Li Guangwei, Ye Liya, Li Jing, Yang Wenying, Lou Jinning
Department of Endocrinology JAPAN Friendship Hospital, Beijing 100029, China.
Zhonghua Yi Xue Za Zhi. 2002 Oct 25;82(20):1427-31.
To investigate the impact of islet alpha cell loss on insulin secretion.
Human pancreatic tissues underwent over-digestion of collagenase. Digestion was terminated in half of the tissue suspension, and half of the suspension was put into solution of collagenase to undergo over-digestion so as to cause loss of islet alpha cells. The tissues of digested human pancreas and over-digested human pancreas were fixed and immunohistochemical staining was made to observe the loss of islet alpha cells. The contents of insulin and glucagon in solutions of normal human pancreas, human islet of pancreas with normal enzyme secretion, and over-digested human islet were measured by radioimmunoassay. The ratios of insulin/glucagon in these three solutions were calculated so as to analyze the loss of alpha cells. Different human pancreatic tissues were inoculated in 24-well plate. Glucose solutions of different concentrations were added into the suspensions. The concentration of insulin in the supernatant was measured after incubation. C57/BL Normal human pancreas and human pancreas with islet alpha cell loss were transplanted into the renal capsules of two groups of 5 C57/BL mice with experimental diabetes mellitus respectively. The blood insulin was measured for two days. On the 3(rd) day, the left kidneys of the mice were taken to undergo insulin/glucagon immunohistochemical staining to observe the loss of alpha cells. Human islets with alpha cell loss were transplanted into the renal capsules of another 10 mice. Then 5 of them received injection of normal saline and the other 5 received glucagon for 7 days, then glucagon was injected into the mice of normal saline group, and vise versa. The blood sugar was measured every day.
Glucagon immunohistochemistry showed alpha cell loss from islet periphery in over-digested human pancreas. The insulin/glucagons ratios were 100:2.34 and 100:2.05 in the normal pancreas and isolated normal islets respectively, and was 100:0.314 in the over-digested islets, showing a loss of > 80% of alpha cells. As compared with normal islets, glucose-induced insulin secretion was significantly decreased. The insulin concentration was 222.7 micro U/ml +/- 32.1 micro U/ml in the suspension of cultured normal pancreatic cells and was 124.6 micro U/ml +/- 12.6 micro U/ml in the supernatant of suspension of pancreatic islets with alpha cell loss (P < 0.01). The average blood sugar was 8.9 micro U/ml +/- 1.98 micro U/ml in mice grafted with normal islets and was 21.3 micro U/ml +/- 2.2 micro U/ml in mice grafted with alpha cell deficient islets (P < 0.01). However, insulin secretion in islets with alpha cell loss was significantly improved by exogenous glucagon in vitro and in vivo.
The function of insulin secretion in islets with alpha cell loss is significantly decreased. Insulin secretion of islets with alpha cell loss can be improved by exogenous glucagon.
研究胰岛α细胞缺失对胰岛素分泌的影响。
人胰腺组织用胶原酶过度消化。在一半组织悬液中终止消化,另一半悬液放入胶原酶溶液中进行过度消化以导致胰岛α细胞缺失。将消化后的人胰腺组织和过度消化后的人胰腺组织固定并进行免疫组化染色以观察胰岛α细胞的缺失情况。用放射免疫分析法测定正常人胰腺溶液、正常酶分泌的人胰岛溶液和过度消化后的人胰岛溶液中胰岛素和胰高血糖素的含量。计算这三种溶液中胰岛素/胰高血糖素的比值以分析α细胞的缺失情况。将不同的人胰腺组织接种于24孔板中。向悬液中加入不同浓度的葡萄糖溶液。孵育后测定上清液中胰岛素的浓度。将C57/BL正常人和胰岛α细胞缺失的人胰腺分别移植到两组5只实验性糖尿病C57/BL小鼠的肾被膜下。连续两天测量血胰岛素水平。在第3天,取小鼠左肾进行胰岛素/胰高血糖素免疫组化染色以观察α细胞的缺失情况。将α细胞缺失的人胰岛移植到另外10只小鼠的肾被膜下。然后其中5只注射生理盐水,另外5只注射胰高血糖素,持续7天,之后给注射生理盐水组的小鼠注射胰高血糖素,反之亦然。每天测量血糖。
胰高血糖素免疫组化显示过度消化后的人胰腺中胰岛周边的α细胞缺失。正常胰腺和分离的正常胰岛中胰岛素/胰高血糖素的比值分别为100:2.34和100:2.05,过度消化后的胰岛中该比值为100:0.314,表明α细胞缺失超过80%。与正常胰岛相比,葡萄糖诱导的胰岛素分泌显著降低。培养的正常胰腺细胞悬液中胰岛素浓度为222.7微单位/毫升±32.1微单位/毫升,α细胞缺失的胰岛悬液上清液中胰岛素浓度为124.6微单位/毫升±12.6微单位/毫升(P<0.01)。移植正常胰岛的小鼠平均血糖为8.9微单位/毫升±1.98微单位/毫升,移植α细胞缺陷胰岛的小鼠平均血糖为21.3微单位/毫升±2.2微单位/毫升(P<0.01)。然而,体外和体内外源性胰高血糖素可显著改善α细胞缺失的胰岛中的胰岛素分泌。
α细胞缺失的胰岛中胰岛素分泌功能显著降低。外源性胰高血糖素可改善α细胞缺失的胰岛的胰岛素分泌。
Zotero 插件