Targeting Inflammation to Reduce Secondary Injury after Hemorrhagic Stroke

Wasserman, Jason

01 August 2008

Intracerebral hemorrhage (ICH) is a devastating form of stroke that results from rupture of a blood vessel in the brain. Tissue inside the hematoma is irreversibly damaged soon after ICH onset and when this thesis research began, there was a dearth of information regarding pathological changes outside the hematoma. Inflammation is often proposed as a mechanism of injury, but very little information was available to show that inflammatory cells were in the right place at the right time to cause secondary brain injury. Using the collagenase-induced model of ICH, this work sought to better define spatial and temporal relationships between secondary brain injury and the inflammatory response after ICH. To test the hypothesis that reducing inflammation can protect the brain from secondary injury, minocycline, an antibiotic with established anti-inflammatory effects, was administered 6 hours after ICH onset. A small number of neurons die in the parenchyma bordering the hematoma between 6 hours and 3 days after ICH onset. This area was not associated with neutrophil infiltration, and most activated microglia/macrophages did not accumulate until after most neuron death had occurred. Despite a pronounced microglial response and prolonged increase in expression of many inflammatory genes, including complement receptor-3, interleukin-1 beta, interleukin-6, and interleukin-1 converting enzyme, no dying neurons were observed further outside the hematoma at any time. Interestingly, less early neuron death was observed in aged than in young animals, without a concomitant difference in the amount of tissue lost at 28 days. However, aged animals had less early microglial activation and a larger residual lesion, which might have resulted from impaired phagocytosis by activated microglia/macrophages. Minocycline was less effective in reducing microglial activation in aged animals, and did not reduce neuron death in either young or aged animals. Edema and BBB disruption was associated with degradation of the basal lamina protein, collagen type IV, and that damaged vessels are associated with tumor necrosis factor-alpha (TNFα)-positive neutrophils and active matrix metalloprotease-12 (MMP-12), all of which were reduced by delayed minocycline treatment. In contrast to ischemic stroke, there is a limited ‘penumbra’ outside the hematoma. Nevertheless, BBB damage in this region appears to be a potential target for protection. Furthermore, the prominent inflammatory response that continues for days after ICH does not appear to be associated with damage to other areas of the brain. Minocycline appears to protect the BBB by reducing neutrophil infiltration and the MMP-12 mediated basal lamina degradation. Future studies should investigate other targets for protection (i.e., white matter injury), and seek drugs that modulate the inflammatory response in aged animals and promote lesion resolution.

intracerebral hemorrhage

stroke

microglia

astrocytes

neutrophils

cytokines

neuroinflammation

aging

0317

Defining a Model of Classical Activation in Microglia

Kena-Cohen, Veronique

24 February 2009

Microglia, the resident immune cells of the central nervous system, can become activated following injury, disease, or infection. In vitro, they can be activated by stimuli, which determine the inflammatory phenotype they will develop. In this thesis, stimulating microglia with tumor necrosis factor- and interferon- resulted in classical activation, characterized by proliferation, increased transcription of complement receptor 3 and major histocompatibility class II molecules, and elevated production and transcription of interleukin-1 and nitric oxide. Stimulation with TNF and IFN also changed the intensity of phosphorylated (activated) cyclic adenosine monophosphate response element binding protein immunoreactivity in microglia. Specifically, cells differentiated into populations with high or low pCREB intensity. This was the first example of such a response in microglia and was representative of what occurred in vivo, after ICH. Thus, the characterization of this model will be useful for future studies of this and other intracellular pathways of classically activated microglia.

