Specific Compartmentalization of IgA ASCs in Mouse Salivary Glands via Differential Expression of Chemokines and Chemokine Receptors

Law, Yuet Ching

21 November 2008

The mucosal system, which forms a barrier between internal organ systems and the external environment, is frequently exposed to pathogenic microorganisms. Immunoglobulin A (IgA) antibody secreting cells (ASCs) localize in the lamina propria, and produce IgA antibodies which help protect mucosal tissues. The concept of a common mucosal immune system in which IgA ASCs have the ability to populate any mucosal site has been proposed (1, 2). However, recent research has suggested that IgA ASCs primed in different mucosal sites might possess different sets of chemokine receptors, and therefore migrate specifically to particular mucosal locations (3). In this study, the specific compartmentalization of IgA ASCs in two mouse salivary glands: sublingual gland (SLG), and submandibular gland (SMG) was studied. It was observed that SLG had 12 times more IgA ASCs per gram of gland than that of SMG (p<0.01). This suggested that IgA ASCs migrated to the two salivary glands with different efficiencies. Since the migration of lymphocytes is mediated by interactions between tissue specific chemokines and chemokine receptors, I hypothesized that the specific compartmentalization of IgA ASCs in the SLG and SMG was mediated by the differential expression of IgA ASC attracting chemokines. Quantitative PCR was used and showed that SLG expressed high levels of CCL28 and its receptor CCR10, which correlated to the distribution of IgA ASCs in the two salivary glands. In agreement with QPCR data, reduced levels of IgA ASCs were found in the SLG of CCR10 deficient mice when compared to wild type (WT) mice. Adoptive transfer of CCR10 deficient mice with WT spleen cells reconstituted the WT phenotype. It was therefore concluded that the interaction between CCL28 and CCR10 play an important role in mediating the migration of IgA ASCs into SLG. These results suggested that the accumulation of IgA ASC to distinct salivary glands is a highly selective process. These data also suggested that homing within mucosal sites is not common but rather a highly regulated process with specific subsets of cells homing to different tissues within the mucosal immune system.

mucosal system

IgA ASCs

mouse salivary glands

chemokines

CCL28

CCR10

receptors

IgA

compartmentalization

common mucosal immune system

Microbiology

Modulation of airway responses to antigen in a rat model of allergic asthma

Allakhverdieva, Zoulfia

January 2002

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Asthme

Cellules CD8+

Réaction semi-retardée

Cytokines

Chemokines

Éosinophiles

Hyperréactivité bronchique

Chaîne commun Beta

CCR3

Antisens phosphorothioates

Rats

New C-C Chemokine Receptor Type 7 Antagonists

Ahmed, Mohaned S.A.

January 2016

Chemokines are chemotactic cytokines which play an important role in the migration of immune cells to distant tissues or compartments within tissues. These proteins have also been demonstrated to play a major role in cancer metastasis. The C-C chemokine receptor type 7 (CCR7) is a member of the chemokine receptor family. CCR7 along with its ligands CCL19 and CCL21 plays an important role in innate immune response by trafficking of lymphocytes. In cancer, tumour cells expressing CCR7 migrate to lymphoid organs and thus disseminate to other organs. Neutralizing the interactions between CCL21/CCR7 would therefore be expected to inhibit the progression and metastasis of many different types of cancer to regional lymph nodes or distant organs. Our objective was to identify a potent small molecule antagonist of CCR7 as a prelude to the investigation of the role of this axis in cancer metastasis. In this study, we provided a brief description of chemokines and their role in health and disease with an emphasis on the CCR7/CCL19/CCL21 axis, as well as identification of a CCR7 antagonist “hit”. The potency of the CCR7 antagonist “hit” was optimised by synthesizing different CCR7 antagonist analogues. The “hit” optimization process has led to discover the most active compound amongst a series of different analogues which have the ability to bind and block CCR7 receptor. The efficacy of the most active compound and other analogues were evaluated in vitro using a calcium flux assay which is based on detecting fluorescent light emitted upon release of calcium ions. To identify a suitable cell line, which expresses CCR7 and capably respond to it, amongst a panel of cell lines for in vitro assessment of potency of synthesised compounds, we used Western blot assay and later by flow cytometry assay. The activity and selectivity of the most effective compound against CCR7 receptor was evaluated in vitro by other functional assays such as “configured agarose spot assay” and scratch assay. We first configured the existing under agarose assay to fulfil our requirements and then used it to assess activity and selectivity of compounds. The configured agarose spot assay also describes the application of the agarose spot for evaluation of cells chemotactic response to multiple chemokines under identical experiment conditions.

