Milici A J, Watrous N E, Stukenbrok H, Palade G E
Department of Surgery, Yale University School of Medicine, New Haven, Connecticut 06510.
J Cell Biol. 1987 Dec;105(6 Pt 1):2603-12. doi: 10.1083/jcb.105.6.2603.
We have used a variety of immunocytochemical procedures to localize albumin in transit through the capillary endothelium of the murine myocardium and thereby identify endothelial cell structures involved in albumin efflux. The most informative results were obtained with a protocol that included (a) removal of endogenous albumin by perfusion of the heart with PBS supplemented with 14 mM glucose, (b) perfusion of the heart vasculature with exogenous (bovine) albumin for various short time periods, (c) fixation of the vessels by formaldehyde-glutaraldehyde mixtures, (d) processing of fixed myocardium specimens through L. R. White embedding followed by sectioning, or direct thin frozen sectioning, and (e) reacting the surface of such specimens with antialbumin antibodies followed by gold-labeled secondary antibodies. The results indicate that (a) monomeric albumin binds (with low affinity) to the luminal surface of the capillary endothelium, (b) it is restricted in transit through the endothelium to plasmalemmal vesicles, and (c) it appears in the pericapillary spaces less than 15 s after the beginning of its perfusion. No albumin concentration gradients, centered with their maxima on the exits from intercellular spaces, were detected at any time points, including the shortest ones (15 and 30 s) investigated. Additional information comparing monomeric vs. polymeric albumin transcytosis was obtained using albumin-gold complexes. The results are discussed in terms of vesicular transport of albumin across the endothelium and the relations of this type of transport to the postulated pore systems of the physiological literature.
我们采用了多种免疫细胞化学方法来定位正在通过小鼠心肌毛细血管内皮转运的白蛋白,从而识别参与白蛋白外渗的内皮细胞结构。最具信息量的结果是通过以下方案获得的:(a)用补充了14 mM葡萄糖的PBS灌注心脏以去除内源性白蛋白;(b)在不同短时间内用外源性(牛)白蛋白灌注心脏血管系统;(c)用甲醛 - 戊二醛混合物固定血管;(d)将固定的心肌标本通过LR White包埋后切片,或直接进行薄冰冻切片;(e)使此类标本的表面与抗白蛋白抗体反应,随后与金标记的二抗反应。结果表明:(a)单体白蛋白(以低亲和力)结合到毛细血管内皮的管腔表面;(b)它在内皮中的转运局限于质膜小泡;(c)在其灌注开始后不到15秒就出现在毛细血管周围间隙中。在任何时间点,包括所研究的最短时间点(15秒和30秒),均未检测到以细胞间空间出口为最大值中心的白蛋白浓度梯度。使用白蛋白 - 金复合物获得了比较单体与多聚体白蛋白转胞吞作用的更多信息。将根据白蛋白跨内皮的小泡转运以及这种转运类型与生理学文献中假设的孔系统的关系来讨论这些结果。