Envolvimento de mastócitos em um modelo de dor pós-operatória em camundongos / Involvement of mast cells in a model of postoperative pain in mice

Oliveira, Sara Marchesan de

28 February 2012

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Recent studies have indicated that nearly half of all surgical patients present a picture of moderate to severe pain what become important to understand the mechanisms involved postoperative pain to be better treat it. Previous studies have shown that incisions can cause mast cell degranulation. Thus, the aim of this study was to investigate the involvement of mast cells and its inflammatory mediators, histamine, serotonin and tryptase in a model of postoperative pain in mice. The depletion of mast cell mediators produced by repeated pre-treatment with compound 48/80 (1, 3, 10 and 10 μg/paw), that promote mast cell degranulation, prevented postoperative nociception (98 ± 23% of inhibition) and reduced histamine and serotonin levels (88 ± 4% and 68 ± 10%, respectively) and tryptase activity (82 ± 14% of reduction) in paw tissue. Furthermore, plantar surgery produced immense mast cell degranulation, as assessed by histology and confirmed by the increased levels of serotonin (three fold higher) and histamine (fifteen fold higher) and by increased activity of tryptase (two fold higher) in the perfused tissue after surgery. Accordingly, pre-treatment with the mast cell membrane stabilizer cromoglycate (200 μg/paw, i.pl.) prevented mechanical allodynia (inhibition of 96 ± 21%) and an increase in histamine (44 ± 10% of inhibition) and serotonin (73 ± 5% of inhibition) levels and prevented the tryptase release (100% of inhibition) induced by plantar surgery. Finally, local treatment with H1 (promethazine, 100 μg/paw, i.pl.), 5-HT3 (ondansetron, 10 μg/paw, i.pl.), 5-HT2A (ketanserin, 5 μg/paw, i.pl.) or PAR-2 (ENMD-1068, 10-100 nmol/paw) receptor antagonists or with the tryptase inhibitor (gabexate, 0.01-1 nmol/paw) partially decreased postoperative nociception in mice. Thus, mast cell activation mechanisms as well as release of mast cells inflammatory mediators and activation of its respective receptors are interesting targets for the development of novel therapies to treat postoperative pain. / Estudos recentes indicam que praticamente a metade de todos os pacientes submetidos à procedimentos cirúrgicos apresentam um quadro de dor moderada à severa, o que torna importante entender os mecanismos envolvidos na dor pós-operatória para melhor tratá-la. Dados da literatura demonstram que incisões podem causar a degranulação de mastócitos. Assim, o objetivo deste estudo foi investigar o envolvimento dos mastócitos e seus mediadores inflamatórios, serotonina, histamina e triptase, em um modelo de dor pós-operatória em camundongos. A depleção dos mediadores dos mastócitos produzida pelo pré-tratamento repetido com o composto 48/80 (1, 3, 10 e 10 μg/pata), que promove degranulação de mastócitos, preveniu a nocicepção pós-operatória (98 ± 23% de inibição) e reduziu os níveis de histamina e serotonina (88 ± 4 % e 68 ± 10%, de redução, respectivamente) e a atividade da triptase (82 ± 14% de redução) no tecido da pata. Além disso, a cirurgia plantar produziu grande degranulação dos mastócitos, como avaliado por histologia e confirmado pelo aumento dos níveis de serotonina (três vezes maior) e histamina (quinze vezes maior) e pelo aumento na atividade da triptase (duas vezes maior) no perfusato tecidual após a cirurgia. O pré-tratamento com o estabilizador da membrana celular dos mastócitos, cromoglicato (200 μg/pata, i.pl.), preveniu a nocicepção mecânica (inibição de 96 ± 21%) e o aumento dos níveis de histamina (44 ± 10% de inibição) e serotonina (73 ± 5% de inibição), bem como preveniu a liberação de triptase (100% de inibição) induzida pela cirurgia plantar. Finalmente, o tratamento local com os antagonistas dos receptores H1 (prometazina, 100 μg/pata, i.pl.), 5-HT3 (ondansetrona, 10 μg/pata, i.pl.), 5-HT2A (cetanserina, 5 μg/pata, i.pl.) ou PAR-2 (ENMD-1068, 10-100 nmol/pata) ou com o inibidor da triptase (gabexato, 0,01-1 nmol/pata) reduziu parcialmente a dor pós-operatória em camundongos. Assim, os mecanismos de ativação de mastócitos, bem como a liberação dos seus mediadores inflamatórios e conseqüente ativação dos seus respectivos receptores são alvos interessantes para o desenvolvimento de novas terapias para tratar a dor pós-operatória.

