Dopamine receptor agonists mechanism of actions on glucose lowering and their connections with prolactin actions.

Hung-Yu Chien, Su-Mei Chen, Wan-Chun Li
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引用次数: 3

Abstract

Robust experiment evidence suggests that prolactin can enhance beta-cell proliferation and increase insulin secretion and sensitivity. Apart from acting as an endocrine hormone, it also function as an adipokine and act on adipocytes to modulate adipogenesis, lipid metabolism and inflammation. Several cross-sectional epidemiologic studies consistently showed that circulating prolactin levels positive correlated with increased insulin sensitivity, lower glucose and lipid levels, and lower prevalence of T2D and metabolic syndrome. Bromocriptine, a dopamine receptor agonist used to treat prolactinoma, is approved by Food and Drug Administration for treatment in type 2 diabetes mellitus since 2009. Prolactin lowering suppress insulin secretion and decrease insulin sensitivity, therefore dopamine receptor agonists which act at the pituitary to lower serum prolactin levels are expected to impair glucose tolerance. Making it more complicating, studies exploring the glucose-lowering mechanism of bromocriptine and cabergoline have resulted in contradictory results; while some demonstrated actions independently on prolactin status, others showed glucose lowering partly explained by prolactin level. Previous studies showed that a moderate increase in central intraventricular prolactin levels stimulates hypothalamic dopamine with a decreased serum prolactin level and improved glucose metabolism. Additionally, sharp wave-ripples from the hippocampus modulates peripheral glucose level within 10 minutes, providing evidence for a mechanistic link between hypothalamus and blood glucose control. Central insulin in the mesolimbic system have been shown to suppress dopamine levels thus comprising a feedback control loop. Central dopamine and prolactin levels plays a key role in the glucose homeostasis control, and their dysregulation could lead to the pathognomonic central insulin resistance depicted in the "ominous octet". This review aims to provide an in-depth discussion on the glucose-lowering mechanism of dopamine receptor agonists and on the diverse prolactin and dopamine actions on metabolism targets.

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多巴胺受体激动剂的降糖作用机制及其与催乳素作用的联系。
强有力的实验证据表明,催乳素可以促进β细胞增殖,增加胰岛素分泌和敏感性。除了作为内分泌激素外,它还具有脂肪因子的作用,作用于脂肪细胞,调节脂肪生成、脂质代谢和炎症。几项横断面流行病学研究一致表明,循环催乳素水平与胰岛素敏感性升高、血糖和脂质水平降低、T2D和代谢综合征患病率降低呈正相关。溴隐亭是一种用于治疗催乳素瘤的多巴胺受体激动剂,自2009年以来被美国食品和药物管理局批准用于治疗2型糖尿病。降低催乳素抑制胰岛素分泌,降低胰岛素敏感性,因此多巴胺受体激动剂作用于垂体降低血清催乳素水平,预计会损害葡萄糖耐量。更复杂的是,探索溴隐亭和卡麦角林降血糖机制的研究结果相互矛盾;虽然一些显示作用独立于催乳素状态,其他显示血糖降低部分解释催乳素水平。先前的研究表明,中枢性脑室内催乳素水平的适度增加刺激下丘脑多巴胺,降低血清催乳素水平,改善葡萄糖代谢。此外,来自海马体的尖锐波纹在10分钟内调节外周葡萄糖水平,为下丘脑和血糖控制之间的机制联系提供了证据。中脑边缘系统的中枢胰岛素已被证明可以抑制多巴胺水平,从而构成一个反馈控制回路。中枢多巴胺和催乳素水平在葡萄糖稳态控制中起着关键作用,它们的失调可能导致“不祥八体”中描述的病态中枢胰岛素抵抗。本文旨在就多巴胺受体激动剂的降糖机制以及催乳素和多巴胺对代谢靶点的不同作用进行深入探讨。
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