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Absence of cannabinoid 1 receptor in beta cells protects against high-fat/high-sugar diet-induced beta cell dysfunction and inflammation in murine islets

机译：β细胞中不存在大麻素1受体可防止高脂/高糖饮食诱导的β细胞功能障碍和小鼠胰岛炎症

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Aims/hypothesisThe cannabinoid 1 receptor (CB1R) regulates insulin sensitivity and glucose metabolism in peripheral tissues. CB1R is expressed on pancreatic beta cells and is coupled to the G protein Gαi, suggesting a negative regulation of endogenous signalling in the beta cell. Deciphering the exact function of CB1R in beta cells has been confounded by the expression of this receptor on multiple tissues involved in regulating metabolism. Thus, in models of global genetic or pharmacological CB1R blockade, it is difficult to distinguish the indirect effects of improved insulin sensitivity in peripheral tissues from the direct effects of inhibiting CB1R in beta cells per se. To assess the direct contribution of beta cell CB1R to metabolism, we designed a mouse model that allows us to determine the role of CB1R specifically in beta cells in the context of whole-body metabolism.

机译：目的/假设大麻素1受体（CB1R）调节周围组织的胰岛素敏感性和葡萄糖代谢。 CB1R在胰腺β细胞上表达，并与G蛋白Gαi偶联，表明β细胞内源性信号的负调控。通过在参与调节新陈代谢的多种组织中表达该受体，混淆了CB1R在β细胞中的确切功能的解释。因此，在全球遗传或药理性CB1R阻断模型中，很难将外周组织中胰岛素敏感性提高的间接作用与抑制β细胞本身的CB1R的直接作用区分开来。为了评估β细胞CB1R对代谢的直接贡献，我们设计了一种小鼠模型，该模型允许我们确定CB1R在全身代谢的背景下在β细胞中的特定作用。

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期刊名称 Springer Open Choice
作者
Isabel González-Mariscal; Rodrigo A. Montoro; Máire E. Doyle; Qing-Rong Liu; Michael Rouse; Jennifer F. O’Connell; Sara Santa-Cruz Calvo; Susan M. Krzysik-Walker; Soumita Ghosh; Olga D. Carlson; Elin Lehrmann; Yongqing Zhang; Kevin G. Becker; Chee W. Chia; Paritosh Ghosh; Josephine M. Egan;
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作者单位

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年(卷),期 -1(61),6
年度 -1
页码 1470–1483
总页数 14
原文格式 PDF
正文语种
中图分类外科学;
关键词
Beta cell Beta cell proliferation Beta cell viability Cannabinoid 1 receptor Diabetes Inflammation Insulin Insulin resistance Islet of Langerhans Mouse;

机译：Beta细胞;Beta细胞增殖;Beta细胞活力;大麻素1受体;糖尿病;炎症;胰岛素;胰岛素抵抗;朗格汉斯岛;小鼠;
入库时间 2022-08-21 11:01:11

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1. [Beta]-Cell Failure in Diet-Induced Obese Mice Stratified According to Body Weight Gain: Secretory Dysfunction and Altered Islet Lipid Metabolism Without Steatosis or Reduced [Beta]-Cell Mass [J] . Marie-Line Peyot Emilie Pepin Julien Lamontagne Martin G Latour Bader Zarrouki Roxane Lussier Marco Pineda Thomas L Jetton S R Murthy Madiraju Erik Joly Marc Prentki Diabetes . 2010,第9期

机译：根据体重增加将饮食诱导的肥胖小鼠中的β细胞衰竭分层：分泌功能障碍和胰岛脂质代谢改变，而无脂肪变性或β细胞质量降低
2. Angiotensin Type 2 Receptor Agonist C21 Ameliorates the High-Fat Diet-Induced Pancreatic beta-Cell Dysfunction Partially by Activation of Antiapoptosis and Autophagy [J] . Liu Min, Li Xiaojing, Ha Si, Pancreas . 2019,第2期

机译：血管紧张素2型受体激动剂C21通过激活抗痘病和自噬改善高脂饮食诱导的胰腺β细胞功能障碍
3. Toll-like receptor 2-deficient mice are protected from insulin resistance and beta cell dysfunction induced by a high-fat diet [J] . J. A. Ehses, D. T. Meier, S. Wueest, Diabetologia . 2010,第8期

机译：Toll样受体2缺陷型小鼠免受高脂饮食诱导的胰岛素抵抗和β细胞功能障碍
4. TGF-beta1 siRNA Decreases Expression of TGF-beta1, FGF-2 and Their Receptors in Mouse Dura Cell Culture [C] . D.O. BECK, A. FATHI, N. HALLIGAN, International Society of Craniofacial Surgery . 2007

机译：TGF-Beta1 siRNA降低了小鼠Dura细胞培养中TGF-β1，FGF-2及其受体的表达
5. Estrogen Receptor Activation Suppresses Lipogenesis and Reduces Lipid Accumulation in Pancreatic Islets and Prevents Lipotoxic beta-cell Failure [D] . Tiano, Joseph P. 2012

机译：雌激素受体激活抑制胰岛的脂肪生成并减少脂质积累，并防止脂毒性β细胞衰竭
6. Butyrate reduces high-fat diet-induced metabolic alterations hepaticsteatosis and pancreatic beta cell and intestinal barrier dysfunctions in prediabeticmice [O] . VA Matheus, LCS Monteiro, RB Oliveira, 2017

机译：丁酸盐可减少高脂饮食引起的肝脏代谢改变糖尿病前期脂肪变性和胰腺β细胞与肠道屏障功能障碍老鼠
7. Absence of cannabinoid 1 receptor in beta cells protects against high-fat/high-sugar diet-induced beta cell dysfunction and inflammation in murine islets [O] . Isabel González-Mariscal, Rodrigo A. Montoro, Máire E. Doyle, 2018

机译：在β细胞中没有大麻素1受体，可防止高脂肪/高糖饮食诱导的β细胞功能障碍和鼠胰岛中的炎症

Absence of cannabinoid 1 receptor in beta cells protects against high-fat/high-sugar diet-induced beta cell dysfunction and inflammation in murine islets

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