Alodínia

Hiperalgesia

Nocicepção

Cirurgia

Histamina

Serotonina

Triptase

PAR-2

Allodynia

Hyperalgesia

Nociception

Surgery

Histamine

Serotonin

Tryptase

PAR-2

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA

Rastreo de genes implicados en las paraplejias espásticas hereditarias asociadas a atlastina en Drosophila melanogaster

Ortiz Lira, Gerardo Enrique

January 2016

Magíster en genética / Las paraplejias espásticas hereditarias (PEHs) corresponde a diversos desórdenes genéticos caracterizados por la espasticidad de miembros inferiores y una marcada debilidad muscular debido a una degeneración de los axones más largos en los seres humanos. Los genes más conocidos causantes de las PEHs (atlastina, espastina, VCP) están involucrados en el tráfico intracelular, localización y conformación de organelos membranosos. El gen atlastina (atl) codifica para una GTPasa que media la fusión homotípica en las membranas del retículo endoplásmico (RE). En el tratamiento de PEHs asociadas a mutaciones en atl no se han descrito blancos terapéuticos efectivos ya que inhibir cualquiera de las proteínas asociadas resulta en defectos en la morfogénesis del RE. En Drosophila melanogaster existen genes codificantes para moduladores de la expresión y actividad de atlastina. Como el gen es conservado tanto en humanos como en Drosophila, se utilizó este modelo biológico para identificar genes que modulen su actividad. En esta tesis se rastrearon genes del cromosoma 2 (aproximadamente un 40% del genoma de Drosophila) que actúen como modificadores dominantes del fenotipo asociado a la disminución de la expresión de atl en neuronas motoras. Nuestros resultados indican que existen genes que interactúan con atlastina, destacándose particularmente uno de ellos, en que la proteína codificada por este participa de la vía de señalización de BMP, que juega un rol fundamental en el correcto desarrollo de la unión neuromuscular. Esto es el inicio de una potencial investigación enfocada en encontrar más interactores de atlastina y los mecanismos moleculares que subyacen a estos descubrimientos. / The hereditary spastic paraplegias (HSPs) corresponds to a variety of genetic disorders, characterized by spasticity of the lower limbs and a marked muscle weakness due to degeneration of the longest axons in humans. The best known genes of the HSP (atlastin, spastin, VCP) are involved in intracellular trafficking, localization and formation of membranous organelles. The atlastin (atl) gene encodes a GTPase that mediates homotypic fusion of endoplasmic reticulum (ER) membranes. There have not been described effective therapeutic targets for the treatment of HSPs associated to atl mutations, because the inhibition of any associated proteins results in defects in morphogenesis ER. In Drosophila melanogaster there are genes coding for modulators of expression and activity of atlastin. As this gene is conserved in both humans as in Drosophila, this biological model is used to identify genes that modulate its activity. In this thesis we will screen genes of chromosome 2 (about 40% of the Drosophila genome) that acts as dominant modifiers of the phenotype associated with decreased expression of atl in motor neurons. Our results indicate that there are genes that interact with atlastin, particularly highlighting one of them, in which the protein encoded by this participates of the BMP signaling pathway, which plays a fundamental role in the proper development of the neuromuscular junction. This is the beginning of a potential research focused on finding more interactors of atlastin and the molecular mechanisms underlying these findings.