Role of chemokines in airway remodeling and effects on smooth muscle proliferation and survival

Al Abri, Jehan

January 2008

No description available.

Cell Proliferation.

Chemokines, CC -- metabolism.

Myocytes, Smooth Muscle -- pathology.

Interleukin-8 -- metabolism.

Asthma -- physiopathology.

Epithelial Cells -- pathology.

Analys av CCR5 uttryck hos patienter med koloncancer med hjälp av immunhistokemisk metod / Analysis of CCR5 expression in patients with colon cancer using immunohistochemical method

Slezeviciene, Rasa

January 2023

Flera av de senaste forskningsstudierna har visat att tumörmikromiljö är mycket viktigare än man hittills trott. Ett av de viktigaste elementen i tumörmikromiljön är immunceller som producerar olika kemokiner samt uttrycker specifika receptorer. Kemokiner kan både aktivera och hämma immunförsvaret. Syftet med denna pilotstudie var att undersöka uttryck av kemokinreceptor CCR5 hos patienter med koloncancer (n=41) och utvärdera prognostisk betydelse genom att undersöka uttrycksskillnader mellan tumör och parad tumörfri vävnad med hjälp av immunhistokemisk detektionsmetod. Syftet var även att identifiera sambandet med kön, ålder, tumörstadier (TNM) och lokalisation av primär tumör. Resultaten visade signifikanta skillnader i uttryck av CCR5 mellan koloncancer och parad tumörfri kolonvävnad (p&lt;0,001). Nivån av CCR5 uttryck var 79% högre i tumörvävnad jämfört med parad tumörfri vävnad. Inga statistiskt signifikanta skillnader eller korrelationer mellan CCR5 uttryck och tumörstadier, kön, ålder eller tumörlokalisation på patienterna hittades. Däremot resultaten tyder på att det föreligger samband mellan patienternas ålder och tumörlokalisation. Sammanfattningsvis bekräftar studieresultaten att CCR5 kan vara involverad i patogenesen av koloncancer. / The latest research has shown that the cancer microenvironment is much more important than previously thought. One of the most important elements in it are immune cells that produce various chemokines and express specific receptors. Chemokines can both activate and inhibit the immune system. The aim of this pilot study was to investigate the expression of chemokine receptor CCR5 in patients with colon cancer (n=41) and evaluate prognostic significance by identifying expressional differences between tumor and paired tumor-free tissue using immunohistochemical method. The aim was also to identify the relationship with the clinical parameters: gender, age, tumor stages (TNM) and location of primary tumor. Results showed significant differences in CCR5 expression between colon cancer and paired tumor-free colon tissue (p&lt;0,001). The level of CCR5 expression was 79% higher in tumor tissue compared to paired tumor-free tissue. No statistically significant differences or correlations between CCR5 expression and tumor stages, gender, age, or tumor location were found. However, the results indicate that there is a relationship between the patients' age and tumor localization. In summary, the results of the study confirm that CCR5 may be involved in the pathogenesis of colon cancer.

cancer

immunceller

kemokiner

kemokinreceptor

tumörmikromiljö

cancer

immune cells

chemokines

receptor

tumor microenvironment

Medical and Health Sciences

Medicin och hälsovetenskap

Effects of weight loss and exercise on chemerin serum concentrations and adipose tissue expression in human obesity

Chakaroun, Rima

14 January 2015

Chemerin is a chemoattractant adipokine that regulates adipogenesis and may induce insulin resistance. Chemerin serum concentrations are elevated in obese, insulin-resistant, and inflammatory states in vivo. Here we investigate the role of omental (OM) and subcutaneous (SC) adipose tissue chemerin and CMKLR1 messenger RNA (mRNA) expression in human obesity. In addition, we test the hypothesis that changes in chemerin serum concentrations are primarily associated with reduced body fat mass in the context of 3 weight loss intervention studies. Chemerin serum concentration was measured in 740 individuals in a cross-sectional (n = 629) study including a subgroup (n = 161) for which OM and SC chemerin mRNA expression has been analyzed as well as in 3 interventions including 12 weeks of exercise (n = 60), 6 months of calorie-restricted diet (n = 19) studies, and 12 months after bariatric surgery (n = 32). Chemerin mRNA is significantly higher expressed in adipose tissue of patients with type 2 diabetes mellitus and correlates with circulating chemerin, body mass index (BMI), percentage body fat, C-reactive protein, homeostasis model assessment of insulin resistance, and glucose infusion rate in euglycemic-hyperinsulinemic clamps. CMKLR1 mRNA expression was not significantly different between the 2 fat depots. Obesity surgery–induced weight loss causes a significant reduction on both OM and SC chemerin expression. All interventions led to significantly reduced chemerin serum concentrations. Decreased chemerin serum concentrations significantly correlate with improved glucose infusion rate and reduced C-reactive protein levels independently of changes in BMI. Insulin resistance and inflammation are BMI-independent predictors of elevated chemerin serum concentrations. Reduced chemerin expression and serum concentration may contribute to improved insulin sensitivity and subclinical inflammation beyond significant weight loss.

