Développement d’une méthode informatique appliquée à la quantification immunohistochimique du mastocyte et du macrophage M1 et M2 lors de la guérison cutanée chez le cheval

Dubuc, Valérie

08 1900

No description available.

Cheval

Immunohistochimie

Quantification

Macrophages M1 et M2

Mastocytes

Peau

Equine

Immunohistochemistry

M1 and M2 macrophages

Mast cells

Skin

A ativação do receptor NOD2 contribui para a imunopatogenia do diabetes tipo 1 experimental / The activation of the NOD2 receptor contributes to Type 1 Diabetes immunopathogenesis

Costa, Frederico Ribeiro Campos

25 February 2014

Diabetes tipo 1 (DM1) e uma doenca autoimune que se inicia devido a defeitos na tolerancia imunologica a auto-antigenos, resultando na destruicao autoimune das celulas pancreaticas em individuos geneticamente suscetiveis. Os receptores NOD-like (NLRs) sao receptores intracelulares responsaveis pelo reconhecimento de padroes moleculares associados a patogenos (PAMPs) e padroes moleculares associados ao dano (DAMPs). Estudos recentes tem demonstrado que os receptores NOD1 e NOD2 desempenham um importante papel na ativacao da imunidade inata contra patogenos e na regulacao da imunidade adaptativa, uma vez que sua ativacao leva a producao de citocinas relacionadas a diferenciacao de linfocitos T auxiliares produtores de IL-17 (Th17). Porem, a importancia desses receptores no DM1 ainda e incerto. Nesse sentido, investigamos o papel dos receptores NOD1 e NOD2 na patogenese do DM1, com enfoque na diferenciacao de linfocitos Treg/Th17/Th1 e na plasticidade desses subtipos celulares. Nossos resultados mostram que camundongos deficientes de NOD2, mas nao NOD1 ou RIP2, sao resistentes ao DM1, como comprovado por menor incidencia, hiperglicemia, diminuicao do infiltrado inflamatorio e normalizacao dos niveis de insulina quando comparado aos controles. Foi observado tambem que animais NOD2-/- tiveram uma reducao da populacao de linfocitos Th17, Tc17, Th1 e T citotoxicos nos linfonodos pancreaticos, o que correlaciona com a inibicao da producao de IL-23p19 e IFN- no pancreas. Em paralelo, foi evidenciado o aumento do numero de celulas T reguladoras, macrofagos do perfil M2 nos linfonodos pancreaticos e elevada producao de IL-10 no pancreas de animais NOD2-/-. Alem disso, foi observado que animais NOD2-/- apresentaram uma menor populacao de linfocitos T duplo-positivos (Foxp3+RORt+ e IL-17+IFN+). Posteriormente, foi detectado menor producao de IL- 1, IL-6, IL-23p19 e IL-12p40 por celulas dendriticas de animais deficientes de NOD2. De forma interessante, foi observada a translocacao de bacterias para os linfonodos pancreaticos de animais diabeticos. Adicionalmente, animais tratados com antibioticos tornaram-se resistentes ao DM1, o que nos fornece indicios da contribuicao da microbiota intestinal na inducao da doenca. Por fim, comprovamos alta expressao genica de NOD2 nos linfonodos pancreaticos e no pancreas na fase inicial (pre-diabetica) em outro modelo de DM1, utilizando camundongos NOD (nonobese diabetic mice). Portanto, nossos dados indicam que a