Paraplejía espástica hereditaria

GTP fosfohidrolasas

Proteínas de drosophila

Drosophila melanogaster

Fenotipo

Cromosomas humanos par 2

Mecanismos envolvidos na indução da inflamação alérgica pulmonar pela serino protease subtilisina. / Mechanisms involved in the induction of allergic lung inflammation to serine protease subtilisin.

Florsheim, Esther Borges

15 September 2014

A asma ocupacional é a forma mais comum de doença pulmonar relacionada ao trabalho e vários dos casos reportados estão correlacionados à exposição de proteases. A serino protease subtilisina foi bastante utilizada na década de 60 e foi a principal responsável pela alta incidência de asma na indústria de detergente. Este projeto visou a desenvolver um modelo murino de inflamação alérgica pulmonar à subtilisina e caracterizar os mecanismos principais envolvidos nessa resposta. A sensibilização e desafio com subtilisina induziu doença alérgica pulmonar, verificada pela eosinofilia às vias aéreas, produção de muco, IgE total, hiper reatividade brônquica e produção de citocinas tipo II no pulmão. Estas respostas foram dependentes da atividade enzimática da subtilisina, PAR-2, receptor de IL-33 ST2, IL-1R e da sinalização via MyD88. Em conjunto, nossos resultados estabelecem um novo modelo experimental de asma ocupacional induzida por subtilisina e fornece os principais mecanismos moleculares responsáveis pela inflamação alérgica. / Occupational asthma is the most common form of pulmonary disease related to work. Most of occupational asthma cases reported are strictly correlated with proteases exposure. Serine protease subtilisin was widely used in the detergent industry during the 60s, which resulted in increased incidence of occupational asthma. We aimed to develop and characterize a murine model of occupational asthma using subtilisin as allergen. Briefly, sensitization and challenge with subtilisin triggered lung allergic inflammation, as accessed by eosinophilic influx to the airways, mucus production, and increased levels of type II cytokines. Subtilisin induced total IgE and airway hyperactivity. Allergic responses to subtilisin were dependent on its serine protease activity, protease-activated receptor (PAR)-2, IL-33 receptor ST2, IL-1R, and Myd88 signaling. Together, these data establish a new murine model of occupational asthma induced by subtilisin and provide the main molecular mechanisms responsible for allergic inflammation.

Allergic sensitization

Asma ocupacional

Epitélio

Epithelium

IL-1R

IL-1R

Inflamação pulmonar

Lung inflammation

MyD88

MyD88

Occupational asthma

PAR-2

Protease-activated receptor (PAR)-2

Sensibilização alérgica

Serine protease

Serino protease

ST2

ST2

Subtilisin

Subtilisina

Implication des protéases à sérine de la famille des Type II Transmembrane Serine Proteases dans la Fibrose Pulmonaire Idiopathique / Serine proteases of the Type II Transmembrane Serine Proteases family involvement in Idiopathic Pulmonary Fibrosis

