Polarização M1 e M2 da linhagem U-937 de macrófagos em meio de soro de pacientes com transtorno bipolar

Ferrari, Pâmela

January 2016

O Transtorno Bipolar (TB) é uma doença psiquiátrica grave, altamente incapacitante que está associada com diversas comorbidades médicas e altas taxas de suicídio. Embora sua fisiopatologia não esteja completamente elucidada, inúmeros estudos têm mostrado alterações no sistema imune de indivíduos com TB. A resposta crônica destes indivíduos ao estresse parece gerar um aumento da inflamação sistêmica bem como da neuroinflamação. A micróglia ativada devido aos estímulos inflamatórios contínuos deve ocasionar diferentes prejuízos tanto bioquímicos quanto funcionas. Os macrófagos, primeira linha de defesa, são células de característica plástica de extrema importância do sistema imune e podem ser estimulados a polarizar para diferentes formas com liberação de fatores pró e antiinflamatórios, estimulando ou mantendo a homeostase no ambiente agredido de alguma forma. Desta forma, nosso trabalho buscou investigar a resposta fenotípica dos macrófagos contra o meio ambiente pró-inflamatório sistêmico observado no plasma de pacientes bipolares eutímicos, maníacos e depressivos em comparação aos controles. A amostra incluiu 5 controles saudáveis, 8 pacientes bipolares remetidos, 5 pacientes maníacos e 5 pacientes depressivos. As citocinas e quimiocinas de RNAm em células U937 tratadas com plasma mostraram um padrão de expressão diferente relativo entre controles saudáveis e pacientes com TB. As citoquinas inflamatórias tais como IL-1β e TNF-α, em pacientes bipolares maníacos e depressivos demonstram maiores quantidades de IL-1β mRNA do que os pacientes eutímicos e pacientes depressivos induziram maiores quantidades de RNAm de TNF-α do que os pacientes eutímicos em células U937. Já a expressão das quimiocinas CXCL9 e CXCL10 no plasma de pacientes com TB depressivos, demostraram ser de menor expressão significativa no grupo de pacientes maníacos quando comparados a controles e pacientes bipolares eutímicos. Nossos resultados sugerem que as citocinas periféticas devem modular a polarização M1 ou M2 de macrófagos no TB. / Bipolar Disorder (BD) is a severe and highly incapacitating psychiatric disorder which is associated with the presence of medical comorbidities. The progression of BD is related to an important cognitive deficit and also to biological and clinical manifestations that lead to treatment resistance and worse prognosis. Immune disturbances have been widely observed and investigated in BD patients. Chronic inflammatory responses induce neuroinflammation, mainly by pro-inflammatory microglial activation, and result in biochemical and functional impairment. Macrophages are the first line of defense of the immune system and exhibit cell plasticity. As well, microglia represents the resident macrophage of the central nervous system been responsible for its protection. Both cells can be stimulated to polarize into two different phenotypes, mainly pro- and anti-inflammatory, maintaining the homeostasis under physiologic and pathologic conditions. Therefore, we aimed to investigate macrophages phenotypical response when submitted to BD patients plasma in different episodes, which is considered a pro-inflammatory environment, and healthy controls plasma. Subjects included healthy controls (n=5), remitted BD patients (n=8), manic patients (n=5) and depressive patients (n=5). The mRNA expression of chemokynes and cytokines from U937 cells treated with BD patients plasma were different from those submitted to healthy controls plasma. Higher mRNA expression of IL-1β was observed in those cells submitted to manic and depressive BD patients plasma when compared to euthymic patients. Also, depressive BD patients plasma induced higher expression of TNF-α compared to euthymic patients. However, chemokynes expression, such as CXCL9 and CXCL10, were reduced in depressive BD patients. However, chemokynes expression, such as CXCL9 and CXCL10, were reduced in depressive BD patients. Inflammatory cytokines such as IL-1β and TNF-α in bipolar manic and depressive patients demonstrate higher amounts of IL-1β mRNA that euthymic patients and depressive patients induced higher amounts of TNF-α mRNA levels than the patients in euthymic U937. Since the expression of CXCL9 and CXCL10 chemokines in plasma from patients with depressive TB, proved less significant expression in the group of manic patients when compared to controls and euthymic bipolar patients.