ativacao do receptor NOD2 por componentes bacterianos da microbiota intestinal induz a producao de citocinas pro-inflamatorias com subsequente diferenciacao/conversao de linfocitos do perfil Th17/Th1 e progressao do DM1. Dessa forma, estes dados apontam o bloqueio do receptor NOD2 como uma potencial terapia imunomoduladora para o DM1 em humanos. / Type 1 diabetes is an autoimmune disease that precipitates due to defects in the self tolerance to auto- antigens, resulting in the autoimmune destruction of the pancreatic cells in genetically susceptible individuals. NOD-like (NLRs) receptors are intracellular receptors responsible for the recognition of pathogen associated molecular patterns (PAMPs) and damage associated molecular patterns (DAMPs). Recent studies have shown a role of NOD1 and NOD2 receptors in the innate immune response against pathogens and in the adaptive immune response, since its activation leads to the generation of cytokines related to the differentiation of IL-17-producing T helper cells (Th17). However, the role of these receptors in T1D remains elusive. Therefore, we investigated the role of NOD1 and NOD2 receptors in the pathogenesis of T1D, focusing on the differentiation of Treg/Th1/Th17 lymphocytes and in the plasticity of these subtypes. Our data demonstrate that NOD2-/- mice, but not NOD1-/- or RIP2-/-, are resistant to T1D, as shown by the lower incidence, hyperglycemia, less insulitis and normal insulin production when compared to wild type mice. It was also observed that NOD2-/- mice have a reduction in the Th17, Tc17, Th1 and cytotoxic T lymphocyte population within the pancreatic lymph nodes (PLNs), which correlates with the inhibition of IL-23p19 and IFN production in the pancreas. In parallel, there was an increase in Treg cells, M2 macrophages in the PLNs and IL-10 production in the pancreatic tissue of NOD2-/- mice. Also, NOD2-/- mice presented a downregulation of Foxp3+RORt+ and IL-17+IFN+ double-positive T cells. Later, it was shown that IL-1, IL-6, IL-23p19 and IL-12p40 production was downregulated in mice deficient to the NOD2 receptor. Interestingly, we observed a bacterial translocation to the pancreatic lymph nodes in diabetic mice, what could be triggering NOD2 activation, thus contributing to T1D development. As expected, mice pre-treated with antibiotics failed to become diabetic, suggesting a possible role of the gut microbiota in the development of the disease. Lastly, we observed a higher relative expression of NOD2 in the PLNs and pancreas of pre-diabetic mice, using another mouse model of the disease, the nonobese diabetic (NOD) mouse. Collectively, our data suggest that components from the gut microbiota are capable of translocating to the PLNs, thus triggering the activation of NOD2, which in turn induces the production of proinflammatory cytokines related to the differentiation of Th1/Th17 cells, thus contributing to T1D development in a mouse model of the disease. Therefore, the blockade of NOD2 appears as an interesting therapeutical target in the treatment of type 1 diabetes in humans.