Neuroinflammation

Microglia

Cytokine

cAMP Response Element Binding Protein

0719

Altered cell signaling linked to neurodegeneration : Studies on scrapie-infected neuroblastoma cells and activated microglia

Svensson, Christina

January 2011

Prion diseases are neurodegenerative disorders that can affect humans and animals. The underlying event is a conformational change of the normal cellular prion protein (PrPC) into an aberrant isoform termed PrP-scrapie (PrPSc). PrPSc is thought to lead to neurodegeneration and activation of glial cells. Scrapie infection of neuroblastoma cells was shown to increase the expression of insulin receptor (IR). Additionally, a marked reduction of 125I-insulin binding sites was observed. Insulin stimulation showed alteration in both IR β-subunit tyrosine phosphorylation and extracellular signal regulated kinase-2 (ERK2) activity.  Furthermore, scrapie infection was shown to increase insulin-like growth factor-1(IGF-1) receptor (IGF-1R) expression, although the number of 125I-IGF-1-binding sites was reduced. Also binding affinity of 125I-IGF-1 to its receptor was reduced, and tyrosine phosphorylation of IGF-1R-β-subunit in response to IGF-1 was altered. The increased levels of neurotrophic receptors might represent a neuroprotective response to prion infection. However, scrapie infection instead leads to decreased function, decreased levels of functional receptors, or both, which could promote neurodegeneration in prion diseases, through attenuated neurotrophic support. In BV-2 microglial cells, LPS-induced iNOS (inducible nitric oxide synthase) expression and subsequent NO production were mainly mediated through c-Jun N-terminal kinase (JNK) mitogen-activated protein kinase (MAPK) pathway. Antioxidant treatment indicates that oxidative suppressing mechanism(s) acts on JNK pathway possibly as a regulatory mechanism controlling the NO levels. The JNK pathway was also shown to play an important role in the survival of BV-2 cells. We show that BV-2 cells are protected from ongoing apoptosis by pro-survival activity mediated both by the JNK and p38 MAPK pathway during LPS-induced inflammation. This is very interesting findings since it is important for microglia to respond properly to a pathogen, without themselves being affected and undergo apoptosis.

Prion disease

Inflammation

MAPK

Microglia activation

Neuroblastoma

Neurochemistry

Neurokemi

Interactions between mouse CNS cells: microglia and neural precursor cells /

Aarum, Johan,

January 2004

Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.

Cell interactions in the CNS and their consequences for neuronal apoptosis /

Berglund, Mikaela,

January 2005

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2005. / Härtill 4 uppsatser.

Immune modulation on retinal ganglion cell survival in experimental glaucoma

Chiu, Kin,

January 2008

Thesis (Ph. D.)--University of Hong Kong, 2008. / Includes bibliographical references (p. 193-221) Also available in print.

Consequences of differential macrophage activation after spinal cord trauma

Longbrake, Erin Elisabeth,

January 2007

Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 137-169).

The effects of amylin on the clearance and aggregation of amyloid beta in BV-2 microglia cell culture

Leung, Lorene Chung

02 November 2017

Alzheimer’s disease (AD) is a neurodegenerative disease with characteristic amyloid, neurofibrillary tangles, and neuronal death in the brain. The major component of amyloid is monomeric amyloid beta (Aβ) protein, as well as its oligomers and large fibrils. Aβ, especially oligomeric Aβ, causes neurotoxicity. The aim of the present study was to investigate how Aβ is metabolized in the presence of microglia cells. We have used a cellular model to study the phagocytosis and degradation of Aβ by BV-2, a murine microglia cell line. We also examined if amylin, a pancreatic peptide, influences the metabolism of Aβ by BV-2 cells. Through Western blot analysis, we observed the phagocytosis of Aβ by BV-2 cells. In our investigation of the role of amylin, we observed a trend in our finding that amylin increased phagocytosis in BV-2 cells and decreased aggregation in the culture medium. Our data demonstrate that amylin may modulate microglia function in the AD brain and has potential to become therapeutic for the disease.