Type 2/blood Diet

Messenger/biosynthesis Receptors

Chemokine/biosynthesis Receptors

human Chemokines Insulin RNA

Messenger Receptors

Chemokine chemerin

human

Type 2/blood Diet

Messenger/biosynthesis Receptors

Chemokine/biosynthesis Receptors

human Chemokines Insulin RNA

Messenger Receptors

Chemokine chemerin

human

ddc:610

Effects of weight loss and exercise on chemerin serum concentrations and adipose tissue expression in human obesity

Chakaroun, Rima

13 January 2014

Chemerin is a chemoattractant adipokine that regulates adipogenesis and may induce insulin resistance. Chemerin serum concentrations are elevated in obese, insulin-resistant, and inflammatory states in vivo. Here we investigate the role of omental (OM) and subcutaneous (SC) adipose tissue chemerin and CMKLR1 messenger RNA (mRNA) expression in human obesity. In addition, we test the hypothesis that changes in chemerin serum concentrations are primarily associated with reduced body fat mass in the context of 3 weight loss intervention studies. Chemerin serum concentration was measured in 740 individuals in a cross-sectional (n = 629) study including a subgroup (n = 161) for which OM and SC chemerin mRNA expression has been analyzed as well as in 3 interventions including 12 weeks of exercise (n = 60), 6 months of calorie-restricted diet (n = 19) studies, and 12 months after bariatric surgery (n = 32). Chemerin mRNA is significantly higher expressed in adipose tissue of patients with type 2 diabetes mellitus and correlates with circulating chemerin, body mass index (BMI), percentage body fat, C-reactive protein, homeostasis model assessment of insulin resistance, and glucose infusion rate in euglycemic-hyperinsulinemic clamps. CMKLR1 mRNA expression was not significantly different between the 2 fat depots. Obesity surgery–induced weight loss causes a significant reduction on both OM and SC chemerin expression. All interventions led to significantly reduced chemerin serum concentrations. Decreased chemerin serum concentrations significantly correlate with improved glucose infusion rate and reduced C-reactive protein levels independently of changes in BMI. Insulin resistance and inflammation are BMI-independent predictors of elevated chemerin serum concentrations. Reduced chemerin expression and serum concentration may contribute to improved insulin sensitivity and subclinical inflammation beyond significant weight loss.

info:eu-repo/classification/ddc/610

ddc:610

Identification of pathways in liver repair potentially targeted by secretory proteins from human mesenchymal stem cells

Winkler, Sandra, Hempel, Madlen, Brückner, Sandra, Tautenhahn, Hans-Michael, Kaufmann, Roland, Christ, Bruno

19 July 2016

Background: The beneficial impact of mesenchymal stem cells (MSC) on both acute and chronic liver diseases has been confirmed, although the molecular mechanisms behind it remain elusive. We aim to identify factors secreted by undifferentiated and hepatocytic differentiated MSC in vitro in order to delineate liver repair pathways potentially targeted by MSC. Methods: Secreted factors were determined by protein arrays and related pathways identified by biomathematical analyses. Results: MSC from adipose tissue and bone marrow expressed a similar pattern of surface markers. After hepatocytic differentiation, CD54 (intercellular adhesion molecule 1, ICAM-1) increased and CD166 (activated leukocyte cell adhesion molecule, ALCAM) decreased. MSC secreted different factors before and after differentiation. These comprised cytokines involved in innate immunity and growth factors regulating liver regeneration. Pathway analysis revealed cytokine-cytokine receptor interactions, chemokine signalling pathways, the complement and coagulation cascades as well as the Januskinase-signal transducers and activators of transcription (JAK-STAT) and nucleotide-binding oligomerization domain-like receptor (NOD-like receptor) signalling pathways as relevant networks. Relationships to transforming growth factor beta(TGF-beta) and hypoxia-inducible factor 1-alpha (HIF1-alpha) signalling seemed also relevant. Conclusion: MSC secreted proteins, which differed depending on cell source and degree of differentiation. The factors might address inflammatory and growth factor pathways as well as chemo-attraction and innate immunity. Since these are prone to dysregulation in most liver diseases, MSC release hepatotropic factors, potentially supporting liver regeneration.

