Molecular dialogs between the ischemic brain and the peripheral immune system: dualistic roles in injury and repair

Immune and inflammatory responses actively modulate the pathophysiological processes of acute brain injuries such as stroke. Soon after the onset of stroke, signals such as brain-derived antigens, danger-associated molecular patterns (DAMPs), cytokines, and chemokines are released from the injured b...

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Bibliographic Details
Published in:Progress in neurobiology 2014-04, Vol.115, p.6-24
Main Authors: An, Chengrui, Shi, Yejie, Li, Peiying, Hu, Xiaoming, Gan, Yu, Stetler, Ruth A, Leak, Rehana K, Gao, Yanqin, Sun, Bao-Liang, Zheng, Ping, Chen, Jun
Format: Article
Language:English
Subjects:
Animals
Autonomic Nervous System - immunology
Autonomic Nervous System - physiopathology
Brain - pathology
Brain Ischemia - complications
Brain Ischemia - diagnosis
Brain Ischemia - immunology
Cytokines - metabolism
Humans
Immune System - immunology
Immune System - physiopathology
Inflammation - etiology
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Summary:Immune and inflammatory responses actively modulate the pathophysiological processes of acute brain injuries such as stroke. Soon after the onset of stroke, signals such as brain-derived antigens, danger-associated molecular patterns (DAMPs), cytokines, and chemokines are released from the injured brain into the systemic circulation. The injured brain also communicates with peripheral organs through the parasympathetic and sympathetic branches of the autonomic nervous system. Many of these diverse signals not only activate resident immune cells in the brain, but also trigger robust immune responses in the periphery. Peripheral immune cells then migrate toward the site of injury and release additional cytokines, chemokines, and other molecules, causing further disruptive or protective effects in the ischemic brain. Bidirectional communication between the injured brain and the peripheral immune system is now known to regulate the progression of stroke pathology as well as tissue repair. In the end, this exquisitely coordinated crosstalk helps determine the fate of animals after stroke. This article reviews the literature on ischemic brain-derived signals through which peripheral immune responses are triggered, and the potential impact of these peripheral responses on brain injury and repair. Pharmacological strategies and cell-based therapies that target the dialog between the brain and peripheral immune system show promise as potential novel treatments for stroke.
ISSN:0301-0082
1873-5118
DOI:10.1016/j.pneurobio.2013.12.002