Transtorno bipolar

Macrófagos

Bipolar disorder

Polarized macrophages

Neuroinflammation

Polarização M1 e M2 da linhagem U-937 de macrófagos em meio de soro de pacientes com transtorno bipolar

Ferrari, Pâmela

January 2016

O Transtorno Bipolar (TB) é uma doença psiquiátrica grave, altamente incapacitante que está associada com diversas comorbidades médicas e altas taxas de suicídio. Embora sua fisiopatologia não esteja completamente elucidada, inúmeros estudos têm mostrado alterações no sistema imune de indivíduos com TB. A resposta crônica destes indivíduos ao estresse parece gerar um aumento da inflamação sistêmica bem como da neuroinflamação. A micróglia ativada devido aos estímulos inflamatórios contínuos deve ocasionar diferentes prejuízos tanto bioquímicos quanto funcionas. Os macrófagos, primeira linha de defesa, são células de característica plástica de extrema importância do sistema imune e podem ser estimulados a polarizar para diferentes formas com liberação de fatores pró e antiinflamatórios, estimulando ou mantendo a homeostase no ambiente agredido de alguma forma. Desta forma, nosso trabalho buscou investigar a resposta fenotípica dos macrófagos contra o meio ambiente pró-inflamatório sistêmico observado no plasma de pacientes bipolares eutímicos, maníacos e depressivos em comparação aos controles. A amostra incluiu 5 controles saudáveis, 8 pacientes bipolares remetidos, 5 pacientes maníacos e 5 pacientes depressivos. As citocinas e quimiocinas de RNAm em células U937 tratadas com plasma mostraram um padrão de expressão diferente relativo entre controles saudáveis e pacientes com TB. As citoquinas inflamatórias tais como IL-1β e TNF-α, em pacientes bipolares maníacos e depressivos demonstram maiores quantidades de IL-1β mRNA do que os pacientes eutímicos e pacientes depressivos induziram maiores quantidades de RNAm de TNF-α do que os pacientes eutímicos em células U937. Já a expressão das quimiocinas CXCL9 e CXCL10 no plasma de pacientes com TB depressivos, demostraram ser de menor expressão significativa no grupo de pacientes maníacos quando comparados a controles e pacientes bipolares eutímicos. Nossos resultados sugerem que as citocinas periféticas devem modular a polarização M1 ou M2 de macrófagos no TB. / Bipolar Disorder (BD) is a severe and highly incapacitating psychiatric disorder which is associated with the presence of medical comorbidities. The progression of BD is related to an important cognitive deficit and also to biological and clinical manifestations that lead to treatment resistance and worse prognosis. Immune disturbances have been widely observed and investigated in BD patients. Chronic inflammatory responses induce neuroinflammation, mainly by pro-inflammatory microglial activation, and result in biochemical and functional impairment. Macrophages are the first line of defense of the immune system and exhibit cell plasticity. As well, microglia represents the resident macrophage of the central nervous system been responsible for its protection. Both cells can be stimulated to polarize into two different phenotypes, mainly pro- and anti-inflammatory, maintaining the homeostasis under physiologic and pathologic conditions. Therefore, we aimed to investigate macrophages phenotypical response when submitted to BD patients plasma in different episodes, which is considered a pro-inflammatory environment, and healthy controls plasma. Subjects included healthy controls (n=5), remitted BD patients (n=8), manic patients (n=5) and depressive patients (n=5). The mRNA expression of chemokynes and cytokines from U937 cells treated with BD patients plasma were different from those submitted to healthy controls plasma. Higher mRNA expression of IL-1β was observed in those cells submitted to manic and depressive BD patients plasma when compared to euthymic patients. Also, depressive BD patients plasma induced higher expression of TNF-α compared to euthymic patients. However, chemokynes expression, such as CXCL9 and CXCL10, were reduced in depressive BD patients. However, chemokynes expression, such as CXCL9 and CXCL10, were reduced in depressive BD patients. Inflammatory cytokines such as IL-1β and TNF-α in bipolar manic and depressive patients demonstrate higher amounts of IL-1β mRNA that euthymic patients and depressive patients induced higher amounts of TNF-α mRNA levels than the patients in euthymic U937. Since the expression of CXCL9 and CXCL10 chemokines in plasma from patients with depressive TB, proved less significant expression in the group of manic patients when compared to controls and euthymic bipolar patients.

