The combination of GIP plus xenin-25 indirectly increases pancreatic polypeptide release in humans with and without type 2 diabetes mellitus

Sara Chowdhury , Songyan Wang , Bruce W. Patterson , Dominic N. Reeds , Burton M. Wice
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引用次数: 18

Abstract

Xenin-25 (Xen) is a 25-amino acid neurotensin-related peptide that activates neurotensin receptor-1 (NTSR1). We previously showed that Xen increases the effect of glucose-dependent insulinotropic polypeptide (GIP) on insulin release 1) in hyperglycemic mice via a cholinergic relay in the periphery independent from the central nervous system and 2) in humans with normal or impaired glucose tolerance, but not type 2 diabetes mellitus (T2DM). Since this blunted response to Xen defines a novel defect in T2DM, it is important to understand how Xen regulates islet physiology.

On separate visits, subjects received intravenous graded glucose infusions with vehicle, GIP, Xen, or GIP plus Xen. The pancreatic polypeptide response was used as an indirect measure of cholinergic input to islets. The graded glucose infusion itself had little effect on the pancreatic polypeptide response whereas administration of Xen equally increased the pancreatic polypeptide response in humans with normal glucose tolerance, impaired glucose tolerance, and T2DM. The pancreatic polypeptide response to Xen was similarly amplified by GIP in all 3 groups. Antibody staining of human pancreas showed that NTSR1 is not detectable on islet endocrine cells, sympathetic neurons, blood vessels, or endothelial cells but is expressed at high levels on PGP9.5-positive axons in the exocrine tissue and at low levels on ductal epithelial cells. PGP9.5 positive nerve fibers contacting beta cells in the islet periphery were also observed. Thus, a neural relay, potentially involving muscarinic acetylcholine receptors, indirectly increases the effects of Xen on pancreatic polypeptide release in humans.

Abstract Image

Abstract Image

GIP联合xenin-25间接增加2型糖尿病患者胰腺多肽释放
Xenin-25 (Xen)是一种含有25个氨基酸的神经紧张素相关肽,可激活神经紧张素受体-1 (NTSR1)。我们之前的研究表明,Xen增加了葡萄糖依赖性胰岛素性多肽(GIP)对胰岛素释放的影响,1)在高血糖小鼠中,通过独立于中枢神经系统的外周胆碱能传递,2)在糖耐量正常或受损的人中,但不包括2型糖尿病(T2DM)。由于这种对Xen的迟钝反应定义了T2DM的一种新缺陷,因此了解Xen如何调节胰岛生理是很重要的。在单独的访问中,受试者接受静脉滴注葡萄糖与载体、GIP、Xen或GIP加Xen。胰多肽反应被用作胰岛胆碱能输入的间接测量。分级葡萄糖输注本身对胰多肽反应影响不大,而在糖耐量正常、糖耐量受损和T2DM患者中,Xen同样增加了胰多肽反应。胰多肽对Xen的反应同样被GIP放大。人胰腺抗体染色显示,NTSR1在胰岛内分泌细胞、交感神经元、血管和内皮细胞上未检测到,但在外分泌组织的pgp9.5阳性轴突上高水平表达,在导管上皮细胞上低水平表达。与胰岛周围β细胞接触的PGP9.5阳性神经纤维也被观察到。因此,可能涉及毒蕈碱类乙酰胆碱受体的神经接力间接增加了Xen对人类胰腺多肽释放的影响。
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来源期刊
Regulatory Peptides
Regulatory Peptides 医学-内分泌学与代谢
自引率
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审稿时长
2 months
期刊介绍: Regulatory Peptides provides a medium for the rapid publication of interdisciplinary studies on the physiology and pathology of peptides of the gut, endocrine and nervous systems which regulate cell or tissue function. Articles emphasizing these objectives may be based on either fundamental or clinical observations obtained through the disciplines of morphology, cytochemistry, biochemistry, physiology, pathology, pharmacology or psychology.
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