Balanco Treg/Th17/Th1

Diabetes tipo 1

Gut Microbiota

M1 and M2 macrophages

Macrofagos M1 e M2

Microbiota

NOD2

NOD2

Treg/Th1/Th17 balance

Type 1 Diabetes

A ativação do receptor NOD2 contribui para a imunopatogenia do diabetes tipo 1 experimental / The activation of the NOD2 receptor contributes to Type 1 Diabetes immunopathogenesis

Frederico Ribeiro Campos Costa

25 February 2014

Diabetes tipo 1 (DM1) e uma doenca autoimune que se inicia devido a defeitos na tolerancia imunologica a auto-antigenos, resultando na destruicao autoimune das celulas pancreaticas em individuos geneticamente suscetiveis. Os receptores NOD-like (NLRs) sao receptores intracelulares responsaveis pelo reconhecimento de padroes moleculares associados a patogenos (PAMPs) e padroes moleculares associados ao dano (DAMPs). Estudos recentes tem demonstrado que os receptores NOD1 e NOD2 desempenham um importante papel na ativacao da imunidade inata contra patogenos e na regulacao da imunidade adaptativa, uma vez que sua ativacao leva a producao de citocinas relacionadas a diferenciacao de linfocitos T auxiliares produtores de IL-17 (Th17). Porem, a importancia desses receptores no DM1 ainda e incerto. Nesse sentido, investigamos o papel dos receptores NOD1 e NOD2 na patogenese do DM1, com enfoque na diferenciacao de linfocitos Treg/Th17/Th1 e na plasticidade desses subtipos celulares. Nossos resultados mostram que camundongos deficientes de NOD2, mas nao NOD1 ou RIP2, sao resistentes ao DM1, como comprovado por menor incidencia, hiperglicemia, diminuicao do infiltrado inflamatorio e normalizacao dos niveis de insulina quando comparado aos controles. Foi observado tambem que animais NOD2-/- tiveram uma reducao da populacao de linfocitos Th17, Tc17, Th1 e T citotoxicos nos linfonodos pancreaticos, o que correlaciona com a inibicao da producao de IL-23p19 e IFN- no pancreas. Em paralelo, foi evidenciado o aumento do numero de celulas T reguladoras, macrofagos do perfil M2 nos linfonodos pancreaticos e elevada producao de IL-10 no pancreas de animais NOD2-/-. Alem disso, foi observado que animais NOD2-/- apresentaram uma menor populacao de linfocitos T duplo-positivos (Foxp3+RORt+ e IL-17+IFN+). Posteriormente, foi detectado menor producao de IL- 1, IL-6, IL-23p19 e IL-12p40 por celulas dendriticas de animais deficientes de NOD2. De forma interessante, foi observada a translocacao de bacterias para os linfonodos pancreaticos de animais diabeticos. Adicionalmente, animais tratados com antibioticos tornaram-se resistentes ao DM1, o que nos fornece indicios da contribuicao da microbiota intestinal na inducao da doenca. Por fim, comprovamos alta expressao genica de NOD2 nos linfonodos pancreaticos e no pancreas na fase inicial (pre-diabetica) em outro modelo de DM1, utilizando camundongos NOD (nonobese diabetic mice). Portanto, nossos dados indicam que a ativacao do receptor NOD2 por componentes bacterianos da microbiota intestinal induz a producao de citocinas pro-inflamatorias com subsequente diferenciacao/conversao de linfocitos do perfil Th17/Th1 e progressao do DM1. Dessa forma, estes dados apontam o bloqueio do receptor NOD2 como uma potencial terapia imunomoduladora para o DM1 em humanos. / Type 1 diabetes is an autoimmune disease that precipitates due to defects in the self tolerance to auto- antigens, resulting in the autoimmune destruction of the pancreatic cells in genetically susceptible individuals. NOD-like (NLRs) receptors are intracellular receptors responsible for the recognition of pathogen associated molecular patterns (PAMPs) and damage associated molecular patterns (DAMPs). Recent studies have shown a role of NOD1 and NOD2 receptors in the innate immune response against pathogens and in the adaptive immune response, since its activation leads to the generation of cytokines related to the differentiation of IL-17-producing T helper cells (Th17). However, the role of these receptors in T1D remains elusive. Therefore, we investigated the role of NOD1 and NOD2 receptors in the pathogenesis of T1D, focusing on the differentiation of Treg/Th1/Th17 lymphocytes and in the plasticity of these subtypes. Our data demonstrate that NOD2-/- mice, but not NOD1-/- or RIP2-/-, are resistant to T1D, as shown by the lower incidence, hyperglycemia, less insulitis and normal insulin production when compared to wild type mice. It was also observed that NOD2-/- mice have a reduction in the Th17, Tc17, Th1 and cytotoxic T lymphocyte population within the pancreatic lymph nodes (PLNs), which correlates with the inhibition of IL-23p19 and IFN production in the pancreas. In parallel, there was an increase in Treg cells, M2 macrophages in the PLNs and IL-10 production in the pancreatic tissue of NOD2-/- mice. Also, NOD2-/- mice presented a downregulation of Foxp3+RORt+ and IL-17+IFN+ double-positive T cells. Later, it was shown that IL-1, IL-6, IL-23p19 and IL-12p40 production was downregulated in mice deficient to the NOD2 receptor. Interestingly, we observed a bacterial translocation to the pancreatic lymph nodes in diabetic mice, what could be triggering NOD2 activation, thus contributing to T1D development. As expected, mice pre-treated with antibiotics failed to become diabetic, suggesting a possible role of the gut microbiota in the development of the disease. Lastly, we observed a higher relative expression of NOD2 in the PLNs and pancreas of pre-diabetic mice, using another mouse model of the disease, the nonobese diabetic (NOD) mouse. Collectively, our data suggest that components from the gut microbiota are capable of translocating to the PLNs, thus triggering the activation of NOD2, which in turn induces the production of proinflammatory cytokines related to the differentiation of Th1/Th17 cells, thus contributing to T1D development in a mouse model of the disease. Therefore, the blockade of NOD2 appears as an interesting therapeutical target in the treatment of type 1 diabetes in humans.