Menou, Awen

06 March 2017

La Fibrose Pulmonaire Idiopathique (FPI) est une pathologie pulmonaire chronique, progressive, irréversible et mortelle, dont les thérapeutiques sont insuffisantes à ce jour. L'activation de la cascade de la coagulation et des protéases à sérine, délétère dans la progression des maladies pulmonaires chroniques, est une caractéristique de la pathologie. Récemment, un lien a été démontré entre Protease-Activated Receptor-2 (PAR-2), un récepteur cellulaire ubiquitaire, et la progression de la fibrose pulmonaire chez l'homme et la souris. Outre certains facteurs de la coagulation, PAR-2 semble aussi pouvoir être activé par des protéases appartenant à la famille récemment identifiée des Type II Transmembrane Serine Proteases (TTSPs), dont la matriptase et la Human Airway Trypsin-like protease (HAT). Leur rôle dans la fibrogénèse pulmonaire humaine et expérimentale est cependant encore inconnu.Nos travaux montrent pour la première fois qu'il existe une dérégulation de l'expression et de l'activité de ces protéases de la famille des TTSPs chez le patient FPI. In vitro, la matriptase induit des réponses pro-fibrosantes dans les fibroblastes pulmonaires primaires humains via l'activation de PAR-2, tandis que la HAT induit des réponses anti-fibrosantes dans ces cellules et une activation de la voie de la prostaglandine E2. Ces deux TTSPs sont ainsi différemment impliquées dans la fibrogénèse pulmonaire : in vivo, l'inhibition génétique et pharmacologique de la matriptase atténue la fibrose dans le modèle murin de fibrose pulmonaire induite par la bléomycine, et des résultats similaires sont observés suite à la surexpression de la HAT médiée par adénovirus dans ce modèle animal. L'ensemble des résultats obtenus dans ce travail de thèse permet de documenter l'implication de deux protéases à sérine, la matriptase et la HAT, dans la pathogénèse de la FPI et de définir des axes de recherche thérapeutique potentiels / Idiopathie Pulmonary Fibrosis (IPF) is a chronic, progressive, irreversible and mortal disease. Therapeutics options that improve the clinical outcome of IPF are limited. Coagulation proteinases and coagulation signaling deregulation, which influences several key inflammatory and fibroproliferative responses, is essential in IPF. Recently, Protease-Activated Receptor-2 (PAR-2) was shown to be involved in pulmonary fibrogenesis, both in Human and in mice. In addition to coagulation factors, PAR-2 can be activated by serine proteases of the emerging Type II Transmembrane Serine Proteases (TTSPs) family, including matriptase and the Human Airway Trypsin-like protease (HAT). Herein we explored the role of matriptase and HAT in the progression of human and experimental pulmonary fibrosis.Our data show that TTSPs matriptase and HAT pulmonary expression and activity are deregulated in patients with IPF. In vitro, matriptase induces PAR-2 dependent pro-fibrotic responses in primary human lung fibroblasts, whereas HAT induces anti-fibrotic effects in these cells, through the activation of prostaglandin E2 pathway. These TTSPs are differently involved in pulmonary fibrogenesis: in vivo, genetic and pharmacological inhibition of matriptase reduces fibrosis in the bleomycin induced lung fibrosis model, while an adenovirus-mediated HAT overexpression in the murine model leads also to a limited lung fibrosis. Here, we highlight the involvement of matriptase and HAT in the pathogenesis of IPF and explore potential therapeutics for lung fibrosis

TTSPs

Matriptase

Human Airway Trypsin-like protease

HAT

Récepteur 2 activé par des protéases

PAR-2

TTSPs

Matriptase

Human Airway Trypsin-like protease

HAT

Protease-Activated Receptor-2

PAR-2

Mecanismos envolvidos na indução da inflamação alérgica pulmonar pela serino protease subtilisina. / Mechanisms involved in the induction of allergic lung inflammation to serine protease subtilisin.

Esther Borges Florsheim

15 September 2014

A asma ocupacional é a forma mais comum de doença pulmonar relacionada ao trabalho e vários dos casos reportados estão correlacionados à exposição de proteases. A serino protease subtilisina foi bastante utilizada na década de 60 e foi a principal responsável pela alta incidência de asma na indústria de detergente. Este projeto visou a desenvolver um modelo murino de inflamação alérgica pulmonar à subtilisina e caracterizar os mecanismos principais envolvidos nessa resposta. A sensibilização e desafio com subtilisina induziu doença alérgica pulmonar, verificada pela eosinofilia às vias aéreas, produção de muco, IgE total, hiper reatividade brônquica e produção de citocinas tipo II no pulmão. Estas respostas foram dependentes da atividade enzimática da subtilisina, PAR-2, receptor de IL-33 ST2, IL-1R e da sinalização via MyD88. Em conjunto, nossos resultados estabelecem um novo modelo experimental de asma ocupacional induzida por subtilisina e fornece os principais mecanismos moleculares responsáveis pela inflamação alérgica. / Occupational asthma is the most common form of pulmonary disease related to work. Most of occupational asthma cases reported are strictly correlated with proteases exposure. Serine protease subtilisin was widely used in the detergent industry during the 60s, which resulted in increased incidence of occupational asthma. We aimed to develop and characterize a murine model of occupational asthma using subtilisin as allergen. Briefly, sensitization and challenge with subtilisin triggered lung allergic inflammation, as accessed by eosinophilic influx to the airways, mucus production, and increased levels of type II cytokines. Subtilisin induced total IgE and airway hyperactivity. Allergic responses to subtilisin were dependent on its serine protease activity, protease-activated receptor (PAR)-2, IL-33 receptor ST2, IL-1R, and Myd88 signaling. Together, these data establish a new murine model of occupational asthma induced by subtilisin and provide the main molecular mechanisms responsible for allergic inflammation.

