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首页> 外文期刊>Molecular and Cellular Endocrinology >Islet distribution of Peptide YY and its regulatory role in primary mouse islets and immortalised rodent and human beta-cell function and survival
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Islet distribution of Peptide YY and its regulatory role in primary mouse islets and immortalised rodent and human beta-cell function and survival

机译:肽YY的胰岛分布及其在原发性小鼠胰岛中的调节作用以及永生化啮齿动物和人β细胞功能和生存

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Recent evidence suggests that the classic gut peptide, Peptide YY (PYY), could play a fundamental role in endocrine pancreatic function. In the present study expression of PYY and its NPY receptors on mouse islets and immortalised rodent and human beta-cells was examined together with the effects of both major circulating forms of PYY, namely PYY(1-36) and PYY(3-36), on beta-cell function, murine islet adaptions to insulin deficiency/resistance, as well as direct effects on cultured beta-cell proliferation and apoptosis. In vivo administration of PYY(3-36), but not PYY(1-36), markedly (p < 0.05) decreased food intake in overnight fasted mice. Neither form of PYY affected glucose disposal or insulin secretion following an i.p. glucose challenge. However, in vitro, PYY(1-36) and PYY(3-36) inhibited (p < 0.05 to p < 0.001) glucose, alanine and GLP-1 stimulated insulin secretion from immortalised rodent and human beta-cells, as well as isolated mouse islets, by impeding alterations in membrane potential, [Ca2+], and elevations of cAMP. Mice treated with multiple low dose streptozotocin presented with severe (p < 0.01) loss of beta-cell mass accompanied by notable increases (p < 0.001) in alpha and PP cell numbers. In contrast, hydrocortisone-induced insulin resistance increased islet number (p < 0.01) and beta-cell mass (p < 0.001). PYY expression was consistently observed in alpha-, PP- and delta-, but not beta-cells. Streptozotocin decreased islet PYY co-localisation with PP (p < 0.05) and somatostatin (p < 0.001), whilst hydrocortisone increased PYY co-localisation with glucagon (p < 0.05) in mice. More detailed in vitro investigations revealed that both forms of PYY augmented (p < 0.05 to p < 0.01) immortalised human and rodent beta-cell proliferation and protected against streptozotocin-induced cytotoxicity, to a similar or superior extent as the well characterised beta-cell proliferative and anti-apoptotic agent GLP-1. Taken together, these data highlight the significance and potential offered by modulation of pancreatic islet NPY receptor signalling pathways for preservation of beta-cell mass in diabetes. (C) 2016 Elsevier Ireland Ltd. All rights reserved.
机译:最近的证据表明,经典的肠肽,肽YY(PYY)可以在内分泌胰腺功能中发挥基本作用。在目前的研究表达及其在小鼠胰岛上的NPY受体和永生化的啮齿动物和人β细胞的影响以及两种主要循环形式的PYY,即PYY(1-36)和PYY(3-36) ,关于β细胞功能,鼠胰岛素的适应胰岛素缺乏/抗性,以及直接影响培养的β细胞增殖和凋亡。体内施用PYY(3-36),但不是PYY(1-36),显着(P <0.05)降低了过夜禁食小鼠的食物摄入量减少。两种形式的PYY影响葡萄糖处理或胰岛素分泌后I.P。葡萄糖挑战。然而,体外,Pyy(1-36)和Pyy(3-36)抑制(P <0.05至P <0.001)葡萄糖,丙氨酸和GLP-1从永生化的啮齿动物和人β细胞中刺激胰岛素分泌,以及通过阻碍膜势的改变,[Ca2 +]和营地的高度的孤立的鼠标胰岛。用多种低剂量链脲酰基治疗的小鼠呈现严重(P <0.01)β细胞损失的β-细胞物质伴有α和PP细胞数中的显着增加(P <0.001)。相比之下,氢化可源性诱导的胰岛素抵抗增加了胰岛数(P <0.01)和β细胞质量(P <0.001)。在α,pp和δ-但不β细胞中始终观察到Pyy表达。链脲佐菌素用PP(P <0.05)和生长抑制素(P <0.001)降低胰岛PYY共定位,而氢化可源性升高的胰腺炎(P <0.05)在小鼠中增加了PYY共定位。更详细的体外研究表明,两种形式的PYY增强(P <0.05至P <0.01)永生化了人和啮齿动物β细胞增殖,并防止链脲佐菌素诱导的细胞毒性,以与良好表征的β细胞相似或更优异的程度增殖性和抗凋亡剂GLP-1。总之,这些数据突出了胰岛胰岛NPE受体信号传导途径调节提供的重要性和潜力,以保存糖尿病β细胞块。 (c)2016 Elsevier Ireland Ltd.保留所有权利。

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