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首页> 美国卫生研究院文献>American Journal of Physiology - Regulatory Integrative and Comparative Physiology >Integrative and Translational Physiology: Integrative Aspects of Energy Homeostasis and Metabolic Diseases: Anti-ghrelin Spiegelmer inhibits exogenous ghrelin-induced increases in food intake hoarding and neural activation but not food deprivation-induced increases
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Integrative and Translational Physiology: Integrative Aspects of Energy Homeostasis and Metabolic Diseases: Anti-ghrelin Spiegelmer inhibits exogenous ghrelin-induced increases in food intake hoarding and neural activation but not food deprivation-induced increases

机译:综合和转化生理学:能量稳态和代谢性疾病的综合方面:抗生长激素释放肽Spiegelmer抑制外源性生长激素释放肽引起的食物摄入ho积和神经激活的增加但不抑制食物匮乏引起的增加

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Circulating concentrations of the stomach-derived “hunger-peptide” ghrelin increase in direct proportion to the time since the last meal. Exogenous ghrelin also increases food intake in rodents and humans, suggesting ghrelin may increase post-fast ingestive behaviors. Food intake after food deprivation is increased by laboratory rats and mice, but not by humans (despite dogma to the contrary) or by Siberian hamsters; instead, humans and Siberian hamsters increase food hoarding, suggesting the latter as a model of fasting-induced changes in human ingestive behavior. Exogenous ghrelin markedly increases food hoarding by ad libitum-fed Siberian hamsters similarly to that after food deprivation, indicating sufficiency. Here, we tested the necessity of ghrelin to increase food foraging, food hoarding, and food intake, and neural activation [c-Fos immunoreactivity (c-Fos-ir)] using anti-ghrelin Spiegelmer NOX-B11–2 (SPM), an l-oligonucleotide that specifically binds active ghrelin, inhibiting peptide-receptor interaction. SPM blocked exogenous ghrelin-induced increases in food hoarding the first 2 days after injection, and foraging and food intake at 1–2 h and 2–4 h, respectively, and inhibited hypothalamic c-Fos-ir. SPM given every 24 h across 48-h food deprivation inconsistently inhibited food hoarding after refeeding and c-Fos-ir, similarly to inabilities to do so in laboratory rats and mice. These results suggest that ghrelin may not be necessary for food deprivation-induced foraging and hoarding and neural activation. A possible compensatory response, however, may underlie these findings because SPM treatment led to marked increases in circulating ghrelin concentrations. Collectively, these results show that SPM can block exogenous ghrelin-induced ingestive behaviors, but the necessity of ghrelin for food deprivation-induced ingestive behaviors remains unclear.
机译:胃源性“饥饿肽”生长素释放肽的循环浓度与上一顿饭后的时间成正比。外源性生长素释放肽还增加了啮齿动物和人类的食物摄入量,这表明生长素释放肽可能会增加禁食后的行为。实验室老鼠和老鼠增加了食物剥夺后的食物摄入量,但人类(尽管教条相反)或西伯利亚仓鼠却没有增加食物摄入。取而代之的是,人类和西伯利亚仓鼠增加了食物ho积,表明后者是空腹引起的人类食欲变化的模型。外来的生长素释放肽显着增加了随意喂食西伯利亚仓鼠的食物ho积,这与食物匮乏后的情况相似,表明食物充足。在这里,我们测试了使用生长激素释放肽Spiegelmer NOX-B11-2(SPM)来检测生长素释放肽增加食物觅食,食物ho积和食物摄入以及神经激活[c-Fos免疫反应性(c-Fos-ir)]的必要性,一种特异性结合活性生长素释放肽的l-寡核苷酸,可抑制肽-受体相互作用。 SPM在注射后的前2天阻止了外源性生长激素释放肽诱导的食物increases积,并分别在1-2 h和2-4 h觅食和进食,并抑制了下丘脑c-Fos-ir。在48小时的食物剥夺中,每24小时给予SPM会在喂食和c-Fos-ir后不一致地抑制食物ard积,这与实验室大鼠和小鼠无能为力一样。这些结果表明,生长素释放肽可能对于食物匮乏引起的觅食和ho积以及神经激活不是必需的。然而,可能的补偿性反应可能是这些发现的基础,因为SPM治疗导致循环生长激素释放肽浓度显着增加。总的来说,这些结果表明,SPM可以阻断外源性生长激素释放肽诱导的摄入行为,但是生长激素释放肽对食物匮乏引起的摄入行为的必要性仍不清楚。

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