The Design, Synthesis and Biological Assay of Cysteine Protease Specific Inhibitors

Mehrtens (nee Nikkel), Janna Marie

January 2007

This thesis investigates the design, synthesis and biological assay of cysteine protease inhibitors within the papain superfamily of cysteine proteases. This is achieved by examining the effect of inhibitor design, especially warheads, on IC₅₀ values and structureactivity relationships between cysteine protease inhibitors of the papain superfamily. The representative proteases used are m-calpain, μ-calpain, cathepsin B and papain. Chapter One is an introductory chapter; Chapters Two-Four describe the design and synthesis of cysteine protease inhibitors; Chapter Five discusses assay protocol; and Chapter Six contains the assay results and structure-activity relationships of the synthesised inhibitors. Chapter One introduces cysteine proteases of the papain family and examines the structure, physiology and role in disease of papain, cathepsin B, m-calpain and μ-calpain. The close structural homology that exists between these members of the papain superfamily is identified, as well characteristics unique to each protease. Covalent reversible, covalent irreversible and non-covalent warheads are defined. The generic inhibitor scaffold of address region, recognition and warhead, upon which the inhibitors synthesised in this thesis are based, is also introduced. Chapter Two introduces reversible cysteine protease inhibitors found in the literature and that little is known about the effect of inhibitor warhead on selectivity within the papain superfamily. Oxidation of the dipeptidyl alcohols 2.6, 2.26, 2.29, 2.30, 2.35 and 2.36 utilising the sulfur trioxide-pyridine complex gave the aldehydes 2.3, 2.27, 2.19, 2.2, 2.21 and 2.22. Semicarbazones 2.37-2.40 were synthesised by a condensation reaction between the alcohol 2.3 and four available semicarbazides. The amidoximes 2.48 and 2.49 separately underwent thermal intramolecular cyclodehydration to give the 3-methyl-1,2,4- oxadiazoles 2.41 and 2.50. The aldehydes 2.3 and 2.27 were reacted with potassium cyanide to give the cyanohydrins 2.51 and 2.52. The cyanohydrins 2.51 and 2.52 were separately reacted to give 1) the α-ketotetrazoles 2.43 and 2.55; 2) the α-ketooxazolines 2.42 and 2.58; 3) the esterified cyanohydrins 2.60 and 2.61. A two step SN2 displacement reaction of the alcohol 2.6 to give the azide 2.62, an example of a non-covalent cysteine protease inhibitor. Chapter Three introduces inhibitors with irreversible warheads. The well-known examples of epoxysuccinic acids 3.1 and 3.5 are discussed in detail, highlighting the lack of irreversible cysteine protease specific inhibitors. The aldehydes 2.3 and 2.27 were reacted under Wittig conditions to give the α,β-unsaturated carbonyls 3.14-3.18. Horner- Emmons-Wadsworth methodology was utilised for the synthesis of the vinyl sulfones 3.20- 3.23. The dipeptidyl acids 2.24 and 2.28 were separately reacted with diazomethane to give the diazoketones 3.25 and 3.26. The diazoketones 3.25 and 3.26 were separately reacted with hydrogen bromide in acetic acid (33%) to give the α-bromomethyl ketones 3.27 and 3.28, which were subsequently reduced to give the α-bromomethyl alcohols 3.29-3.32. Under basic conditions the α-bromomethyl alcohols 3.29-3.32 ring-closed to form the peptidyl epoxides 3.33-3.36. Chapter Four introduces the disadvantages of peptide-based inhibitors. A discussion is given on the benefits of constraining inhibitors into the extended bioactive conformation known as a β-strand. Ring closing metathesis is utilised in the synthesis of the macrocyclic aldehyde 4.4, macrocyclic semicarbazone 4.15, the macrocyclic cyanohydrin 4.16, the macrocyclic α-ketotetrazole 4.18 and the macrocyclic azide 4.19. Chapter Five introduces enzyme inhibition studies. The BODIPY-casein fluorogenic assay used for establishing inhibitor potency against m-calpain and μ-calpain is validated. Assay protocols are also established and validated for cathepsin B, papain, pepsin and α- chymotrypsin. A discussion of the effect of solvent on enzyme activity is also included as part of this study. Chapter Six presents the assay results for all the inhibitors synthesised throughout this thesis and an extensive structure-activity relationship study between inhibitors is included. The alcohols 2.26 and 2.30 are unprecedented examples of non-covalent, potent, cathepsin B inhibitors (IC₅₀ = 0.075 μM selectivity 80-fold and 1.1 μM, selectivity 18-fold). The macrocyclic semicarbazone 4.15 is an unprecedented example of a potent macrocyclic cysteine protease inhibitor (m-calpain: IC₅₀ = 0.16 μM, selectivity 8-fold). The cyanohydrin 2.51 contains an unprecedented cysteine protease warhead and is a potent and selective inhibitor of papain (IC₅₀ = 0.030 μM, selectivity 3-fold). The O-protected cyanohydrin 2.61 is a potent and selective inhibitor of pepsin (IC₅₀ = 1.6 μM, selectivity 1.5-fold). The top ten warheads for potent, selective cathepsin B inhibition are: carboxylic acid, methyl ester, diazoketone, esterified cyanohydrin, α-bromomethyl ketone, α,β- unsaturated aldehyde, vinyl sulfones, α-bromomethyl-C₃-S,R-alcohol, alcohol and α,β- unsaturated ethyl ester. The selectivity of these warheads was between 5- and 130-fold for cathepsin B. The best inhibitors for cathepsin B were the α-bromomethyl ketone 3.26 (IC₅₀ = 0.075 μM, selectivity 16-fold), the α,β-unsaturated aldehyde 3.18 (IC₅₀ = 0.13 μM, selectivity 13-fold) and the esterified cyanohydrin 3.59 (IC₅₀ = 0.35 μM, selectivity 22- fold). Chapter Seven outlines the experimental details and synthesis of the compounds prepared in this thesis.

