α-黑色素细胞刺激素有助于雄性 C57BL6/J 小鼠对脂多糖产生抗炎反应。

IF 7 2区医学 Q1 ENDOCRINOLOGY & METABOLISM

Molecular Metabolism Pub Date : 2024-07-09 DOI:10.1016/j.molmet.2024.101986

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引用次数: 0

摘要

目的：在感染过程中，新陈代谢和免疫会通过尚不明确的机制动态地促进生存。前黑皮素（POMC）裂解产物在大脑和垂体中产生并释放。其中一种 POMC 裂解产物--α-黑色素细胞刺激素（α-MSH）可调节食物摄入量和能量消耗，并具有抗炎作用。然而，α-MSH 是否是调节生理抗炎反应所必需的，目前尚不清楚。我们最近开发了一种新型小鼠模型，该模型中的 Pomc 基因发生了靶向突变（Pomctm1/tm1 小鼠），从而阻断了调节新陈代谢所需的所有形式的 α-MSH 的产生。为了测试调节免疫反应是否需要内源性 α-MSH，我们比较了 Pomctm1/tm1 和野生型 Pomcwt/wt 小鼠由细菌脂多糖（LPS）诱发的急性炎症：我们给10到14周大的雄性Pomctm1/tm1和Pomcwt/wt小鼠单次静脉注射生理盐水或低剂量LPS（100 μg/kg），并监测免疫和代谢反应。我们使用遥测技术测量核心体温 (Tb)，使用 ELISA 测量循环细胞因子、皮质酮和α-MSH，使用代谢室测量体重、食物摄入量、活动量和呼吸量。我们还开发了一种质谱方法来测量小鼠下丘脑和垂体产生的三种形式的α-MSH：结果：与 Pomcwt/wt 小鼠相比，LPS 在 Pomctm1/tm1 小鼠中诱导了一种夸张的免疫反应。在注射 LPS 后，两组小鼠均出现低反应和低体温，但与注射 LPS 的对照组小鼠相比，Pomctm1/tm1 小鼠的低体温程度明显更高。与对照组相比，Pomctm1/tm1 小鼠的耗氧量也减少了，对 LPS 的代谢反应也受损了。与 Pomcwt/wt 小鼠相比，Pomctm1/tm1 小鼠在注射 LPS 后 2 小时和 4 小时的主要促炎细胞因子水平升高。最后，与生理盐水相比，注射 LPS 后 2 小时，Pomcwt/wt 小鼠血液循环中的α-MSH 总量增加：我们的数据表明，内源性α-MSH有助于低剂量 LPS 给药引发的炎症免疫反应，并表明以黑色素皮质素系统为靶点可能是治疗败血症或炎症性疾病的一种潜在疗法。

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Alpha-melanocyte-stimulating hormone contributes to an anti-inflammatory response to lipopolysaccharide

Objective

During infection, metabolism and immunity react dynamically to promote survival through mechanisms that remain unclear. Pro-opiomelanocortin (POMC) cleavage products are produced and released in the brain and in the pituitary gland. One POMC cleavage product, alpha-melanocyte-stimulating hormone (α-MSH), is known to regulate food intake and energy expenditure and has anti-inflammatory effects. However, it is not known whether α-MSH is required to regulate physiological anti-inflammatory responses. We recently developed a novel mouse model with a targeted mutation in Pomc (Pomc^tm1/tm1 mice) to block production of all α-MSH forms which are required to regulate metabolism. To test whether endogenous α-MSH is required to regulate immune responses, we compared acute bacterial lipopolysaccharide (LPS)-induced inflammation between Pomc^tm1/tm1 and wild-type Pomc^wt/wt mice.

Methods

We challenged 10- to 14-week-old male Pomc^tm1/tm1 and Pomc^wt/wt mice with single i.p. injections of either saline or low-dose LPS (100 μg/kg) and monitored immune and metabolic responses. We used telemetry to measure core body temperature (T_b), ELISA to measure circulating cytokines, corticosterone and α-MSH, and metabolic chambers to measure body weight, food intake, activity, and respiration. We also developed a mass spectrometry method to measure three forms of α-MSH produced in the mouse hypothalamus and pituitary gland.

Results

LPS induced an exaggerated immune response in Pomc^tm1/tm1 compared to Pomc^wt/wt mice. Both groups of mice were hypoactive and hypothermic following LPS administration, but Pomc^tm1/tm1 mice were significantly more hypothermic compared to control mice injected with LPS. Pomc^tm1/tm1 mice also had reduced oxygen consumption and impaired metabolic responses to LPS compared to controls. Pomc^tm1/tm1 mice had increased levels of key proinflammatory cytokines at 2 h and 4 h post LPS injection compared to Pomc^wt/wt mice. Lastly, Pomc^wt/wt mice injected with LPS compared to saline had increased total α-MSH in circulation 2 h post injection.

Conclusions

Our data indicate endogenous α-MSH contributes to the inflammatory immune responses triggered by low-dose LPS administration and suggest that targeting the melanocortin system could be a potential therapeutic for the treatment of sepsis or inflammatory disease.

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来源期刊

Molecular Metabolism ENDOCRINOLOGY & METABOLISM-

CiteScore

14.50

自引率

2.50%

发文量

219

审稿时长

43 days

期刊介绍： Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.