Asma ocupacional

Epitélio

IL-1R

Inflamação pulmonar

MyD88

PAR-2

Sensibilização alérgica

Serino protease

ST2

Subtilisina

Allergic sensitization

Epithelium

IL-1R

Lung inflammation

MyD88

Occupational asthma

Protease-activated receptor (PAR)-2

Serine protease

ST2

Subtilisin

Les récepteurs activés par les protéases dans les tissus articulaires humains arthrosiques

Amiable, Nathalie

03 1900

L’arthrose (OA) est une maladie articulaire dégénérative à l’étiologie complexe et diverse. Les travaux de ces dernières années ont démontré que l’OA est une pathologie affectant tous les tissus de l’articulation incluant le cartilage, la membrane synoviale et l’os sous-chondral. L’OA se traduit par une déstructuration et une perte de fonctionnalité de l’articulation, et est principalement caractérisée par une perte de cartilage articulaire. L’inflammation de la membrane synoviale joue un rôle déterminant dans la progression de l’OA, toutefois elle serait secondaire à la dégradation du cartilage. De plus, l’os sous-chondral est également le siège de nombreuses transformations lors de l’OA. Il est fortement suggéré que ces changements ne correspondent pas seulement à une conséquence, mais pourraient être une cause du développement de l’OA impliquant une communication entre ce tissu et le cartilage. Il est maintenant bien établi que les voies inflammatoires et cataboliques jouent un rôle crucial dans l’OA. C’est pourquoi, nous avons étudié l’implication d’une nouvelle famille de récepteurs membranaires, les PARs, et plus particulièrement le PAR-2 dans les voies physiopathologiques de l’OA. Notre hypothèse est que l’activation de PAR-2 au cours de l’OA est un phénomène majeur du développement/progression de la maladie faisant du récepteur PAR-2 un candidat privilégié pour le développement de nouvelles approches thérapeutiques ciblant non seulement le cartilage mais aussi l’os sous-chondral. Pour cette étude, nous avons travaillé in vitro avec des chondrocytes (Cr) et des ostéoblastes (Ob) OA respectivement du cartilage et de l’os sous-chondral du condyle fémoral humain. Nos résultats ont démontré que PAR-2 était plus exprimé dans les Cr et les Ob OA que dans les cellules normales. Par ailleurs, PAR-2 est régulé positivement par certains facteurs retrouvés au cours de l’OA comme l’IL-1β, le TNF-α et le TGF-β dans les Cr OA, et par l’IL-1β, le TNF-α et la PGE2 dans les Ob OA. De plus, les principaux facteurs cataboliques et inflammatoires, soit la MMP-1, la MMP-13 et la COX-2 sont produits en quantité plus élevée suite à l’activation du récepteur dans le cartilage OA. De même, l’activation de PAR-2 dans les Ob OA conduit à une production accrue de facteurs pro-résorptifs tels que RANKL, l’IL-6, la MMP-1 et la MMP-9, et à l’augmentation de l’activité pro-résorptive de ces cellules. En outre, dans les deux types tissulaires étudiés, l’activation de PAR-2 augmente l’activité de certaines protéines de la famille des MAPKinases comme Erk1/2, p38 et JNK. Finalement, nous avons conclu notre étude en employant un modèle in vivo d’OA induite chez la souris sauvage et déficiente pour le gène PAR-2. Nos résultats ont démontré que l’absence d’expression et de production de PAR-2 influençait le processus inflammatoire et les changements structuraux affectant à la fois le cartilage et l’os sous-chondral, conduisant à un ralentissement du développement de l’OA. Nos travaux de recherche ont donc permis de montrer que le récepteur PAR-2 est un élément majeur du processus OA en agissant sur les voies cataboliques et inflammatoires du