中国比较医学杂志
中國比較醫學雜誌
중국비교의학잡지
CHINESE JOURNAL OF COMPARATIVE MEDICINE
2014年
8期
53-56
,共4页
梁梦茹%尹琳琳%陈光亮%李林
樑夢茹%尹琳琳%陳光亮%李林
량몽여%윤림림%진광량%리림
小胶质细胞%多发性硬化%Cuprizone 动物模型%双重性
小膠質細胞%多髮性硬化%Cuprizone 動物模型%雙重性
소효질세포%다발성경화%Cuprizone 동물모형%쌍중성
Microglia%Multiple sclerosis%Cuprizone,animal model%Dichotomous roles
小胶质细胞(microglia)是中枢神经系统(CNS)中固有的免疫监视细胞,是 CNS 的重要组成部分,构成 CNS 的第一道免疫防线。小胶质细胞活化是许多 CNS 疾病的重要病理特征之一,其在多发性硬化(MS)的发病过程中扮演重要角色。 MS 是以炎症反应、髓鞘脱失和轴突损伤为主要特征的 CNS 疾病,MS 患者及实验动物脑内均可见活化的小胶质细胞,其作用机制复杂,具有致炎和抗炎双重作用。一方面小胶质细胞可通过促进吞噬、轴突再生、释放神经营养因子等作用促进髓鞘的再生修复;另一方面小胶质细胞还可通过释放炎性因子、自由基、蛋白酶等对神经元和胶质细胞发挥毒性作用。 Cuprizone(双环己酮草酰二腙)所致髓鞘脱失动物模型是研究髓鞘再生修复的理想模型,了解小胶质细胞的双重性对于理解 MS 的发生发展,寻找疾病治疗靶点具有十分重要的理论和实际意义。在此本文对小胶质细胞在 cuprizone 所致髓鞘脱失动物模型中的双重性作用做一综述。
小膠質細胞(microglia)是中樞神經繫統(CNS)中固有的免疫鑑視細胞,是 CNS 的重要組成部分,構成 CNS 的第一道免疫防線。小膠質細胞活化是許多 CNS 疾病的重要病理特徵之一,其在多髮性硬化(MS)的髮病過程中扮縯重要角色。 MS 是以炎癥反應、髓鞘脫失和軸突損傷為主要特徵的 CNS 疾病,MS 患者及實驗動物腦內均可見活化的小膠質細胞,其作用機製複雜,具有緻炎和抗炎雙重作用。一方麵小膠質細胞可通過促進吞噬、軸突再生、釋放神經營養因子等作用促進髓鞘的再生脩複;另一方麵小膠質細胞還可通過釋放炎性因子、自由基、蛋白酶等對神經元和膠質細胞髮揮毒性作用。 Cuprizone(雙環己酮草酰二腙)所緻髓鞘脫失動物模型是研究髓鞘再生脩複的理想模型,瞭解小膠質細胞的雙重性對于理解 MS 的髮生髮展,尋找疾病治療靶點具有十分重要的理論和實際意義。在此本文對小膠質細胞在 cuprizone 所緻髓鞘脫失動物模型中的雙重性作用做一綜述。
소효질세포(microglia)시중추신경계통(CNS)중고유적면역감시세포,시 CNS 적중요조성부분,구성 CNS 적제일도면역방선。소효질세포활화시허다 CNS 질병적중요병리특정지일,기재다발성경화(MS)적발병과정중분연중요각색。 MS 시이염증반응、수초탈실화축돌손상위주요특정적 CNS 질병,MS 환자급실험동물뇌내균가견활화적소효질세포,기작용궤제복잡,구유치염화항염쌍중작용。일방면소효질세포가통과촉진탄서、축돌재생、석방신경영양인자등작용촉진수초적재생수복;령일방면소효질세포환가통과석방염성인자、자유기、단백매등대신경원화효질세포발휘독성작용。 Cuprizone(쌍배기동초선이종)소치수초탈실동물모형시연구수초재생수복적이상모형,료해소효질세포적쌍중성대우리해 MS 적발생발전,심조질병치료파점구유십분중요적이론화실제의의。재차본문대소효질세포재 cuprizone 소치수초탈실동물모형중적쌍중성작용주일종술。
Microglia are the inherent macrophages and immune surveillance cells in the central nervous system (CNS) and compose the first guard of immune defense in CNS .The activation of microglia is one of the pathological features of many CNS diseases and acts as an important role during the multiple sclerosis (MS) process.MS is a CNS disease characterized by neuroinflammatory infiltration , demyelination and axonal damage.Accumulation of activated microglia at the injury site has been observed in brains of MS patients and experimental animals with complicated mechanisms.Microglia have both detrimental and beneficial roles .For instance, microglia have been shown to recruit and reactivate T cells in the CNS and release many detrimental molecules such as proteases , inflammatory cytokines, and free radicals.Conversely, they have also been observed to aid in axonal regeneration and remyelination as well as assist in the clearance of inhibitory myelin debris .In addition, microglia have been shown to release a variety of neurotrophic factors . Cuprizone [oxalic acid bis (cyclohexylidene hydrazide )] is a well-known copper-chelating agent.Cuprizone ingestion in mice induces a highly reproducible demyelination of distinct brain regions .Discussion on the detrimental and beneficial aspects of microglia in cuprizone animal models will serve to better understand the development of MS and find out new therapeutic targets.This review will further our understanding of the dichotomous roles of microglia in cuprizone -induced demyelination in animal models of multiple sclerosis .