cysteine proteases

cysteine protease inhibitors

cathepsin B

papain

calpains

IC50. reversible inhibitors

irreversible inhibitors

non-covalent inhibitors

macrocycles

assays

Infection et stimulation de cellules endothéliales par Porphyromonas gingivalis et son lipopolysaccharide : lien entre maladies parodontales et athérosclérose / Infection and stimulation of endothelial cells with porphyromonas gingivalis and its lipopolysaccharide : link between periodontal diseases and atherosclerosis

Huck, Olivier

10 April 2013

Depuis plusieurs années, l’influence des pathologies parodontales sur certaines pathologies systémiques, notamment les maladies cardio-vasculaires et l’athérosclérose apparait de plus en plus évidente. Dans notre étude, nous nous sommes intéressés à l’évaluation des effets induits par Porphyromonas gingivalis, une des principales bactéries parodontopathogènes, et son lipopolysaccharide sur les cellules endothéliales, qui forment une interface entre le flux sanguin et la paroi vasculaire, d’où un rôle important dans l’initiation et le développement de la plaque d’athérome. Nous avons surtout ciblé les effets induits sur la cathepsine B, une protéase impliquée dans le développement de la plaque d’athérome, et sur l’inflammasome, un complexe impliqué dans la production d’IL-1beta. Les résultats de nos travaux montrent que l’infection par Porphyromonas gingivalis et la stimulation par son LPS sont capables d’induire une augmentation de l’activité enzymatique de la cathepsine B, ceci suivant différentes cinétiques. Dans les deux cas, ces augmentations d’activité se font sans modifications de la synthèse d’ARNm, ni de la concentration protéique de l’enzyme. Nos résultats démontrent également que l’infection par Porphyromonas gingivalis entraine une augmentation de l’expression ARN de l’inflammasome NLRP3, mais celle ci n’est pas observée au niveau protéique du fait d’un processus de protéolyse de la protéine NLRP3 suite à l’infection. Dans un deuxième temps, nous avons développé un modèle de parodontite expérimentale, fiable et reproductible, nous permettant d’envisager une expérimentation in vivo afin d’observer les interactions à distance entre maladies parodontales et athérosclérose sur dessouris apolipoprotéine-E -/-. / Periodontal diseases have been linked to systemic diseases especially cardiovascular diseases and atherosclerosis. In our study, we investigated the effects induced by an infection with Porphyromonas gingivalis, a major periodontal pathogen, and stimulation by its lipopolysaccharide on endothelial cells at the interface between the inner part of arteries and blood flow. We focused on the effects induced on cathepsin B, a protease involved in atherosclerosis and on the activation of inflammasome, an intracellular complex linked to secretion of IL-1beta. Results showed that infection with Porphyromonas gingivalis and stimulation by its lipopolysaccharide increase enzymatic activity of cathepsin B with different kinetics. These modifications are observed without any modifications of RNAm expression and protein concentration. We also showed that infection with Porphyromonas gingivalis increases RNAm expression of NLRP3 but this increase at the RNAm level is not associated with an increase of the protein concentration due to an induced proteolysis. Furthermore, we developed a reliable model of experimental periodontitis that will be used to analyze interactions between periodontitis and systemic diseases in vivo, especially in apolipoprotein-E -/- mice.