Mesenchymale Stammzelle

Sekretom

Zytokine

Chemokine

Leberregeneration

Leberzellen

Differenzierung

Knochenmark

Fettgewebe

mesenchymal stem cells

secretome

cytokines

chemokines

liver regeneration

hepatocytic differentiation

bone marrow

adipose tissue

ddc:610

Étude des facteurs influençant la susceptibilité à l'infection au VIH chez des femmes africaines

Lajoie, Julie

12 1900

Chez la femme, la majorité des cas d’infection au VIH sont acquis lors de relations hétérosexuelles. Cependant, très peu d’informations sont disponibles concernant l’immunité locale naturelle du tractus génital féminin, les facteurs influençant la susceptibilité à l’infection au VIH dans ce compartiment, ainsi que la réponse immunitaire de la muqueuse enclenchée après l’infection. Le but de notre projet est donc d’étudier certains facteurs pouvant être impliqués dans la susceptibilité à l’infection au VIH, afin de mieux comprendre l’immunité du tractus génital féminin. Nous avons, dans un premier temps, analysé le rôle du polymorphisme des gènes HLA-G et HLA-E sur la susceptibilité au VIH dans une population de femmes zimbabwéennes. La présence de l’allèle HLA-G*0105N, en combinaison avec le génotype HLA-EG/HLA-EG, était associée avec une diminution du risque d’infection. Puis, dans une étude cas-contrôle de travailleuses du sexe (TS) du Bénin, nous avons mesuré l’expression de HLA-G soluble au niveau du plasma. Nous avons observé une différence significative dans l’expression de HLA-G soluble, celle-ci étant plus faible dans le groupe des TS VIH positives comparé aux groupes de TS VIH négatives et de femmes VIH négatives de la population générale. Nous avons aussi analysé l’expression de cytokines et chimiokines dans le sérum et le tractus génital des participantes de l’étude du Bénin. Nous avons constaté que chez les TS VIH positives il y avait une expression plus élevée des chimiokines MPC-3, IP-10 et MIG dans le tractus génital et le sérum comparativement aux deux autres groupes. Les patrons d’expression des cytokines variaient selon les compartiments : le niveau de TNF-α et IFN-γ était plus élevé dans le tractus génital des TS VIH positives, alors que le niveau d’IL-2, d’IL-10 et de TNF-α était plus faible dans le sang des TS VIH positives, comparativement aux deux autres groupes. Ainsi, au niveau du tractus génital des femmes VIH positives, il semble y avoir une activation chronique du système immunitaire dans le but de favoriser la dissémination/perpétuation du virus. Les patrons d’expression différents entre le milieu systémique et génital nous montrent que l’immunité présente dans un compartiment n’est pas nécessairement le reflet de l’autre. Nous avons aussi observé une augmentation significative des niveaux d’IL-4, de MIP-1α, de MIP-1β et de MCP-1 dans le sérum des TS VIH négatives. Ces personnes, hautement exposées mais non infectées, semblent démontrer une plus grande capacité à enclencher une réponse immunitaire précoce pour empêcher la dissémination du virus. Notre étude a donc permis d’acquérir de nouvelles connaissances sur l’immunité du tractus génital féminin en relation avec l’infection au VIH. / Initial exposure to HIV during heterosexual transmission occurs in the female genital tract. However, little is known about the local immunity, the factors influencing the susceptibility to HIV infection and the immune response in the female genital tract against HIV infection. The aim of this study is to analyse some factors that could be implicated in the susceptibility to HIV infection and to analyse, in part, the immunity present in the female genital tract. We investigated the role of HLA-G and HLA-E in the susceptibility to HIV infection in a cohort of Zimbabwean women. We found that the presence of HLA-G*0105N allele in combination with the genotype HLA-EG/HLA-EG was associated with a decrease in the risk of HIV infection. We also measured the expression of soluble HLA-G in a study of commercial sex workers (CSW) in Benin. Levels of soluble HLA-G were lower in the HIV-1-infected CSWs compared to those observed in both the HIV-1-uninfected CSWs and the HIV-1-uninfected women from the general population at low risk of infection. We also analysed the chemokine and cytokine expression patterns in the serum and female genital tract of the three groups of women. HIV-1-infected CSWs had significantly higher blood and genital levels of the chemokines IP-10, MCP-3 and MIG compared with those in both the HIV-1-uninfected CSW and non-CSW groups. HIV-1-infected CSWs had significantly higher genital mucosal levels of the cytokines TNF-α and IFN-γ compared with those in both the HIV-uninfected CSW and non-CSW groups. In contrast, the serum levels of the cytokines IL-2, IL-10 and TNF-α were lower in HIV-1-infected CSWs compared with those in the other groups. This suggests the presence of a constant immune cells recruitment and immune activation in the female genital tract in order to favour perpetuation and dissemination of the virus. Our results also demonstrate the important difference between the systemic and the mucosal immunity. We also observed a significant increase in the levels of IL-4, MIP-1α, MIP-1β and MCP-1 in the serum of the HIV-1-uninfected CSWs. It seems that these highly-exposed and yet uninfected women can have a better capacity to mount an early immune response against HIV. This study gives us new insights of the mucosal immunology of HIV infection.