Cellular biology

Alzheimer's disease

Amyloid beta

Cell culture

Microglia

O papel da polarização de macrófagos no transtorno bipolar

Ascoli, Bruna Maria

January 2017

A disfunção do sistema imune inato e a neuroinflamação tem sido cada vez mais reconhecidas como elementos importantes na fisiopatologia do transtorno bipolar (TB). Como componentes essenciais da imunidade inata, os macrófagos tem múltiplas funções tanto na inibição como na promoção da proliferação celular e na reparação tecidual, sendo a diversidade e a plasticidade características marcantes deste tipo celular. A polarização M1 clássica e a polarização alternativa M2 de macrófagos representam dois extremos de um estado dinâmico na mudança da ativação dos mesmos. Os macrófagos do tipo M1 sintetizam citocinas próinflamatórias que inibem a proliferação de células circundantes e danificam tecidos, enquanto os macrófagos do fenótipo M2 liberam citocinas antiinflamatórias que podem promover reparo tecidual. Um desequilíbrio da polarização M1-M2 dos macrófagos é frequentemente associado a várias doenças ou condições inflamatórias. O objetivo desta tese foi, além de revisar a importância da inflamação sistêmica na modulação da resposta inflamatória da microglia/macrófagos e consequentemente seu potencial envolvimento na fisiopatologia do TB, avaliar o perfil de polarização M1/M2 em cultura de macrófagos de sujeitos com TB comparados a indivíduos saudáveis. Monócitos foram isolados a partir de sangue periférico de dez sujeitos com TB e dez indivíduos saudáveis e diferenciados em macrófagos através da adição de fator estimulante de colônia de macrófagos (MCSF) ao meio de cultura. Para induzir a polarização M1 ou M2, as culturas foram incubadas com IFN-y e LPS ou IL-4 respectivamente. Após a incubação, recolheram-se os sobrenadantes e mediram-se as citocinas (IL-1β, IL-6, IL-10 e TNF-α) por ensaio multiplex. A secreção das citocinas IL-1β, TNF-α e IL-6 características do protótipo M1 e citocinas IL-10 do protótipo M2 foram semelhantes entre os pacientes e os controles. Utilizou-se a razão TNF-α / IL-10 do fenótipo M1 para refletir o estado inflamatório dos participantes. Não foi observada diferença entre os grupos (p=0,627). Duas hipóteses diferentes poderiam explicar esses resultados: todos os pacientes incluídos neste estudo representam um estágio inicial da doença como evidenciado pela pontuação FAST total inferior a 11. De acordo com o modelo de estadiamento em TB, as alterações biológicas (incluindo a inflamação) parecem estar relacionadas com os episódios de humor e progressão da doença. Juntamente com estudos anteriores, os nossos dados sugerem que os pacientes nos estágios iniciais ainda preservam a função do sistema imunológico sem apresentar um desequilíbrio a favor do perfil de macrófagos M1 como tem sido observado em pacientes no estágio tardio, destacando a relevância da intervenção precoce no TB. Ainda, estes pacientes estavam em tratamento com estabilizadores de humor e é plausível especular que esses fármacos exerçam efeitos sobre a polarização de macrófagos. Estudos futuros em pacientes drug-free são essenciais para avaliar esta questão. Em conclusão, nossos achados sugerem que os pacientes TB não apresentam desequilíbrio na polarização dos macrófagos em favor do fenótipo pró-inflamatório M1. O fato de todos estes pacientes estarem em estágios iniciais da doença reforça os efeitos protetores da intervenção precoce no TB na prevenção de alterações do sistema imune e, consequentemente, na progressão da doença. / Innate immune system dysfunction and neuroinflammation have been recognized as important elements in the pathophysiology of bipolar disorder (BD). As essential players of innate immunity, macrophages have multiple roles in inhibition and promotion of cell proliferation and tissue repair. The classical M1 polarization and the M2 alternative polarization of macrophages represent two extremes of a dynamic state in their change of activation. M1 macrophages synthesize proinflammatory cytokines that inhibit the proliferation of surrounding cells and damage tissues, whereas macrophages of the M2 phenotype release antiinflammatory cytokines that may promote tissue repair. An imbalance of the M1-M2 polarization of macrophages is often associated with various diseases or inflammatory conditions. The aim of this thesis was to review the importance of systemic inflammation in modulating the inflammatory response of microglia/ macrophages and consequently their potential involvement in the pathophysiology of BD, and also evaluate the M1/M2 polarization profile in macrophages of patients with BD compared to healthy individuals. Blood monocytes were obtained from ten BD patients and ten healthy controls. These cells were activated/polarized into the M1 (IFNγ + LPS) or M2(IL-4) phenotype. Supernatants were collected and the cytokines (IL-1β, IL-6, IL-10 and TNF-α) were measured by multiplex assay. Secretion of the IL- 1β, TNF-α, IL-6 and IL-10 were similar between patients and controls. The TNF-α/IL- 10 ratio of the M1 phenotype was used to reflect the inflammatory state of the participants. There was no difference between groups (p = 0.627). Two hypotheses could explain these results: all patients included in this study represent an early stage of disease as evidenced by the FAST score below 11. According to the BD staging model, biological changes (including inflammation) appear to be related to mood episodes and disease progression. Together with previous studies, our data suggest that patients in early stages of BD still preserve immune system function without presenting an imbalance in favor of M1 macrophages as has been observed in latestage patients, highlighting the relevance of early intervention. Moreover, these patients were under treatment with mood stabilizers and it is plausible to speculate that these drugs have effects on macrophage polarization. Future studies in drug-free patients are essential to assess this issue. In conclusion, our findings suggest that BD patients do not present imbalance in macrophage polarization in favor of the M1 proinflammatory phenotype. The fact that all these patients are in the early stages of the disease reinforces the protective effects of early intervention in BD to prevent changes in the immune system and, consequently, prevent the progression of the disease.