Transtorno bipolar

Macrófagos

Bipolar disorder

Polarized macrophages

Neuroinflammation

Polarização M1 e M2 da linhagem U-937 de macrófagos em meio de soro de pacientes com transtorno bipolar

Ferrari, Pâmela

January 2016

O Transtorno Bipolar (TB) é uma doença psiquiátrica grave, altamente incapacitante que está associada com diversas comorbidades médicas e altas taxas de suicídio. Embora sua fisiopatologia não esteja completamente elucidada, inúmeros estudos têm mostrado alterações no sistema imune de indivíduos com TB. A resposta crônica destes indivíduos ao estresse parece gerar um aumento da inflamação sistêmica bem como da neuroinflamação. A micróglia ativada devido aos estímulos inflamatórios contínuos deve ocasionar diferentes prejuízos tanto bioquímicos quanto funcionas. Os macrófagos, primeira linha de defesa, são células de característica plástica de extrema importância do sistema imune e podem ser estimulados a polarizar para diferentes formas com liberação de fatores pró e antiinflamatórios, estimulando ou mantendo a homeostase no ambiente agredido de alguma forma. Desta forma, nosso trabalho buscou investigar a resposta fenotípica dos macrófagos contra o meio ambiente pró-inflamatório sistêmico observado no plasma de pacientes bipolares eutímicos, maníacos e depressivos em comparação aos controles. A amostra incluiu 5 controles saudáveis, 8 pacientes bipolares remetidos, 5 pacientes maníacos e 5 pacientes depressivos. As citocinas e quimiocinas de RNAm em células U937 tratadas com plasma mostraram um padrão de expressão diferente relativo entre controles saudáveis e pacientes com TB. As citoquinas inflamatórias tais como IL-1β e TNF-α, em pacientes bipolares maníacos e depressivos demonstram maiores quantidades de IL-1β mRNA do que os pacientes eutímicos e pacientes depressivos induziram maiores quantidades de RNAm de TNF-α do que os pacientes eutímicos em células U937. Já a expressão das quimiocinas CXCL9 e CXCL10 no plasma de pacientes com TB depressivos, demostraram ser de menor expressão significativa no grupo de pacientes maníacos quando comparados a controles e pacientes bipolares eutímicos. Nossos resultados sugerem que as citocinas periféticas devem modular a polarização M1 ou M2 de macrófagos no TB. / Bipolar Disorder (BD) is a severe and highly incapacitating psychiatric disorder which is associated with the presence of medical comorbidities. The progression of BD is related to an important cognitive deficit and also to biological and clinical manifestations that lead to treatment resistance and worse prognosis. Immune disturbances have been widely observed and investigated in BD patients. Chronic inflammatory responses induce neuroinflammation, mainly by pro-inflammatory microglial activation, and result in biochemical and functional impairment. Macrophages are the first line of defense of the immune system and exhibit cell plasticity. As well, microglia represents the resident macrophage of the central nervous system been responsible for its protection. Both cells can be stimulated to polarize into two different phenotypes, mainly pro- and anti-inflammatory, maintaining the homeostasis under physiologic and pathologic conditions. Therefore, we aimed to investigate macrophages phenotypical response when submitted to BD patients plasma in different episodes, which is considered a pro-inflammatory environment, and healthy controls plasma. Subjects included healthy controls (n=5), remitted BD patients (n=8), manic patients (n=5) and depressive patients (n=5). The mRNA expression of chemokynes and cytokines from U937 cells treated with BD patients plasma were different from those submitted to healthy controls plasma. Higher mRNA expression of IL-1β was observed in those cells submitted to manic and depressive BD patients plasma when compared to euthymic patients. Also, depressive BD patients plasma induced higher expression of TNF-α compared to euthymic patients. However, chemokynes expression, such as CXCL9 and CXCL10, were reduced in depressive BD patients. However, chemokynes expression, such as CXCL9 and CXCL10, were reduced in depressive BD patients. Inflammatory cytokines such as IL-1β and TNF-α in bipolar manic and depressive patients demonstrate higher amounts of IL-1β mRNA that euthymic patients and depressive patients induced higher amounts of TNF-α mRNA levels than the patients in euthymic U937. Since the expression of CXCL9 and CXCL10 chemokines in plasma from patients with depressive TB, proved less significant expression in the group of manic patients when compared to controls and euthymic bipolar patients.

