在人胰岛分离过程中，胰岛基底膜内的关键基质蛋白被差异性消化。

Key Matrix Proteins Within the Pancreatic Islet Basement Membrane Are Differentially Digested During Human Islet Isolation.

作者信息

Cross S E, Vaughan R H, Willcox A J, McBride A J, Abraham A A, Han B, Johnson J D, Maillard E, Bateman P A, Ramracheya R D, Rorsman P, Kadler K E, Dunne M J, Hughes S J, Johnson P R V

机构信息

Islet Transplant Research Group, Nuffield Department of Surgical Sciences, John Radcliffe Hospital, University of Oxford, Oxford, UK.

Oxford Centre for Diabetes, Endocrinology and Metabolism (OCDEM), Churchill Hospital, University of Oxford, Oxford, UK.

出版信息

Am J Transplant. 2017 Feb;17(2):451-461. doi: 10.1111/ajt.13975. Epub 2016 Sep 6.

DOI:10.1111/ajt.13975

PMID:27456745

Abstract

Clinical islet transplantation achieves insulin independence in selected patients, yet current methods for extracting islets from their surrounding pancreatic matrix are suboptimal. The islet basement membrane (BM) influences islet function and survival and is a critical marker of islet integrity following rodent islet isolation. No studies have investigated the impact of islet isolation on BM integrity in human islets, which have a unique duplex structure. To address this, samples were taken from 27 clinical human islet isolations (donor age 41-59, BMI 26-38, cold ischemic time < 10 h). Collagen IV, pan-laminin, perlecan and laminin-α5 in the islet BM were significantly digested by enzyme treatment. In isolated islets, laminin-α5 (found in both layers of the duplex BM) and perlecan were lost entirely, with no restoration evident during culture. Collagen IV and pan-laminin were present in the disorganized BM of isolated islets, yet a significant reduction in pan-laminin was seen during the initial 24 h culture period. Islet cytotoxicity increased during culture. Therefore, the human islet BM is substantially disrupted during the islet isolation procedure. Islet function and survival may be compromised as a consequence of an incomplete islet BM, which has implications for islet survival and transplanted graft longevity.

摘要

临床胰岛移植可使部分患者实现胰岛素自主分泌，但目前从周围胰腺基质中提取胰岛的方法并不理想。胰岛基底膜（BM）影响胰岛功能和存活，并且是啮齿动物胰岛分离后胰岛完整性的关键标志物。尚无研究调查胰岛分离对人胰岛BM完整性的影响，人胰岛具有独特的双层结构。为解决这一问题，采集了27例临床人胰岛分离样本（供体年龄41 - 59岁，体重指数26 - 38，冷缺血时间<10小时）。酶处理显著消化了胰岛BM中的IV型胶原、泛层粘连蛋白、基底膜聚糖和α5层粘连蛋白。在分离的胰岛中，α5层粘连蛋白（存在于双层BM的两层中）和基底膜聚糖完全丢失，培养期间未见恢复迹象。IV型胶原和泛层粘连蛋白存在于分离胰岛的紊乱BM中，但在最初24小时的培养期内泛层粘连蛋白显著减少。培养期间胰岛细胞毒性增加。因此，人胰岛BM在胰岛分离过程中受到严重破坏。胰岛BM不完整可能会损害胰岛功能和存活，这对胰岛存活和移植移植物寿命具有重要意义。

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在人胰岛分离过程中，胰岛基底膜内的关键基质蛋白被差异性消化。

Key Matrix Proteins Within the Pancreatic Islet Basement Membrane Are Differentially Digested During Human Islet Isolation.

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