VIH

HIV

HLA-G

HLA-G

Immunologie

Mucosal immunology

Sang

Africa

Afrique

Cytokines

Cytokines

Chemokines

Chimiokines

Rôle du microenvironnement apoptotique tissulaire et du MFG-E8 dans la modulation de la réponse inflammatoire

Brissette, Marie-Joëlle

09 1900

L’inflammation fait partie des processus réactionnels de défense dont dispose l’organisme en réponse aux agressions, assurant l’intégrité de l’hôte. En réponse au dommage tissulaire, plusieurs médiateurs inflammatoires interviennent dans le processus de l’inflammation. Lors de ces dommages, des signaux de dangers provenant de cellules endommagées sont relâchés dans l’environnement tissulaire, pouvant causer des dommages cellulaires et tissulaires. Les macrophages, tout comme d’autres cellules, peuvent être activés par ces signaux de danger, menant à la sécrétion de molécules telles que des cytokines et des chimiokines pouvant modifier le microenvironnement tissulaire. Les insultes au tissu sain peuvent entrainer la mort cellulaire telle que l’apoptose. Les molécules pouvant être relâchées lors de celle-ci contribuent au microenvironnement, notamment de par l’influence de celles-ci sur le macrophage. Parmi ces médiateurs, nous avons identifié le Milk Fat Globule-Epidermal growth factor 8 (MFG-E8), un acteur important dans la résolution de l’inflammation, comme étant relâché spécifiquement par les cellules apoptotiques. Nous avons émis l’hypothèse que le microenvironnement apoptotique tissulaire, via la relâche de MFG-E8, module le phénotype du macrophage, modifiant le microenvironnement, la réponse inflammatoire ainsi que le devenir de l’insulte tissulaire. Nos objectifs sont 1) de caractériser ce microenvironnement apoptotique tissulaire et la cinétique de relâche du MFG-E8 par les cellules apoptotiques, 2) d’en évaluer son rôle dans la modulation du phénotype du macrophage ainsi que 3) d’en étudier, in vivo, son influence sur l’environnement inflammatoire et le devenir tissulaire. Dans le premier article présenté, nous avons démontré que les cellules endothéliales apoptotiques relâchent le MFG-E8 de façon Caspase-3 dépendante. La stimulation des macrophages par l’environnement conditionné par les cellules endothéliales apoptotiques mène à l’adoption d’un profil macrophagien davantage anti-inflammatoire et moindrement pro-inflammatoire. Ce phénotype est réduit par l’inhibition de la Caspase-3 et il dépend de la présence de MFG-E8. De plus, le potentiel du MFG-E8 à la reprogrammation du macrophage pro-inflammatoire a été démontré via un modèle expérimental de péritonite. Ce changement phénotypique médié par MFG-E8 implique une signalisation STAT3. Ayant démontré que les cellules épithéliales apoptotiques, à l’instar des cellules endothéliales apoptotiques, relâchent elles aussi de façon apoptose-dépendante le MFG-E8, nous avons étudié plus exhaustivement un modèle in vivo riche en apoptose épithéliale, l’obstruction urétérale unilatérale. Dans ce deuxième article présenté, nous rapportons l’implication bénéfique de MFG-E8 dans ce modèle de pathologie rénale obstructive. Nous avons constaté que la présence ou l’administration de MFG-E8 réduit le dommage tissulaire et la fibrose. La protection conférée par MFG-E8 est médiée via la modulation de l’activation de l’inflammasome. De plus, nos résultats illustrent l’importance du phénotype anti-inflammatoire du macrophage médié par le MFG-E8 dans la régulation négative de l’activation de l’inflammasome rénal et du dommage tissulaire. Cette thèse présente la première description de la relâche Caspase-3-dépendante de MFG-E8 par les cellules apoptotiques. Elle démontre également l’importance du MFG-E8 dans le microenvironnement apoptotique inflammatoire dans l’atténuation du phénotype pro-inflammatoire du macrophage. De plus, nous avons démontré son rôle protecteur dans des modèles in vivo de transplantation aortique et de réparation tissulaire, de même que dans un modèle