期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
Repair of traumatic plasmalemmal damage to neurons and other eukaryotic cells 被引量:3
1
作者 George D.Bittner christopher s.spaeth +2 位作者 Andrew D.Poon Zachary S.Burgess christopher H.Mc Gill 《Neural Regeneration Research》 SCIE CAS CSCD 2016年第7期1033-1042,共10页
The repair(sealing) of plasmalemmal damage,consisting of small holes to complete transections,is critical for cell survival,especially for neurons that rarely regenerate cell bodies.We first describe and evaluate di... The repair(sealing) of plasmalemmal damage,consisting of small holes to complete transections,is critical for cell survival,especially for neurons that rarely regenerate cell bodies.We first describe and evaluate different measures of cell sealing.Some measures,including morphological/ultra-structural observations,membrane potential,and input resistance,provide very ambiguous assessments of plasmalemmal sealing.In contrast,measures of ionic current flow and dye barriers can,if appropriately used,provide more accurate assessments.We describe the effects of various substances(calcium,calpains,cytoskeletal proteins,ESCRT proteins,m UNC-13,NSF,PEG) and biochemical pathways(PKA,PKC,PLC,Epac,cytosolic oxidation) on plasmalemmal sealing probability,and suggest that substances,pathways,and cellular events associated with plasmalemmal sealing have undergone a very conservative evolution.During sealing,calcium ion influx mobilizes vesicles and other membranous structures(lysosomes,mitochondria,etc.) in a continuous fashion to form a vesicular plug that gradually restricts diffusion of increasingly smaller molecules and ions over a period of seconds to minutes.Furthermore,we find no direct evidence that sealing occurs through the collapse and fusion of severed plasmalemmal leaflets,or in a single step involving the fusion of one large wound vesicle with the nearby,undamaged plasmalemma.We describe how increases in perikaryal calcium levels following axonal transection account for observations that cell body survival decreases the closer an axon is transected to the perikaryon.Finally,we speculate on relationships between plasmalemmal sealing,Wallerian degeneration,and the ability of polyethylene glycol(PEG) to seal cell membranes and rejoin severed axonal ends – an important consideration for the future treatment of trauma to peripheral nerves.A better knowledge of biochemical pathways and cytoplasmic structures involved in plasmalemmal sealing might provide insights to develop treatments for traumatic nerve injuries,stroke,muscular dystrophy,and other pathologies. 展开更多
关键词 sealing traumatic eukaryotic vesicles axonal membranous closer biochemical vesicular muscular
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部