cartilage, et sur le remodelage tissulaire de l’os sous-chondral. Mots-clés : Arthrose, chondrocyte, cartilage, ostéoblaste, os sous-chondral, PAR-2, MMPs, COX, ILs, RANKL, résorption osseuse, MAPKinase, catabolisme, inflammation / Osteoarthritis (OA) is a complex degenerative articular disease. Recent studies have shown that OA is a pathology affecting all the tissues of the joint including the cartilage, the synovial membrane and the subchondral bone. OA is regarded as destruction and a loss of functionality of joint, and is mainly characterized by a loss of articular cartilage. The synovial inflammation also plays a key role in the progression of OA; however, it is believed to be secondary to cartilage degradation. In addition, there are also in the subchondral bone numerous changes which occur during the course of the disease. It is strongly suggested that these changes in subchondral bone are not just a consequence but could be a cause of the development of OA, thus involving a cross-talk between this tissue and the cartilage. It is now well established that inflammatory and catabolic pathways play a crucial role during OA. This is why we have engaged the study of the involvement of a new family of membranous receptors, the PARs, and more particularly PAR-2 during the pathophysiological process of OA. Our hypothesis is that PAR-2 activation during OA course is a major phenomenon for the development/progression of the disease, and that PAR-2 seems a suitable candidate for the development of new therapeutic approaches targeting not only the cartilage but also the subchondral bone. Thus, we have performed in vitro studies on OA chondrocyte (Cr) and osteoblasts (Ob) cells issued respectively from human femoral condyle cartilage and subchondral bone. Our results showed that PAR-2 was expressed at a higher level in the OA Cr and Ob compared to normal cells. Moreover, PAR-2 is found to be positively regulated by some factors present during the course of OA, such as IL-1β, TNF-α and TGF-β in the OA Cr, and IL-1β, TNF-α and PGE2 in the OA Ob. In addition, the main catabolic and inflammatory factors including MMP-1, MMP-13 and COX-2 are enhanced following PAR-2 receptor activation in the OA cartilage. Similarly, the activation of PAR-2 in OA Ob lead to an increased production of pro-resorptive factors such as RANKL, IL-6, MMP-1 and MMP-9, and an increased pro-resorptive activity of these cells. In addition, in both tissue types, PAR-2 activation increases the activity of certain protein MAPKinases family such as Erk1/2, p38 and JNK. Finally, we have performed an in vivo study using an OA induced model in wild-type and PAR-2 gene knock-out mice. Our results demonstrated that the absence of PAR-2 expression and production influenced the inflammatory process and structural changes affecting the cartilage and the subchondral bone, leading to a slowing down of OA development. Our research investigation have bring to light that PAR-2 receptor is a key element during OA process by acting on the cartilage catabolic and inflammatory pathways as well as the tissue remodelling of the subchondral bone. Keywords : Osteoarthritis, chondrocyte, cartilage, osteoblast, subchondral bone, PAR-2, MMPs, COX, ILs, RANKL, bone resorption, MAPKinase , catabolism, inflammation

Arthrose

PAR-2

Cartilage

Chondrocyte

Os sous-chondral

Résorption osseuse

Inflammation

Catabolisme

Osteoarthritis

Bone resorption

Subchondral bone

Osteoblast

Catabolism

Les récepteurs activés par les protéases dans les tissus articulaires humains arthrosiques

