Sensitization to Brain Antigens after Stroke is Augmented by Lipopolysaccharide

Becker, Kyra J.; Kindrick, Darin L; Lester, Mark P; Shea, Connor; Ye, Zu‐Cheng

doi:10.1038/sj.jcbfm.9600160

Cited by 113 publications

(164 citation statements)

References 45 publications

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“…The effects of infections in cerebral ischemia have often been tested in experimental models by administration of bacterial lipopolysaccharide at the moment of cerebral ischemia. Lipopolysaccharide increased the likelihood of developing a detrimental autoimmune response to brain antigens with higher presence of B7.1 co-stimulatory molecules on APCs and greater Th1 responses to MBP [123][124][125]. Becker et al [124] also showed that patients who developed an infection after stroke were more likely to show a Th1 response to MBP and glial fibrillary acidic protein, and stronger Th1 responses to MBP were associated to poor functional outcome.…”

Section: Stroke and Infectionmentioning

confidence: 99%

Antigen Presentation After Stroke

et al. 2016

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Section: Stroke and Infectionmentioning

confidence: 99%

Antigen Presentation After Stroke

et al. 2016

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“…The blood-brain barrier disruption and tissue destruction after stroke expose brain epitopes that are normally "invisible" to the immune system. This may induce autoregulatory, anti-inflammatory, and potentially regenerative T-cell responses, 13 or rather prime the immune system to attack the CNS that may be a particular problem in the context of systemic inflammatory response 14 or a second ischemic event. In a mouse model of focal cerebral ischemia we detected increased numbers of myelin oligodendrocyte glycoprotein (MOG) specific T-cells in the spleen, and an increased influx of MOG-specific T-cells into the brain.…”

Section: Does Immunodepression After Stroke Protect the Brain?mentioning

confidence: 99%

Stroke-Induced Immunodepression

Dirnagl

Klehmet

Braun

et al. 2007

Stroke

412

203

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Abstract-Stroke affects the normally well-balanced interplay of the 2 supersystems: the nervous and the immune system.Recent research elucidated some of the involved signals and mechanisms and, importantly, was able to demonstrate that brain-immune interactions are highly relevant for functional outcome after stroke. Immunodepression after stroke increases the susceptibility to infection, the most relevant complication in stroke patients. However, immunodepression after stroke may also have beneficial effects, for example, by suppressing autoaggressive responses during lesioninduced exposure of central nervous system-specific antigens to the immune system. Thus, before immunomodulatory therapy can be applied to stroke patients, we need to understand better the interaction of brain and immune system after focal cerebral ischemia.

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“…In the CNS, LPS induces neuroinflammatory responses including microglial activation, astrogliosis, and focal necrosis (Cai et al, 2003;Herber et al, 2006;Pang et al, 2006;Szczepanik et al, 1996). LPS can also augment sensitization to brain antigens (Becker et al, 2005) and induce cross-tolerance (Rosenzweig et al, 2004) in stroke models. LPS is a pathogen-associated molecular pattern (PAMP) and many of its responses are mediated by Toll-like receptor 4 (TLR4) (Lee and Lee, 2002;Palsson-McDermott and O'Neill, 2004).…”

Section: Introductionmentioning

confidence: 99%

Lipopolysaccharide is a frequent and significant contaminant in microglia‐activating factors

Weinstein

Swarts

Bishop

et al. 2007

Glia

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Lipopolysaccharide (LPS/endotoxin) is a potent immunologic stimulant. Many commercial-grade reagents used in research are not screened for LPS contamination. LPS induces a wide spectrum of proinflammatory responses in microglia, the immune cells of the brain. Recent studies have demonstrated that a broad range of endogenous factors including plasma-derived proteins and bioactive phospholipids can also activate microglia. However, few of these studies have reported either the LPS levels found in the preparations used or the effect of LPS inhibitors such as polymyxin B (PMX) on factor-induced responses. Here, we used the Limulus amoebocyte lysate assay to screen a broad range of commercial-and pharmaceutical-grade proteins, peptides, lipids, and inhibitors commonly used in microglia research for contamination with LPS. We then characterized the ability of PMX to alter a representative set of factor-induced microglial activation parameters including surface antigen expression, metabolic activity/proliferation, and NO/cytokine/chemokine release in both the N9 microglial cell line and primary microglia. Significant levels of LPS contamination were detected in a number of commercial-grade plasma/ serum-and nonplasma/serum-derived proteins, phospholipids, and synthetic peptide preparations, but not in pharmaceutical-grade recombinant proteins or pharmacological inhibitors. PMX had a significant inhibitory effect on the microglia-activating potential of a number of commercial-, but not pharmaceutical-grade, protein preparations. Novel PMX-resistant responses to α 2 -macroglobulin and albumin were incidentally observed. Our results indicate that LPS is a frequent and significant contaminant in commercial-grade preparations of previously reported microgliaactivating factors. Careful attention to LPS levels and appropriate controls are necessary for future studies in the neuroinflammation field.

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Sensitization to Brain Antigens after Stroke is Augmented by Lipopolysaccharide

Cited by 113 publications

References 45 publications

Antigen Presentation After Stroke

Antigen Presentation After Stroke

Stroke-Induced Immunodepression

Lipopolysaccharide is a frequent and significant contaminant in microglia‐activating factors

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