Porphyromonas gingivalis

Maladies parodontales

Athérosclérose

Cathepsine B

Inflammasome

Porphyromonas gingivalis

Periodontal diseases

Atherosclerosis

Cathepsin B

Inflammasome

616.13

617.6

Catepsinas B vitelolíticas de Culex quinquefasciatus. / Viteolytic cathepsinas B of Culex quinquefasciatus.

Alexandre Santos de Moura

21 February 2014

Apesar de Culex quinquefasciatus ser um eficiente vetor de doenças tais como a filariose linfática, febre do Nilo Ocidental e outras várias neuroviroses, poucas pesquisas sobre sua fisiologia têm sido conduzidas. Como em todos os animais ovíparos, o desenvolvimento embrionário dos mosquitos depende da degradação dos nutrientes armazenados no ovo, sendo a catepsina B uma protease que tem sido identificada e caracterizada em vários insetos como envolvida nesta função. Neste trabalho identificamos, por espectrometria de massas, duas catepsinas B de Culex quinquefasciatus, parcialmente purificadas por autoproteólise de extrato total de ovos. Segundo a anotação de suas sequências no banco de dados específico para vetores, o VectorBase, elas são enzimas parálogas e suas sequências apresentam 77% de homologia. Denominadas neste trabalho como CatB1 e CatB2, ambas são expressas simultaneamente no corpo gorduroso de todas as fêmeas vitelogênicas de nossa colônia e sua atividade pode ser detectada nos ovários vitelogênicos, sugerindo sua origem materna. A transcrição de ambas as enzimas se inicia após o repasto sanguíneo (ARS), alcançando o pico de expressão às 36 h ARS, de forma bastante semelhante à da vitelogenina. / Despite Culex quinquefasciatus be an efficient vector of diseases such as lymphatic filariasis, West Nile fever and other various neurotrophic viruses, little research on its physiology have been conducted. As in all oviparous animals, embryonic development of mosquitoes depends on the degradation of the nutrients stored in the egg. Cathepsin B is a protease that has been identified and characterized in a number of insects as involved in this function. In this work we have identified, by mass spectrometry, two cathepsins B of Culex quinquefasciatus, partially purified by self-proteolysis of total egg extract. According to the annotation of their sequences in the specific vector database, the VectorBase, they are paralogue enzymes and their sequences have 77% homology. Named in this work as CatB1 and CatB2, both are expressed simultaneously in the fat body of all vitellogenic females of our colony and its activity can be detected in vitellogenic ovaries, suggesting a maternal origin. The transcription of both enzymes starts post blood meal (PBM), reaching their peak of expression at 36 h PBM, quite similar to vitellogenin.