de maladie rénale chronique où nous avons montré que cette protection conférée par MFG-E8 est médiée par la régulation négative de l’inflammasome tissulaire. Nos résultats suggèrent ainsi que le MFG-E8 pourrait être considéré comme un interrupteur inflammatoire et ainsi comme une cible potentielle dans la modulation de maladies inflammatoires. / Inflammation is an important component of the « response to injury » process, allowing host integrity. In response to injury, released inflammatory mediators from damaged cells play a crucial role in the modification of the inflammatory microenvironment, which can lead to more cellular and tissue damages. Macrophages can be activated by those danger signals, leading to a spectrum of cytokines and chemokines secretion and modulating the tissular microenvironment. Tissue injuries can lead to cell death such as apoptosis. Mediators released during apoptosis contribute to the nature of the microenvironment, by their influence on macrophage amongst others. We have identified that Milk Fat Globule-Epidermal growth factor 8 (MFG-E8), an important actor in inflammation resolution, is specifically released by apoptotic cells. We hypothesized that tissular apoptotic microenvironment, through MFG-E8 release, modulates macrophage phenotype, resulting in the modification of microenvironment, inflammatory response and tissu injury outcome. Thus, our objectives were to 1) characterize this tissular apoptotic microenvironment by studying MFG-E8 release kinetic by apoptotic cells, to 2) evaluate its role in macrophage phenotype modulation and to 3) study, in vivo, its influence on inflammatory environment and tissu damage outcome. In the first study, we demonstrated that MFG-E8 is released by apoptotic endothelial cells in a caspase-3-dependent manner. When macrophages were exposed to conditioned media from apoptotic endothelial cells, they adopt a high anti-inflammatory, low pro-inflammatory cytokine/chemokine secreting phenotype that is lost if apoptosis is inhibited or if MFG-E8 is absent from the media. Furthermore, MFG-E8 potential to anti-inflammatory macrophage reprogramming has been demonstrated in the experimental peritonitis model. This MFG-E8-mediated reprogramming of macrophages occurs through increased phosphorylation of STAT-3. As apoptotic endothelial cells, apoptotic epithelial cells also release MFG-E8 in an apoptotic-dependent manner. Thus, we investiguated more exhaustively an in vivo epithelial apoptosis rich model, the unilateral ureteral obstruction. In this second study, we report the positive impact of MFG-E8 in this renal obstructive model. MFG-E8 administration reduced kidney damage and fibrosis compared to the control, whereas its absence in MFG-E8 KO mice was associated with more severe disease. Moreover, we demonstrated that the protective role of MFG-E8 is mediated through inflammasome activation modulation in the kidney. Furthermore, our results showed the importance of the anti-inflammatory macrophage phenotype that results in decreased inflammasome activation, preventing severe tissue damage. This thesis presents the first description of apoptosis-dependent release of MFG-E8 by apoptotic cells. It also demonstrate the importance of MFG-E8 in inflammatory apoptotic microenvironment, leading to pro-inflammatory macrophage phenotype attenuation. Moreover, we demonstrated MFG-E8 protective role in an aortic transplantation and a tissue repair models, as well as in a chronic kidney disease model where we showed that this MFG-E8 confered protection is mediated by negative regulation of tissular inflammasome activation. These data provide valuable insight for identifying MFG-E8 as a novel target in the modulation of inflammatory diseases and could be considerate as an inflammatory switch.

Inflammation

Apoptose

MFG-E8

Macrophage

Reprogrammation

Inflammasome

Cytokines

Chimiokines

Apoptosis

Phenotype

Chemokines

Monocyte