Abstract
Ischemic stroke is one of the main issues threatening human health worldwide, and it is also the main cause of permanent disability in adults. Energy consumption and hypoxia after ischemic stroke leads to the death of nerve cells, activate resident glial cells, and promote the infiltration of peripheral immune cells into the brain, resulting in various immune-mediated effects and even contradictory effects. Immune cell infiltration can mediate neuronal apoptosis and aggravate ischemic injury, but it can also promote neuronal repair, differentiation and regeneration. The central nervous system (CNS), which is one of the most important immune privileged parts of the human body, is separated from the peripheral immune system by the blood-brain barrier (BBB). Under physiological conditions, the infiltration of peripheral immune cells into the CNS is controlled by the BBB and regulated by the interaction between immune cells and vascular endothelial cells. As the immune response plays a key role in regulating the development of ischemic injury, neutrophils have been proven to be involved in many inflammatory diseases, especially acute ischemic stroke (AIS). However, neutrophils may play a dual role in the CNS. Neutrophils are the first group of immune cells to enter the brain from the periphery after ischemic stroke, and their exact role in cerebral ischemia remains to be further explored. Elucidating the characteristics of immune cells and their role in the regulation of the inflammatory response may lead to the identification of new potential therapeutic strategies. Thus, this review will specifically discuss the role of neutrophils in ischemic stroke from production to functional differentiation, emphasizing promising targeted interventions, which may promote the development of ischemic stroke treatments in the future.
Highlights
Inflammation plays a dual role in the pathogenesis and prognosis of central nervous system (CNS) injury, exerting both beneficial and harmful effects [1]
Neutrophils are the first immune cells to Stroke, Neuroinflammation, Ischemia, Neutrophils accumulate in ischemic brain regions, which occurs within a few minutes after injury [2]
reactive oxygen species (ROS) can activate the production of matrix metalloproteinase-9 (MMP-9) through a signaling pathway and lead to tissue damage and excessive inflammatory reactions [9], such as microvascular injury and blood-brain barrier (BBB) damage cause the entry of more peripheral neutrophils into the damaged area, aggravating the response to nerve injury [5]
Summary
Inflammation plays a dual role in the pathogenesis and prognosis of central nervous system (CNS) injury, exerting both beneficial and harmful effects [1]. Various animal and clinical studies have shown that in addition to activating microglia in the ischemic brain, the infiltration of circulating cells (such as granulocytes, neutrophils, monocytes/ macrophages and T cells) can aggravate cell death after ischemia.
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