Culex quinquefasciatus

Catepsina B

Cisteíno protease

Ovo

Proteínas de vitelo

Vitelogênese

Culex quinquefasciatus

Cathepsin B

Cystein protease

Egg

Vitellogenesis

Yolk protein

Role gliových buněk v imunitní odpovědi myší infikovaných neurotropní motolicí Trichobilharzia regenti / Role of glial cells in the immune response of mice infected by neurotropic fluke Trichobilharzia regenti

Macháček, Tomáš

January 2015

A central nervous system (CNS) can be invaded by plenty of parasites, including parasitic helminths. Host's immune response during such infections includes not only participation of peripheral lymphocytes, but also astrocytes and microglia, resident glial cells present in the CNS. Activation of astrocytes and microglia has been recently demonstrated also in mice infected by neurotropic avian trematode Trichobilharzia regenti (Digenea: Schistosomatidae) for which mammals represent accidental hosts. The parasite does not mature in them and elicits development of inflammatory reaction in the CNS which may take part in parasite's destruction. Employing in vitro experiments, this thesis aimed at evaluation of the possible role of astrocytes and microglia in murine immune response to T. regenti. For this purpose, primary astrocyte and microglia culture preparations were established and the cells were then stimulated by antigens of T. regenti (homogenate of transformed cercariae, recombinant cathepsins B1.1 and B2). After that, production of nitric oxide and proinflammatory cytokines (IL-1 beta, IL-6, TNF-alpha) was measured. The results revealed that in vitro stimulated astrocytes and microglia increase production of nitric oxide, IL-6 and TNF-alpha. Such response to parasite's antigens could influence...

Avaliação da resistência de formas mutantes da enzima L-asparaginase a proteases séricas humanas / Evaluation of L-asparaginase mutant forms resistance to human serum proteases.

Pimenta, Marcela Valente

08 August 2018

O tratamento para a Leucemia Linfoblástica Aguda LLA utiliza, entre outros fármacos, a enzima L-asparaginase (ASNase) proveniente da bactéria Escherichia coli. Reações imunológicas estão entre os problemas do tratamento com ASNase, e a formação de anticorpos contra essa proteína pode impedir o sucesso no tratamento. Duas cisteíno proteases lisossomais estão relacionadas com a degradação de ASNase nos seres humanos, a Catepsina B (CTSB) e Asparagina Endopeptidase (AEP). Em estudos prévios do nosso grupo obteve-se mutantes de ASNase resistentes a degradação por CTSB e/ou AEP in vitro. Nesse trabalho avaliamos essas mutantes quanto a sua citotoxicidade em linhagens celulares de leucemia e conduzimos estudos in vivo, aplicando as proteoformas de ASNases em camundongos Balb C para avaliar a atividade asparaginase sérica das enzimas ao longo do tempo, bem como obter informações sobre a formação de anticorpos contra essas proteoformas. Nos ensaios de citotoxicidade, duas das proteoformas testadas tiveram efeito citotóxico semelhante a forma selvagem, enquanto uma outra proteoforma tem a citotoxicidade sensivelmente reduzida. Já nos ensaios in vivo, uma proteoforma demonstrou meia vida sérica maior da atividade asparaginásica, e duas proteoformas causaram reduzida formação de anticorpos. Juntos, esses resultados colaboram para a obtenção de uma nova geração de ASNases com melhor biodisponibilidade, e efeitos adversos reduzidos, gerando a possibilidade de menores doses e frequência de aplicações. / The Treatment for Acute Lymphoblastic Leukemia (ALL) includes the biopharmaceutical L-asparaginase (ASNase) from Escherichia coli. Immunological reactions are among the problems of treatment using ASNase, and the antibodies formation protein may prevent success in treatment. Lysosomal cysteine proteases are related to ASNase degradation, Cathepsin B (CTSB) and Asparagine Endopeptidase (AEP). In previous studies, ASNase mutants resistant to CTSB and / or AEP degradation in vitro were obtained. In this work, mutants were evaluated in cytotoxicity in ALL cell lines and, in vivo studies, applying doses of the wild and mutant ASNases in Balb C mice to evaluate serum asparaginase activity of the enzymes over time, as well as to obtain information on the formation of antibodies against these proteoforms. Regarding to the cytotoxicity, two proteoforms among the tested had similar cytotoxicity than the wild-type. While another proteoform had the cytotoxicity severely reduced. One proteoform have demonstrated greater serum half-life of asparaginase activity, while two other mutants caused reduced antibody formation. Together, these results collaborate to obtain a new generation of ASNases with increased bioavailability and reduced side effects, generating the possibility of lower doses and frequency of applications.