Amiable, Nathalie

03 1900

L’arthrose (OA) est une maladie articulaire dégénérative à l’étiologie complexe et diverse. Les travaux de ces dernières années ont démontré que l’OA est une pathologie affectant tous les tissus de l’articulation incluant le cartilage, la membrane synoviale et l’os sous-chondral. L’OA se traduit par une déstructuration et une perte de fonctionnalité de l’articulation, et est principalement caractérisée par une perte de cartilage articulaire. L’inflammation de la membrane synoviale joue un rôle déterminant dans la progression de l’OA, toutefois elle serait secondaire à la dégradation du cartilage. De plus, l’os sous-chondral est également le siège de nombreuses transformations lors de l’OA. Il est fortement suggéré que ces changements ne correspondent pas seulement à une conséquence, mais pourraient être une cause du développement de l’OA impliquant une communication entre ce tissu et le cartilage. Il est maintenant bien établi que les voies inflammatoires et cataboliques jouent un rôle crucial dans l’OA. C’est pourquoi, nous avons étudié l’implication d’une nouvelle famille de récepteurs membranaires, les PARs, et plus particulièrement le PAR-2 dans les voies physiopathologiques de l’OA. Notre hypothèse est que l’activation de PAR-2 au cours de l’OA est un phénomène majeur du développement/progression de la maladie faisant du récepteur PAR-2 un candidat privilégié pour le développement de nouvelles approches thérapeutiques ciblant non seulement le cartilage mais aussi l’os sous-chondral. Pour cette étude, nous avons travaillé in vitro avec des chondrocytes (Cr) et des ostéoblastes (Ob) OA respectivement du cartilage et de l’os sous-chondral du condyle fémoral humain. Nos résultats ont démontré que PAR-2 était plus exprimé dans les Cr et les Ob OA que dans les cellules normales. Par ailleurs, PAR-2 est régulé positivement par certains facteurs retrouvés au cours de l’OA comme l’IL-1β, le TNF-α et le TGF-β dans les Cr OA, et par l’IL-1β, le TNF-α et la PGE2 dans les Ob OA. De plus, les principaux facteurs cataboliques et inflammatoires, soit la MMP-1, la MMP-13 et la COX-2 sont produits en quantité plus élevée suite à l’activation du récepteur dans le cartilage OA. De même, l’activation de PAR-2 dans les Ob OA conduit à une production accrue de facteurs pro-résorptifs tels que RANKL, l’IL-6, la MMP-1 et la MMP-9, et à l’augmentation de l’activité pro-résorptive de ces cellules. En outre, dans les deux types tissulaires étudiés, l’activation de PAR-2 augmente l’activité de certaines protéines de la famille des MAPKinases comme Erk1/2, p38 et JNK. Finalement, nous avons conclu notre étude en employant un modèle in vivo d’OA induite chez la souris sauvage et déficiente pour le gène PAR-2. Nos résultats ont démontré que l’absence d’expression et de production de PAR-2 influençait le processus inflammatoire et les changements structuraux affectant à la fois le cartilage et l’os sous-chondral, conduisant à un ralentissement du développement de l’OA. Nos travaux de recherche ont donc permis de montrer que le récepteur PAR-2 est un élément majeur du processus OA en agissant sur les voies cataboliques et inflammatoires du cartilage, et sur le remodelage tissulaire de l’os sous-chondral. Mots-clés : Arthrose, chondrocyte, cartilage, ostéoblaste, os sous-chondral, PAR-2, MMPs, COX, ILs, RANKL, résorption osseuse, MAPKinase, catabolisme, inflammation / Osteoarthritis (OA) is a complex degenerative articular disease. Recent studies have shown that OA is a pathology affecting all the tissues of the joint including the cartilage, the synovial membrane and the subchondral bone. OA is regarded as destruction and a loss of functionality of joint, and is mainly characterized by a loss of articular cartilage. The synovial inflammation also plays a key role in the progression of OA; however, it is believed to be secondary to cartilage degradation. In addition, there are also in the subchondral bone numerous changes which occur during the course of the disease. It is strongly suggested that these changes in subchondral bone are not just a consequence but could be a cause of the development of OA, thus involving a cross-talk between this tissue and the cartilage. It is now well established that inflammatory and catabolic pathways play a crucial role during OA. This is why we have engaged the study of the involvement of a new family of membranous receptors, the PARs, and more particularly PAR-2 during the pathophysiological process of OA. Our hypothesis is that PAR-2 activation during OA course is a major phenomenon for the development/progression of the disease, and that PAR-2 seems a suitable candidate for the development of new therapeutic approaches targeting not only the cartilage but also the subchondral bone. Thus, we have performed in vitro studies on OA chondrocyte (Cr) and osteoblasts (Ob) cells issued respectively from human femoral condyle cartilage and subchondral bone. Our results showed that PAR-2 was expressed at a higher level in the OA Cr and Ob compared to normal cells. Moreover, PAR-2 is found to be positively regulated by some factors present during the course of OA, such as IL-1β, TNF-α and TGF-β in the OA Cr, and IL-1β, TNF-α and PGE2 in the OA Ob. In addition, the main catabolic and inflammatory factors including MMP-1, MMP-13 and COX-2 are enhanced following PAR-2 receptor activation in the OA cartilage. Similarly, the activation of PAR-2 in OA Ob lead to an increased production of pro-resorptive factors such as RANKL, IL-6, MMP-1 and MMP-9, and an increased pro-resorptive activity of these cells. In addition, in both tissue types, PAR-2 activation increases the activity of certain protein MAPKinases family such as Erk1/2, p38 and JNK. Finally, we have performed an in vivo study using an OA induced model in wild-type and PAR-2 gene knock-out mice. Our results demonstrated that the absence of PAR-2 expression and production influenced the inflammatory process and structural changes affecting the cartilage and the subchondral bone, leading to a slowing down of OA development. Our research investigation have bring to light that PAR-2 receptor is a key element during OA process by acting on the cartilage catabolic and inflammatory pathways as well as the tissue remodelling of the subchondral bone. Keywords : Osteoarthritis, chondrocyte, cartilage, osteoblast, subchondral bone, PAR-2, MMPs, COX, ILs, RANKL, bone resorption, MAPKinase , catabolism, inflammation

