Absence of galectin-3 attenuates neuroinflammation improving functional recovery after spinal cord injury  被引量：2

作　　者：Caio Andrade Prins Fernanda Martins Almeida Ana Maria Blanco Martinez 

机构地区：[1]Laboratorio de Neurodegeneracao e Reparo-Departamento de Patologia-Faculdade de Medicina-HUCFF-UFRJ-Rio de Janeiro-RJ,Brazil [2]Instituto de Ciencia Biomedicas,UFRJ,Rio de Janeiro,RJ,Brazil

出　　处：《Neural Regeneration Research》2016年第1期92-93,共2页中国神经再生研究（英文版）

摘　　要：After spinal cord injury （SCI）, a cascade of events begins. At first, there is physical damage with disruption of the blood-brain barrier （BBB） and the integrity of the nervous tissue. The disruption of central ner- vous system （CNS） BBB alters the endothelial permeability, the protein and chemokines expression and the propensity to release in situ inflam- matory cytokines, overcoming anti-inflammatory signals, facilitating the attraction and entry of immune system cells into the injured spinal cord parenchyma （Gaudet et al., 2011）. As a result, there is a neuroin- flammatory response with changes in blood flow, edema, cell infiltra- tion, apoptosis and release of axonal growth inhibitory factors. Nerve function loss occurs when the nerve impulse propagation is interrupted and do not reach its target. This disorder encompasses neuron and glia apoptosis, accompanied by Wallerian degeneration of disconnected axons, and CNS cells exposure to a hostile microenvironment that hampers axon regeneration （Mautes et al., 2000; Harkey et al., 2003）.After spinal cord injury （SCI）, a cascade of events begins. At first, there is physical damage with disruption of the blood-brain barrier （BBB） and the integrity of the nervous tissue. The disruption of central ner- vous system （CNS） BBB alters the endothelial permeability, the protein and chemokines expression and the propensity to release in situ inflam- matory cytokines, overcoming anti-inflammatory signals, facilitating the attraction and entry of immune system cells into the injured spinal cord parenchyma （Gaudet et al., 2011）. As a result, there is a neuroin- flammatory response with changes in blood flow, edema, cell infiltra- tion, apoptosis and release of axonal growth inhibitory factors. Nerve function loss occurs when the nerve impulse propagation is interrupted and do not reach its target. This disorder encompasses neuron and glia apoptosis, accompanied by Wallerian degeneration of disconnected axons, and CNS cells exposure to a hostile microenvironment that hampers axon regeneration （Mautes et al., 2000; Harkey et al., 2003）.

关 键 词：galectin disruption permeability facilitating attraction cascade macrophages cytokines morphologic exposure 

分 类 号：R651.2[医药卫生—外科学]