Acute Lymphoblastic Leukemia

Asparagina Endopeptidase

Asparagine Endopeptidase

Biopharmaceutical improvement

Catepsina B

Cathepsin B

L-asparaginase

L-asparaginase

Leucemia Linfoblástica Aguda

Melhoramento de Biofármacos

Avaliação da resistência de formas mutantes da enzima L-asparaginase a proteases séricas humanas / Evaluation of L-asparaginase mutant forms resistance to human serum proteases.

Marcela Valente Pimenta

08 August 2018

O tratamento para a Leucemia Linfoblástica Aguda LLA utiliza, entre outros fármacos, a enzima L-asparaginase (ASNase) proveniente da bactéria Escherichia coli. Reações imunológicas estão entre os problemas do tratamento com ASNase, e a formação de anticorpos contra essa proteína pode impedir o sucesso no tratamento. Duas cisteíno proteases lisossomais estão relacionadas com a degradação de ASNase nos seres humanos, a Catepsina B (CTSB) e Asparagina Endopeptidase (AEP). Em estudos prévios do nosso grupo obteve-se mutantes de ASNase resistentes a degradação por CTSB e/ou AEP in vitro. Nesse trabalho avaliamos essas mutantes quanto a sua citotoxicidade em linhagens celulares de leucemia e conduzimos estudos in vivo, aplicando as proteoformas de ASNases em camundongos Balb C para avaliar a atividade asparaginase sérica das enzimas ao longo do tempo, bem como obter informações sobre a formação de anticorpos contra essas proteoformas. Nos ensaios de citotoxicidade, duas das proteoformas testadas tiveram efeito citotóxico semelhante a forma selvagem, enquanto uma outra proteoforma tem a citotoxicidade sensivelmente reduzida. Já nos ensaios in vivo, uma proteoforma demonstrou meia vida sérica maior da atividade asparaginásica, e duas proteoformas causaram reduzida formação de anticorpos. Juntos, esses resultados colaboram para a obtenção de uma nova geração de ASNases com melhor biodisponibilidade, e efeitos adversos reduzidos, gerando a possibilidade de menores doses e frequência de aplicações. / The Treatment for Acute Lymphoblastic Leukemia (ALL) includes the biopharmaceutical L-asparaginase (ASNase) from Escherichia coli. Immunological reactions are among the problems of treatment using ASNase, and the antibodies formation protein may prevent success in treatment. Lysosomal cysteine proteases are related to ASNase degradation, Cathepsin B (CTSB) and Asparagine Endopeptidase (AEP). In previous studies, ASNase mutants resistant to CTSB and / or AEP degradation in vitro were obtained. In this work, mutants were evaluated in cytotoxicity in ALL cell lines and, in vivo studies, applying doses of the wild and mutant ASNases in Balb C mice to evaluate serum asparaginase activity of the enzymes over time, as well as to obtain information on the formation of antibodies against these proteoforms. Regarding to the cytotoxicity, two proteoforms among the tested had similar cytotoxicity than the wild-type. While another proteoform had the cytotoxicity severely reduced. One proteoform have demonstrated greater serum half-life of asparaginase activity, while two other mutants caused reduced antibody formation. Together, these results collaborate to obtain a new generation of ASNases with increased bioavailability and reduced side effects, generating the possibility of lower doses and frequency of applications.