Balanco Treg/Th17/Th1

Diabetes tipo 1

Macrofagos M1 e M2

Microbiota

NOD2

Gut Microbiota

M1 and M2 macrophages

NOD2

Treg/Th1/Th17 balance

Type 1 Diabetes

THE ROLE OF MYELOID GSK3α/β IN ATHEROSCLEROSIS AND ATHEROSCLEROTIC REGRESSION / GSK3α/β IN ATHEROSCLEROSIS

PATEL, SARVATIT

January 2022

Atherosclerosis is a major underlying cause of cardiovascular disease; however, the molecular mechanisms by which cardiovascular risk factors promote the development of atherosclerosis are poorly understood. Recent evidence from our laboratory suggests that endoplasmic reticulum (ER) stress signaling through glycogen synthase kinase (GSK)-3α/β is involved in the activation of pro-atherosclerotic processes. Previous studies from our lab show that myeloid-specific deletion of GSK3α attenuates the progression of atherosclerosis. However, the precise role(s) of GSK3α/β in atherosclerotic regression is not known. The primary goal of this thesis is to investigate the role(s) of GSK3α/β in lesional macrophages and atherosclerotic regression. Initially, we have targeted the ER stress- GSK3α/β pathway by supplementing the drinking water of low-density lipoprotein receptor (Ldlr)-/- mice with the small molecules 4-phenylbutyric acid or valproate. The results suggest that ER stress or GSK3α/β inhibition can attenuate the growth of existing atherosclerotic lesions and appear to increase lesion stability. From this study it remains unclear whether these interventions can promote atherosclerotic regression. Next, to investigate the role(s) of GSK3α/β in pro-atherogenic processes, bone marrow derived macrophages were isolated from myeloid-specific GSK3α- and/or GSK3β-deficient mice. The effects of GSK3α/β-deficiency on signaling pathways regulating atherogenic functions in macrophage were analyzed. This study revealed that GSK3α and GSK3β play distinct, and often opposing roles in macrophage polarization, inflammatory response, lipid accumulation and migration. Furthermore, both GSK3α and GSK3β appear to play redundant roles macrophage viability, proliferation, and metabolism. Lastly, we investigated the effect of macrophage-specific deletion of GSK3α and/or GSK3β on atherosclerotic regression in Ldlr−/− mice. A novel inducible knock out mouse model has been created in which GSK3α and/or GSK3β expression can be ablated by treating the mice with tamoxifen. These mice were fed a high fat diet to promote the development of atherosclerosis, and then mice were treated with tamoxifen to induce GSK3α/β deletion and switched to a chow diet for 12 weeks. All mice were sacrificed at 33 weeks of age and atherosclerotic plaques were analysed. Female mice with induced macrophage-specific GSK3α deficiency, but not GSK3β deficiency, showed regression of existing atherosclerotic lesions. Together, these studies begin to delineate the specific roles of GSK3α and GSK3β in atherosclerotic regression. Furthermore, these data suggest that GSK3α inhibition could be an effective strategy for the treatment of atherosclerotic cardiovascular disease. / Thesis / Doctor of Philosophy (PhD) / Atherosclerosis is a disease involving the build-up of fatty plaques in the arteries, making them hard and narrow, which leads to damage in the heart, coronary or peripheral blood vessels. This can cause acute cardiovascular complications (heart attacks or stroke) and potentially death. We suspect that protein named glycogen synthase kinase (GSK)-3α/β is involved in the development of atherosclerosis. The purpose of this research is to see if we can treat atherosclerosis by blocking GSK3α/β’s functions. The findings of this study demonstrate that blocking GSK3α reduces inflammation, which is a primary cause of atherosclerosis. Furthermore, blocking GSK3α promotes the regression of atherosclerotic plaques and may lower the risk of cardiovascular disease. This knowledge could aid in the development of medications to treat atherosclerosis and reduce the number of individuals who die from heart attacks or strokes.

Atherosclerosis

Glycogen Synthase Kinase (GSK)-3α/β

Inflammation

Macrophages

Mice Model

Regression

Macrophage polarization

Macrophage function

Bone marrow derived macrophages

M1 and M2 macrophages

Macrófagos M1 e M2 e sua relação com a angiogênese em carcinomas espinocelulares orais afetando pacientes jovens e idosos / M1 and M2 macrophages and their relation with angiogenesis in oral squamous cell carcinoma affecting young and elderly patients

