Nielsen S, Muller J, Knepper M A
Laboratory of Kidney and Electrolyte Metabolism, National Heart, Lung, and Blood Institute, National Institutes of Health, Bethesda, Maryland 20892.
Am J Physiol. 1993 Aug;265(2 Pt 2):F225-38. doi: 10.1152/ajprenal.1993.265.2.F225.
Studies were performed to correlate arginine vasopressin (AVP)-induced changes in epithelial ultrastructure with changes in osmotic water permeability in isolated perfused rat terminal inner medullary collecting ducts (tIMCD). The tubules were perfused in three time periods, i.e., a 40-min basal period, a 40-min period with 0.1 nM AVP in the bath, and a 60-min withdrawal period. In each phase, the osmotic water permeability (Pf) was measured, and the perfused tubules were fixed for electron microscopy. AVP caused a four- to eightfold increase in Pf and induced several ultrastructural changes as follows: increased cell height of IMCD cells, expansion of the intercellular spaces, formation of large vacuoles, and increased coated pit density in the apical plasma membrane [from 0.6 +/- 0.2 (n = 6) to 2.9 +/- 0.3 (n = 7) pits/100 microns membrane length]. During AVP withdrawal, Pf decreased toward the basal value in association with partial reversal of the ultrastructural changes including a decrease in coated pit density to 1.0 +/- 0.2 (n = 4). Stimulation with 8-bromoadenosine 3',5'-cyclic monophosphate (8-bromo-cAMP) (0.1 mM) produced similar changes in Pf. Coated pit density increased to 2.1 +/- 0.4 (n = 4) after cAMP stimulation and after cAMP withdrawal decreased to 1.2 +/- 0.2 (n = 6). In contrast to stimulation with AVP, cAMP stimulation did not result in dilated intercellular spaces or formation of large vacuoles. The only ultrastructural feature that directly correlated with the water permeability was the density of coated pits in the apical membrane. Organelles involved in the endocytic pathway were studied with cationized ferritin or albumin-gold in the luminal perfusate. At the end of 40 min basal perfusion or AVP stimulation, luminal tracer was found almost exclusively in large multivesicular bodies (MVB). Tubules perfused with tracer during AVP withdrawal demonstrated rapid tracer accumulation in small vesicles and small MVB within 3-5 min, a time point corresponding to the rapid phase of Pf decrease. Later (30-60 min) the label was mainly confined to large MVB. Occasionally during AVP stimulation or withdrawal, small coated vesicles and smooth vesicles with coated extensions were noted to contain tracer. The data demonstrate AVP-mediated coated pit formation and cellular changes and show very rapid internalization of apical membrane after AVP withdrawal.
开展了多项研究,以关联精氨酸加压素(AVP)诱导的上皮超微结构变化与分离灌注的大鼠终末内髓集合管(tIMCD)中渗透水通透性的变化。肾小管在三个时间段进行灌注,即40分钟的基础期、浴液中含0.1 nM AVP的40分钟期以及60分钟的撤药期。在每个阶段,测量渗透水通透性(Pf),并将灌注的肾小管固定用于电子显微镜检查。AVP使Pf增加了4至8倍,并诱导了以下几种超微结构变化:IMCD细胞的细胞高度增加、细胞间隙扩大、形成大液泡以及顶端质膜中被膜小窝密度增加[从0.6±0.2(n = 6)增加至2.9±0.3(n = 7)个小窝/100微米膜长度]。在撤去AVP期间,Pf朝着基础值下降,同时超微结构变化部分逆转,包括被膜小窝密度降至1.0±0.2(n = 4)。用8-溴腺苷3',5'-环磷酸(8-溴-cAMP)(0.1 mM)刺激产生了类似的Pf变化。cAMP刺激后被膜小窝密度增加至2.1±0.4(n = 4),cAMP撤去后降至1.2±0.2(n = 6)。与AVP刺激不同,cAMP刺激未导致细胞间隙扩张或形成大液泡。唯一与水通透性直接相关的超微结构特征是顶端膜中被膜小窝的密度。在内腔灌注液中用阳离子化铁蛋白或白蛋白-金研究了参与内吞途径的细胞器。在40分钟基础灌注或AVP刺激结束时,腔内示踪剂几乎仅见于大型多囊泡体(MVB)中。在撤去AVP期间用示踪剂灌注的肾小管在3至5分钟内显示示踪剂在小泡和小型MVB中迅速积累,这一时间点与Pf下降的快速阶段相对应。之后(30至60分钟),标记主要局限于大型MVB。在AVP刺激或撤药期间偶尔会注意到,小型被膜小泡和带有被膜延伸的光滑小泡含有示踪剂。数据表明AVP介导被膜小窝形成和细胞变化,并显示撤去AVP后顶端膜的内化非常迅速。