Transtorno bipolar

Macrófagos

Microglia

Bipolar disorder

Inflammation

Macrophage polarization

O papel da polarização de macrófagos no transtorno bipolar

Ascoli, Bruna Maria

January 2017

A disfunção do sistema imune inato e a neuroinflamação tem sido cada vez mais reconhecidas como elementos importantes na fisiopatologia do transtorno bipolar (TB). Como componentes essenciais da imunidade inata, os macrófagos tem múltiplas funções tanto na inibição como na promoção da proliferação celular e na reparação tecidual, sendo a diversidade e a plasticidade características marcantes deste tipo celular. A polarização M1 clássica e a polarização alternativa M2 de macrófagos representam dois extremos de um estado dinâmico na mudança da ativação dos mesmos. Os macrófagos do tipo M1 sintetizam citocinas próinflamatórias que inibem a proliferação de células circundantes e danificam tecidos, enquanto os macrófagos do fenótipo M2 liberam citocinas antiinflamatórias que podem promover reparo tecidual. Um desequilíbrio da polarização M1-M2 dos macrófagos é frequentemente associado a várias doenças ou condições inflamatórias. O objetivo desta tese foi, além de revisar a importância da inflamação sistêmica na modulação da resposta inflamatória da microglia/macrófagos e consequentemente seu potencial envolvimento na fisiopatologia do TB, avaliar o perfil de polarização M1/M2 em cultura de macrófagos de sujeitos com TB comparados a indivíduos saudáveis. Monócitos foram isolados a partir de sangue periférico de dez sujeitos com TB e dez indivíduos saudáveis e diferenciados em macrófagos através da adição de fator estimulante de colônia de macrófagos (MCSF) ao meio de cultura. Para induzir a polarização M1 ou M2, as culturas foram incubadas com IFN-y e LPS ou IL-4 respectivamente. Após a incubação, recolheram-se os sobrenadantes e mediram-se as citocinas (IL-1β, IL-6, IL-10 e TNF-α) por ensaio multiplex. A secreção das citocinas IL-1β, TNF-α e IL-6 características do protótipo M1 e citocinas IL-10 do protótipo M2 foram semelhantes entre os pacientes e os controles. Utilizou-se a razão TNF-α / IL-10 do fenótipo M1 para refletir o estado inflamatório dos participantes. Não foi observada diferença entre os grupos (p=0,627). Duas hipóteses diferentes poderiam explicar esses resultados: todos os pacientes incluídos neste estudo representam um estágio inicial da doença como evidenciado pela pontuação FAST total inferior a 11. De acordo com o modelo de estadiamento em TB, as alterações biológicas (incluindo a inflamação) parecem estar relacionadas com os episódios de humor e progressão da doença. Juntamente com estudos anteriores, os nossos dados sugerem que os pacientes nos estágios iniciais ainda preservam a função do sistema imunológico sem apresentar um desequilíbrio a favor do perfil de macrófagos M1 como tem sido observado em pacientes no estágio tardio, destacando a relevância da intervenção precoce no TB. Ainda, estes pacientes estavam em tratamento com estabilizadores de humor e é plausível especular que esses fármacos exerçam efeitos sobre a polarização de macrófagos. Estudos futuros em pacientes drug-free são essenciais para avaliar esta questão. Em conclusão, nossos achados sugerem que os pacientes TB não