中枢胃泌素治疗可逆转肥胖祖克大鼠下丘脑葡萄糖超敏诱导的胰岛素分泌

IF 5.9 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Antioxidants & redox signaling Pub Date : 2024-05-01 Epub Date: 2023-03-07 DOI:10.1089/ars.2022.0031
Lionel Carneiro, Claire Fenech, Fabienne Liénard, Sylvie Grall, Besma Abed, Joulia Haydar, Camille Allard, Lucie Desmoulins, Romain Paccoud, Marie-Claude Brindisi, Thomas Mouillot, Laurent Brondel, Xavier Fioramonti, Luc Pénicaud, Agnès Jacquin-Piques, Corinne Leloup
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引用次数: 0

摘要

目的:下丘脑(下丘脑中叶 [MBH])的部分神经元能检测血糖水平的变化,进而协调迷走神经对胰岛素分泌的控制。这一控制级联需要线粒体活性氧(mROS)的产生,而在肥胖和胰岛素抵抗模型中,线粒体活性氧的产生发生了改变。肥胖、胰岛素抵抗的 Zücker 大鼠的特点是下丘脑对葡萄糖过敏。这导致迷走神经诱导的胰岛素分泌异常,与低剂量葡萄糖时产生过多的 mROS 有关。在这里,我们假设,已知可通过线粒体功能缓冲活性氧(ROS)的胃泌素可能是下丘脑对葡萄糖超敏反应的主要组成部分。研究结果下丘脑葡萄糖超敏诱导的 Zücker 肥胖大鼠胰岛素分泌被胃泌素预处理逆转。之前接受过脑部胃泌素输注的肥胖大鼠不再对低葡萄糖负荷产生过多的 MBH mROS。mROS 生成的减少伴随着氧化磷酸化(OXPHOS)的正常化。相反,在高胰高血糖素血症模型(禁食大鼠)中使用生长激素分泌受体拮抗剂阻断胰高血糖素的作用,可完全恢复下丘脑葡萄糖感应诱导的胰岛素分泌,而在这种生理情况下,胰岛素分泌几乎不存在。相应地,胃泌素受体拮抗剂增加了 ROS 信号传导和线粒体活性。创新性:这些结果首次证明,仅作用于大脑的胃泌素可对胰岛素抵抗、低胃泌素血症肥胖者的胰岛素分泌控制缺陷产生保护作用。研究结论胰高血糖素通过其对氧合OS的作用,可调节mROS信号传导,以应对脑部高血糖和随之而来的迷走神经对胰岛素分泌的控制。在胰岛素抵抗性肥胖状态下,脑低胰高血糖素血症可能是胰岛素分泌神经缺陷的原因。
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Hypothalamic Glucose Hypersensitivity-Induced Insulin Secretion in the Obese Zücker Rat Is Reversed by Central Ghrelin Treatment.

Aims: Part of hypothalamic (mediobasal hypothalamus [MBH]) neurons detect changes in blood glucose levels that in turn coordinate the vagal control of insulin secretion. This control cascade requires the production of mitochondrial reactive oxygen species (mROS), which is altered in models of obesity and insulin resistance. Obese, insulin-resistant Zücker rats are characterized by hypothalamic hypersensitivity to glucose. This initiates an abnormal vagus-induced insulin secretion, associated with an overproduction of mROS in response to a low glucose dose. Here, we hypothesized that ghrelin, known to buffer reactive oxygen species (ROS) via mitochondrial function, may be a major component of the hypothalamic glucose hypersensitivity in the hypoghrelinemic obese Zücker rat. Results: Hypothalamic glucose hypersensitivity-induced insulin secretion of Zücker obese rats was reversed by ghrelin pretreatment. The overproduction of MBH mROS in response to a low glucose load no longer occurred in obese rats that had previously received the cerebral ghrelin infusion. This decrease in mROS production was accompanied by a normalization of oxidative phosphorylation (OXPHOS). Conversely, blocking the action of ghrelin with a growth hormone secretagogue receptor antagonist in a model of hyperghrelinemia (fasted rats) completely restored hypothalamic glucose sensing-induced insulin secretion that was almost absent in this physiological situation. Accordingly, ROS signaling and mitochondrial activity were increased by the ghrelin receptor antagonist. Innovation: These results demonstrate for the first time that ghrelin addressed only to the brain could have a protective effect on the defective control of insulin secretion in the insulin-resistant, hypoghrelinemic obese subject. Conclusions: Ghrelin, through its action on OXPHOS, modulates mROS signaling in response to cerebral hyperglycemia and the consequent vagal control of insulin secretion. In insulin-resistant obese states, brain hypoghrelinemia could be responsible for the nervous defect in insulin secretion.

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来源期刊
Antioxidants & redox signaling
Antioxidants & redox signaling 生物-内分泌学与代谢
CiteScore
14.10
自引率
1.50%
发文量
170
审稿时长
3-6 weeks
期刊介绍: Antioxidants & Redox Signaling (ARS) is the leading peer-reviewed journal dedicated to understanding the vital impact of oxygen and oxidation-reduction (redox) processes on human health and disease. The Journal explores key issues in genetic, pharmaceutical, and nutritional redox-based therapeutics. Cutting-edge research focuses on structural biology, stem cells, regenerative medicine, epigenetics, imaging, clinical outcomes, and preventive and therapeutic nutrition, among other areas. ARS has expanded to create two unique foci within one journal: ARS Discoveries and ARS Therapeutics. ARS Discoveries (24 issues) publishes the highest-caliber breakthroughs in basic and applied research. ARS Therapeutics (12 issues) is the first publication of its kind that will help enhance the entire field of redox biology by showcasing the potential of redox sciences to change health outcomes. ARS coverage includes: -ROS/RNS as messengers -Gaseous signal transducers -Hypoxia and tissue oxygenation -microRNA -Prokaryotic systems -Lessons from plant biology
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