Asparagina Endopeptidase

Catepsina B

L-asparaginase

Leucemia Linfoblástica Aguda

Melhoramento de Biofármacos

Acute Lymphoblastic Leukemia

Asparagine Endopeptidase

Biopharmaceutical improvement

Cathepsin B

L-asparaginase

Avalia??o do efeito citot?xico da lectina da esponja marinha Cliona varians contra c?lulas de leucemia miel?ide cr?nica

Moura, Gioconda Emanuella Diniz de Dantas

14 December 2007

Made available in DSpace on 2014-12-17T14:03:25Z (GMT). No. of bitstreams: 1 GiocondaEDDM.pdf: 827312 bytes, checksum: dd690ec78d2921013aa0e24b334bac19 (MD5) Previous issue date: 2007-12-14 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / In this study, a BCR-ABL expressing human chronic myelogenous leukaemia cell line (K562) was used to investigate the antitumoral potential of a novel lectin (CvL) purified from the marine sponge Cliona varians. CvL inhibited the growth of K562 cells with an IC50 value of 70 g/ml, but was ineffective to normal human peripheral blood lymphocytes in the same range of concentrations tested (180 g/ml). Cell death occurred after 72 h of exposure to the lectin and with sign of apoptosis as analysed by DAPI staining. Investigation of the possible effectors of this process showed that cell death occurred in the presence of Bcl-2 and Bax expression, and involved a caspase-independent pathway. Confocal fluorescence microscopy indicated a major role for the lysosomal protease cathepsin B in mediating cell death. Accordingly, pre-incubation of K562 cells with the cathepsin inhibitor L-trans-epoxysuccinyl-L-leucylamido-(4-guanidino)butane (E-64) abolished the cytotoxic effect of CvL. Furthermore, we found upregulation of tumor necrosis factor receptor 1 (TNFR1) and down-modulation of p65 subunit of nuclear factor kappa B (NFB) expression in CvL-treated cells. These effects were accompanied by increased levels of p21 and downmodulation of pRb, suggesting that CvL is capable of cell cycle arrest. Collectively, these findings suggest that cathepsin B acts as death mediator in CvL-induced cytotoxicity possibly in a still uncharacterized connection with the membrane death receptor pathway / Neste trabalho, a linhagem K562 de c?lulas de leucemia miel?ide cr?nica, expressando a prote?na oncog?nica BCR-ABL, foi usada como modelo para investigar a atividade antitumoral da lectina CvL purificada da esponja marinha Cliona varians. CvL inibiu o crescimento de c?lulas K562 com um IC50 de 70 g/mL, mas n?o afetou a viabilidade celular de linf?citos normais de sangue perif?rico humano no mesmo intervalo de concentra??es testadas (1 80 g/mL). A morte celular ocorreu ap?s 72 horas de exposi??o ? lectina e com altera??es nucleares t?picas de apoptose como analisado pela fluoresc?ncia de DAPI. Investiga??o dos poss?veis efetores deste processo mostrou que a morte celular ocorreu sem ativa??o de caspases e na presen?a de express?es aumentadas de Bcl-2 e Bax. O fato de CvL desencadear a libera??o de catepsina B, como evidenciado pela microscopia de fluoresc?ncia, e do inibidor E-64 bloquear completamente a morte celular induzida por CvL, sugerem papel central dessa protease lisossomal na ativa??o de uma via alternativa de morte celular. CvL tamb?m induziu o aumento de express?o do receptor de morte TNFR-1 e a diminui??o dos n?veis de NFκB. Estes efeitos foram acompanhados pelo aumento significativo na express?o de p21 e pela modula??o negativa de pRb, mostrando que CvL foi capaz de bloquear a progress?o do ciclo celular. Juntos, estes dados sugerem que catepsina B age como mediador da citotoxicidade induzida por CvL possivelmente atrav?s de uma conex?o ainda n?o caracterizada com a via dos receptores de morte

Lectina

Cliona varians

CvL

Leucemia

Apoptose

Catepsina B

Lectin

Cliona varians

CvL

Leukemia

K562

Apoptosis

Cathepsin B

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Cathosis: Cathepsins in Particle-induced Inflammatory Cell Death: A Dissertation

Orlowski, Gregory M.

