Sapirstein V S, Durrie R, Nolan C E, Marks N
Division of Neurobiology, Nathan Kline Institute for Psychiatric Research, Orangeburg.
J Neurosci Res. 1993 May 1;35(1):83-91. doi: 10.1002/jnr.490350110.
We have extended our studies on the content of white matter derived coated vesicles (WMCVs) to show that they are enriched in membrane-bound carbonic anhydrase. Within the myelin complex membrane-bound carbonic anhydrase is concentrated in the periaxolemmal domain; however, this protein is enriched almost sevenfold in the bilayer of coated vesicles even relative to this myelin membrane region. These data suggest that some vesicles are derived from a site at which this enzyme is highly localized. The enrichment observed for membrane-bound carbonic anhydrase is unique since other periaxolemmal proteins such as CNPase and plasmolipin are only present in equal amounts in periaxolemmal-myelin fractions and WMCVs. Based on their known localization, the presence of CNPase coupled with the absence of MAG in WMCVs suggest that these vesicles are derived from the paranodal region. The identification in WMCVs of periaxolemmal-myelin proteins associated with ion and fluid movement, such as carbonic anhydrase, Na+,K+ ATPase, and the putative K+ channel protein plasmolipin, prompted us to examine the status of these vesicles in triethyl tin (TET)-induced myelin edema. Coated vesicles and other membrane fractions were isolated from whole brains of control and TET-treated rats. Whole brains were used so we could compare the effects of TET on WMCV proteins with the effect on proteins enriched in gray matter coated vesicles. The results indicated that TET had no detectable effect on compact or periaxolemmal-myelin, however, Western blot analysis showed that WMCV proteins, such as carbonic anhydrase, CNPase, and plasmolipin, were virtually absent or greatly diminished from the whole brain coated vesicle fraction.(ABSTRACT TRUNCATED AT 250 WORDS)
我们对源自白质的包被小泡(WMCVs)的研究进行了扩展,结果表明它们富含膜结合碳酸酐酶。在髓鞘复合体中,膜结合碳酸酐酶集中在轴突周围区域;然而,相对于该髓鞘膜区域,这种蛋白质在包被小泡的双层中富集了近7倍。这些数据表明,一些小泡源自该酶高度定位的位点。膜结合碳酸酐酶的这种富集是独特的,因为其他轴突周围蛋白,如2',3'-环核苷酸3'-磷酸二酯酶(CNPase)和质膜脂蛋白,在轴突周围-髓鞘组分和WMCVs中仅等量存在。基于它们已知的定位,WMCVs中CNPase的存在以及髓鞘相关糖蛋白(MAG)的缺失表明这些小泡源自结旁区域。在WMCVs中鉴定出与离子和液体移动相关的轴突周围-髓鞘蛋白,如碳酸酐酶、钠钾ATP酶和假定的钾通道蛋白质质膜脂蛋白,促使我们研究这些小泡在三乙锡(TET)诱导的髓鞘水肿中的状态。从对照和TET处理大鼠的全脑中分离出包被小泡和其他膜组分。使用全脑是为了我们能够将TET对WMCV蛋白的影响与对富含灰质包被小泡的蛋白的影响进行比较。结果表明,TET对致密或轴突周围-髓鞘没有可检测到的影响,然而,蛋白质印迹分析表明,全脑包被小泡组分中WMCV蛋白,如碳酸酐酶、CNPase和质膜脂蛋白,实际上不存在或大量减少。(摘要截短于250字)