Arthrose

PAR-2

Cartilage

Chondrocyte

Os sous-chondral

Résorption osseuse

Inflammation

Catabolisme

Osteoarthritis

Bone resorption

Subchondral bone

Osteoblast

Catabolism

Vzájemné interakce mezi nádorovým mikroprostředím a kalikreinovými proteázami v myším modelu karcinomu mléčné žlázy / The tumor immune microenvironment and its crosstalk with kallikrein-related peptidases in mammary carcinoma of a mouse model

Šlaufová, Marta

January 2021

Breast cancer is the most common cancer type with a high annual death rate. Finding meaningful tissue-related or body-fluid-accessible biomarkers is necessary to characterize cancer subtype, predict tumor behavior, choose the most effective therapy, predict severe treatment-related toxicities, and also the opportunity to personalize treatments for each patient. There is increasing evidence that various kallikrein-related peptidases (Klk) gene family members can modulate the immune response and are differentially regulated in breast cancer, and therefore are proposed to be potential prognostic biomarkers. This work established and validated an experimental setup to study the roles of selected kallikrein-related peptidases (KLK5, KLK7, KLK14) in breast cancer in vivo using gene-deficient mouse models previously generated in our laboratory. We used the CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats) editing system to generate several E0771 cell line-based reporter and gene-deficient cell lines. These allowed enhanced monitoring of cancer progression in vivo and studying KLKs roles in tumor immune microenvironment of C57Bl/6N mice. Finally, we present the analysis of the initial in vivo experiments using these tools combined with established Klk-deficient mouse models. Our...