01 May 2015

Sterile particles underlie the pathogenesis of numerous inflammatory diseases. These diseases can often become chronic and debilitating. Moreover, they are common, and include silicosis (silica), asbestosis (asbestos), gout (monosodium urate), atherosclerosis (cholesterol crystals), and Alzeihmer’s disease (amyloid Aβ). Central to the pathology of these diseases is a repeating cycle of particle-induced cell death and inflammation. Macrophages are the key cellular mediators thought to drive this process, as they are especially sensitive to particle-induced cell death and they are also the dominant producers of the cytokine responsible for much of this inflammation, IL-1β. In response to cytokines or microbial cues, IL-1β is synthesized in an inactive form (pro-IL-1β) and requires an additional signal to be secreted as an active cytokine. Although a multimolecular complex, called the NLRP3 inflammasome, controls the activation/secretion of IL-1β (and has been thought to also control cell death) in response to particles in vitro, the in vivo inflammatory response to particles occurs independently of inflammasomes. Therefore, I sought to better understand the mechanisms governing IL-1β production and cell death in response to particles, focusing specifically on the role of lysosomal cathepsin proteases. Inhibitor studies have suggested that one of these proteases, cathepsin B, plays a role in promoting inflammasome activation subsequent to particle-induced lysosomal damage, however genetic models of cathepsin B deficiency have argued otherwise. Through the use of inhibitors, state-of-the-art biochemical tools, and multi-cathepsin-deficient genetic models, I found that multiple redundant cathepsins promote pro-IL-1β synthesis as well as particle-induced NLRP3 activation and cell death. Importantly, I also found that particle-induced cell death does not depend on inflammasomes, suggesting that this may be why inflammasomes do not contribute to particle-induced inflammation in vivo. Therefore, my observations suggest that cathepsins may be multifaceted therapeutic targets involved in the two key pathological aspects of particle-induced inflammatory disease, IL-1β production and cell death.

Cell Death

Cathepsin B

Cathepsins

Interleukin-1beta

Inflammasomes

Dissertations, UMMS

Cell Biology

Cellular and Molecular Physiology

Immune System Diseases

Immunopathology

Designing Degradable Biosensors for Enzyme Activity and Drug Delivery

Holzer, William K.

January 2021

No description available.

