1 autoactivation. Unexpectedly, we discovered that caspase-1 binds directly to cardiolipin, causing inflammasome-independent caspase-1 complex formation and autocatalysis at higher cardiolipin densities. Finding that caspase-1 and NLRP3 are independently capable of binding to cardiolipin, we more thoroughly examined the association of inflammasome components with mitochondria. Normally confined within mitochondrial inner membranes, cardiolipin relocates to outer membranes of stressed mitochondria. We found that reactive oxygen species (ROS) produced in response to signal 1 facilitate cardiolipin externalization to the outer membrane during priming. We also determined that this coincides with ROS-dependent recruitment of NLRP3 and caspase-1 to the outer membrane of mitochondria at priming. In contrast, we found that NLRP3 activation by the signal 2 agonist nigericin induces calcium-dependent recruitment of the adaptor ASC to mitochondria and caspase-1 activation. Finally, to determine what type of mitochondrial damage was necessary to promote NLRP3 inflammasome activation, we examined how different NLRP3 agonists affect mitochondria. We found substantial variability in the extent of mitochondrial damage induced among different NLRP3 agonists. Collectively, our findings illustrate that mitochondria serve as innate immune signaling platforms through multiple stages of NLRP3 inflammasome activation. Further, paralleling lipid A interactions with caspase-11, we have demonstrated that caspase-1 is capable of binding to the phospholipid cardiolipin.

Cardiolipin

Caspase-1

Inflammasome

Mitochondria

NLRP3

SMOC

Cell Biology