apresentam desequilíbrio na polarização dos macrófagos em favor do fenótipo pró-inflamatório M1. O fato de todos estes pacientes estarem em estágios iniciais da doença reforça os efeitos protetores da intervenção precoce no TB na prevenção de alterações do sistema imune e, consequentemente, na progressão da doença. / Innate immune system dysfunction and neuroinflammation have been recognized as important elements in the pathophysiology of bipolar disorder (BD). As essential players of innate immunity, macrophages have multiple roles in inhibition and promotion of cell proliferation and tissue repair. The classical M1 polarization and the M2 alternative polarization of macrophages represent two extremes of a dynamic state in their change of activation. M1 macrophages synthesize proinflammatory cytokines that inhibit the proliferation of surrounding cells and damage tissues, whereas macrophages of the M2 phenotype release antiinflammatory cytokines that may promote tissue repair. An imbalance of the M1-M2 polarization of macrophages is often associated with various diseases or inflammatory conditions. The aim of this thesis was to review the importance of systemic inflammation in modulating the inflammatory response of microglia/ macrophages and consequently their potential involvement in the pathophysiology of BD, and also evaluate the M1/M2 polarization profile in macrophages of patients with BD compared to healthy individuals. Blood monocytes were obtained from ten BD patients and ten healthy controls. These cells were activated/polarized into the M1 (IFNγ + LPS) or M2(IL-4) phenotype. Supernatants were collected and the cytokines (IL-1β, IL-6, IL-10 and TNF-α) were measured by multiplex assay. Secretion of the IL- 1β, TNF-α, IL-6 and IL-10 were similar between patients and controls. The TNF-α/IL- 10 ratio of the M1 phenotype was used to reflect the inflammatory state of the participants. There was no difference between groups (p = 0.627). Two hypotheses could explain these results: all patients included in this study represent an early stage of disease as evidenced by the FAST score below 11. According to the BD staging model, biological changes (including inflammation) appear to be related to mood episodes and disease progression. Together with previous studies, our data suggest that patients in early stages of BD still preserve immune system function without presenting an imbalance in favor of M1 macrophages as has been observed in latestage patients, highlighting the relevance of early intervention. Moreover, these patients were under treatment with mood stabilizers and it is plausible to speculate that these drugs have effects on macrophage polarization. Future studies in drug-free patients are essential to assess this issue. In conclusion, our findings suggest that BD patients do not present imbalance in macrophage polarization in favor of the M1 proinflammatory phenotype. The fact that all these patients are in the early stages of the disease reinforces the protective effects of early intervention in BD to prevent changes in the immune system and, consequently, prevent the progression of the disease.

Transtorno bipolar

Macrófagos

Microglia

Bipolar disorder

Inflammation

Macrophage polarization