Biomedical Research

Biomedical Engineering

Polymer Chemistry

Polymers

Cathepsin

Cathepsin B

MMP

Matrix metalloproteinases

Fluorescent peptide

Fluorescent substrate

TGF-β

Transforming growth factor-beta

Polymers

Polymer chemistry

Fluorescent polymers

Hydrogels

Drug Delivery

Cancer

Breast cancer

Liposarcoma

Dedifferentiated liposarcoma

Le rôle du CD40 homodimère dans la réponse immunitaire

Jundi, Malek

06 1900

Le CD40 est une glycoprotéine transmembranaire de type I, appartenant à la famille des TNFRs, exprimée à la surface des cellules immunitaires, hématopoïétiques, vasculaires, épithéliales, et d’autres types de cellules, y compris les cellules tumorales. Le CD40 ne possédant pas de domaine kinase, pour induire un signal il interagit directement ou indirectement avec des protéines adaptatrices telles que les TRAFs et les JAKs. L’interaction du CD40 avec son principal ligand, le CD154, joue un rôle primordial dans la régulation de la réponse immunitaire et le maintien de l’homéostasie. L’activation du CD40 à la surface des cellules B augmente leur capacité de présentation d’antigène, en plus d’induire la prolifération, la commutation isotypique et l’apoptose. Les patients souffrant de mutations au niveau du gène codant pour le CD40 ou de son ligand sont immunosupprimés et sensibles à des infections opportunistes. Des études ont montré que le CD40 comme d’autres membres de la famille des TNFRs est capable de former des homodimères. Plus récemment, on a montré que la formation du CD40 homodimère est le résultat de son engagement sur les cellules B. En plus, cette homodimérisation du CD40 est importante pour la phosphorylation de l’Akt. L’interaction CD40/CD154 peut avoir un rôle direct dans l’immunothérapie par l’induction de l’apoptose de certaines cellules cancéreuses ou un rôle indirect en activant les cellules présentatrices d’antigènes (CPA) afin d'augmenter l’efficacité de l’activation des cellules T cytotoxiques. Nos résultats montrent que l’induction de la mort cellulaire par le CD40 requiert la perméabilisation du lysosome, la libération de la cathepsine B, la présence de ROS et une interaction avec le TRAF6, cette mort cellulaire programmée est plus importante en présence de la forme monomérique du CD40, muté au niveau de la cystéine 238. Par ailleurs, l’homodimérisation du CD40 requerrait sa translocation vers les radeaux lipidiques et nécessiterait la présence des ROS. Cette homodimérisation du CD40 semble être importante pour l’activation des cellules B par le biais de l’induction de l’expression du CD23, CD69 et CD80. De plus, nos résultats montrent pour la première fois une implication du CD40 homodimère dans l’induction du CD23 par le biais du TLR4. Nos résultats soulignent l’importance du CD40 homodimère dans certaines voies de signalisation. Ainsi, ils mettent en évidence le rôle de la Cys-238 dans la coopération entre des récepteurs de la réponse immunitaire innée et adaptative. Toutes ces données permettraient une meilleure compréhension de certaines voies de signalisation impliquées dans plusieurs maladies auto-immunes et faisant objet de plusieurs essais thérapeutiques. / CD40 is a type I transmembrane glycoprotein belonging to the TNFRs family, which is expressed on the surface of immune, hematopoietic cells, vascular, epithelial, and other cell types, including a wide range of tumour cells. CD40 does not have a kinase domain. Thus, to induce a signal, CD40 interacts directly or indirectly with adapter proteins such as TRAFs and Jaks. The interaction of CD40 with its main ligand, CD154, plays an important role in regulating the immune response and homeostasis. The activation of CD40 on the surface of B cells increases its ability to promote antigen presentation, in addition to inducing proliferation, isotype switching, and apoptosis. Patients affected by mutations in the gene encoding the CD40 or its ligand are immunosuppressed and susceptible to opportunistic infections. Studies have shown that CD40, as other members of the family of TNFRs is capable of forming homodimers. More recently, it was shown that the formation of the CD40 homodimer is the result of the engagement of CD40 on B cells by CD154. In addition, the homodimerization of CD40 is important for the phosphorylation of Akt. The CD40/CD154 interaction can have a direct role in immunotherapy by inducing apoptosis of some cancer cells or an indirect role in activating antigen-presenting cells (APCs), thereby increasing the effectiveness of activation of cytotoxic T cells. Our results show that the induction of cell death by CD40 requires permeabilization of the lysosome, the release of cathepsin B, the presence of ROS and interaction with TRAF6, this programmed cell death is greater in the presence of the monomeric form of CD40, due to a mutation at the level of the cysteine 238. Moreover, the homodimerization of CD40 requires its translocation to lipid rafts and the presence of ROS. This homodimerization is necessary for the CD40 B-cell activation via the induction of expression of CD23, CD69 and CD80. In addition, our results show for the first time the involvement of the CD40 homodimer in the induction of CD23 expression via TLR4. Our results emphasize the importance of CD40 homodimer in signaling pathways and highlight the role of Cys-238 in the cooperation between receptors of the innate and adaptive immune response. All together our results will allow a better understanding of CD40 signaling pathways involved in several autoimmune diseases, which give a rise to a better therapeutic trial design.

db-CD40 homodimère

cathepsine B

mort cellulaire

radeaux lipidiques

ROS

activation de cellules B

récepteur de type Toll (TLR)

TRAF6

db-CD40 homodimer

cathepsin B

cell death

lipid rafts

B cell activation

toll-like receptors (TLR)