Teixeira, Lucas Ribeiro

15 March 2019

O carcinoma espinocelular oral (CECO) corresponde a aproximadamente 95% das neoplasias malignas que acometem a cavidade oral. Os fatores de risco clássicos incluem o tabagismo e etilismo; no entanto, as disfunções do sistema imune em decorrência do envelhecimento (imunossenescência) na patogênese do CECO são muito pouco estudados. Análises comparativas vêm sendo feitas para melhor caracterização do perfil de pacientes jovens e idosos acometidos pelo CECO, o qual permanece ainda controverso. Vários estudos têm mostrado que os macrófagos associados ao tumor (MATs) no CECO de pacientes idosos exibem um fenótipo M2 (pró-tumoral), com propriedades moduladoras do estroma vascular, promovendo a angiogênese. No entanto, considerando a imunossenescência, não se sabe o perfil de MATs e seus efeitos na angiogenese no CECO afetando pacientes jovens. Assim, este estudo analisou por meio da técnica imunoistoquímica, a frequência e localização de MATs em correlação com a angiogênese, no CECO, afetando pacientes jovens e idosos. Cinquenta e sete biópsias de CECO divididos em 3 grupos (I: <40 anos [n=17]; II: 40-65 anos [n=20]; III: >65 anos [n=20]) foram selecionados para compor o estudo, sendo classificados morfologicamente seguindo às recomendações da OMS (2017). Os grupos I, II e III foram comparados quanto à imunoexpressão de CD68 e CD163 para análise de MATs e de CD34 (vasos sanguíneos) e D2-40 (vasos linfáticos) para avaliação da densidade microvascular (DMV), área microvascular (AMV) e área vascular total (AVT). A análise imunoistoquímica evidenciou similar expressão de CD68 e CD163 nos três grupos (p>0,05). A avaliação da DMV, AMV e AVT sanguínea e linfática também exibiu padrões similares, com predominância significativa (p<0.05) de vasos sanguíneos, nos três grupos analisados. Não houve correlação significativa quando avaliados marcadores macrofágicos e angiogênicos. Nossos resultados mostram um similar perfil de MATs e angiogênese quando comparados os três grupos estudados, sugerindo participação de mecanismos moleculares do microambiente tumoral na manutenção da predominância de macrófagos M2 e vasos sanguíneos no CECO afetando pacientes jovens e idosos / Oral squamous cell carcinoma (OSCC) corresponds to approximately 95% of all cases of oral cavity malignancies. The classic risk factors include smoking and alcoholism; however, immune system dysfunctions due to aging (immunoscencence) in OSCC pathogenesis are poorly studied. Comparative analyzes have been made to better characterize the profile of young and old patients affected by the OSCC, which remains controversial. Several studies have shown that tumor-associated macrophages (TAMs) in OSCC of elderly patients exhibit a pro-tumoral M2 phenotype, with vascular stroma modulating properties, promoting angiogenesis. However, considering immunoscencence, the profile of TAMs and their effects on angiogenesis in OSCC affecting young patients is unknown. Thus, this study analyzed by immunohistochemical technique, the frequency and location of TAMs in correlation with angiogenesis in OSCC affecting young and elderly patients. Fiftyseven biopsies were divided into three groups (I: <40 years [n=17]; II: 40-65 years [n=20]; III: > 65 years [n=20]) and selected to compose this study, being classified morphologically following WHO (2017) recommendations. Groups I, II and III were compared for immunoexpression of CD68 and CD163 for analysis of TAMs, and CD34 (blood vessels) and D2-40 (lymphatic vessels) for evaluation of microvessel density (MVD), microvascular area (MVA) and total vascular area (TVA). Immunohistochemical analysis showed similar expression of CD68 and CD163 in the three groups (p>0.05). The evaluation of blood and lymphatic MVD, MVA and TVA also showed similar patterns, with a significant predominance (p<0.05) of blood vessels in the three groups analyzed. There was no significant correlation when evaluating macrophage and angiogenic markers. Our results show a similar profile of TAMs and angiogenesis when compared to the three groups studied, suggesting participation of molecular mechanisms of the tumor microenvironment in the maintenance of M2-polarized macrophages and blood vessels in OSCC affecting young and elderly patients

Angiogênese linfática

Angiogênese vascular

Câncer oral

Carcinoma espinocelular

Idosos

Immunoscencence

Imunoistoquí

Imunoscenescência

Jovens

lymphatic angiogenesis , Immunohis

M1 and M2 macrophages

Macrófagos M1 e M2

Oral cancer

Squamous cell carcinoma

Vascular angiogenesis

Young , Elderly