Transtorno bipolar

Macrófagos

Bipolar disorder

Polarized macrophages

Neuroinflammation

Impact des extraits organiques de particules diesel (DEPe) sur la physiologie de macrophages humains polarisés in vitro / Impact of diesel exhaust particle extract (DEPe) on the physiology of in vitro polarized human macrophages

Jaguin, Marie

08 April 2015

Les macrophages (MΦ), des cellules clefs de la réponse immunitaire peuvent répondre à des contaminants environnementaux comme les particules diesel (DEP), des polluants atmosphériques récemment classés cancérigènes pour l'Homme. Les MΦ sont des cellules hétérogènes et plastiques qui s'activent en fonction de leur microenvironnement soit en MΦ M1 (dits classiquement activés ou pro-inflammatoires) sous l'effet de l'INFγ et du LPS soit en MΦ M2 (dits alternativement activés ou réparateurs) sous l'effet de l'IL-4 et/ou de l'IL-13. Les effets des DEP sur la polarisation M1/M2 des MΦ restent peu documentés. Nous avons dans un premier temps caractérisé l'expression des marqueurs des MΦ différenciés in vitro en présence de M-CSF à partir de monocytes humains et polarisés en sous-type M1 ou M2. Nos principaux résultats montrent que les MΦ différenciés au M-CSF considérés comme des MΦ anti-inflammatoires, sont en réalité capables de s'activer vers un phénotype M1 après une stimulation au LPS/IFNγ. De plus, les marqueurs mis en évidence au cours de ce travail ont permis d'évaluer l'impact d'extraits organiques de DEP (DEPe) sur la polarisation des MΦ et plus généralement sur leur physiologie. Les DEPe altèrent l'expression de certains marqueurs M1 et M2 des MΦ, sans toutefois provoquer d'inhibition globale des processus de polarisation M1 et M2 ou de transition d'un phénotype vers un autre. Cette altération du phénotype est associée à une diminution de la réponse inflammatoire LPS-dépendante dans les MΦ M1 et des capacités chimiotactiques des MΦ M2. Les DEPe diminuent la sécrétion de certaines cytokines et chimiokines comme l'IL-6, l'IL-12p40 et le CCL18 via l'activation d'AhR et/ou de Nrf2. Parallèlement, nous montrons que les MΦ M1 et M2 exposés aux DEPe sécrètent le platelet deried growth factor B (PDGF-B), un facteur de croissance profibrosant, via l'activation d'AhR en quantité suffisante pour stimuler la prolifération de fibroblastes pulmonaires. Au total, ces travaux démontrent que les DEP possèdent des propriétés immunotoxiques vis-à-vis de la physiologie des macrophages humains polarisés in vitro. Cette immunotoxicité pourrait participer aux effets délétères de ces contaminants environnementaux urbains sur la santé humaine. / Macrophages (MΦ), well-known to play a key role in immune response, also respond to environmental toxic chemicals such as diesel exhaust particles (DEP), an air pollutant recently classified as carcinogenic to humans. MΦ are heterogeneous and plastic cells which activate according to their microenvironment into either an M1 subtype (so called classically activated or pro-inflammatory) under IFNγ and LPS stimulation or an M2 subtype (so called alternatively activated or anti-inflammatory) under IL-4 and/or IL-13 stimulation. However, potential effects of DEPs on M1/M2 MΦ polarization remain poorly documented. First, we characterized the expression marker of in vitro M-CSF-differentiated MΦ from human monocytes and activated into the M1 or M2 subtypes. Our main results show that M-CSF-generated MΦ considered as anti-inflammatory are actually able to switch to an M1 phenotype after IFNγ/LPS stimulation. Furthermore, the markers identified in this study were used to assess the impact of organic extracts of DEP (DEPe) on MΦ polarization and more generally on their physiology. DEPe alter some M1 and M2 markers expressed by polarized MΦ, without causing the overall inhibition of the M1 and M2 polarization process or the switch to a different phenotype. This phenotype alteration is associated with a decrease in the LPS-dependent inflammatory response in M1 MΦ and the chemotactic capacities in M2 MΦ. DEPe decrease the secretion of some cytokines and chemokines such as IL-6, IL-12p40 and CCL18 via AhR and/or Nrf2 activation. At the same time, we show that M1 and M2 MΦ in response to DEPe are able to secrete a sufficient level of a pro-fibrotic growth factor, the platelet derived growth factor B (PDGF-B) via AhR activation, leading to stimulation of lung fibroblast proliferation. Finally, these works show that DEPe have immunotoxic properties with regards to the physiology of human in vitro polarized MΦ. This immunotoxicity may then contribute to the deleterious effects of these urban environmental contaminants on human health.

Particules diesel

Macrophages polarisés

Fibroblastes pulmonaires

Immunité

Toxicité

M-Csf

AhR

Nrf2

Pdgf-B

Pollution atmosphérique

Diesel particle

Polarized macrophages

Lung fibroblasts

Immunity

Toxicity

M-Csf

AhR

Nrf2

Pdgf-B

Air pollution