Beamish N G, Stolinski C, Thomas P K, King R H
Department of Anatomy and Cell Biology, St. Mary's Hospital Medical School, Imperial College of Science, Technology and Medicine, London, UK.
Acta Neuropathol. 1991;81(3):269-79. doi: 10.1007/BF00305868.
Perineurial cells in the human sural nerve possess tight junctions which in freeze-fracture replicas are seen to be composed of networks of branching and anastomosing P face strands and E face grooves. Isolated circular tight junctions (maculae occludentes) may represent attachment devices between adjacent perineurial lamellae. At the overlapping margins of the cells, a belt-like tight junction (zonula occludens) encircles the cells and is believed to comprise a paracellular diffusion barrier. As the permeability of the perineurium has been found to be altered in diabetic polyneuropathy, the zonulae occludentes have been studied. In freeze-fracture replicas from cases of diabetic polyneuropathy a mixed population of structurally normal and abnormal junctions was observed. In some, the strands were abnormally curved with reduced numbers of intersections, the intervening plasma membrane displaying prominent P face concavities and E face convexities. At other sites, the junctions were severely disorganized and represented by fragmented and isolated strands with few intersections and numerous free ends. These abnormalities resemble changes that have been produced experimentally in epithelial tight junctions by osmotic damage. The possibility is considered that similar mechanisms could result in the alterations of the perineurial tight junctions in diabetic polyneuropathy and account for its impaired permeability barrier properties.
人腓肠神经中的神经束膜细胞具有紧密连接,在冷冻断裂复制品中可见其由分支和吻合的P面股线和E面沟网络组成。孤立的圆形紧密连接(闭锁小带)可能代表相邻神经束膜薄片之间的附着装置。在细胞的重叠边缘,带状紧密连接(紧密连接带)环绕细胞,被认为构成细胞旁扩散屏障。由于已发现糖尿病性多发性神经病中神经束膜的通透性发生改变,因此对紧密连接带进行了研究。在糖尿病性多发性神经病病例的冷冻断裂复制品中,观察到结构正常和异常连接的混合群体。在一些情况下,股线异常弯曲,交叉点数量减少,中间的质膜显示出明显的P面凹陷和E面凸起。在其他部位,连接严重紊乱,表现为片段化和孤立的股线,交叉点少且自由端多。这些异常类似于通过渗透损伤在上皮紧密连接中实验产生的变化。人们认为,类似的机制可能导致糖尿病性多发性神经病中神经束膜紧密连接的改变,并解释其通透性屏障特性受损的原因。