热的是:药物引起的热疗的分子机制

Christine K. Dao, Sara M. Nowinski, E. Mills
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引用次数: 18

摘要

体温调节是一个重要的内稳态过程,其中热量产生和耗散的关键机制在很大程度上由下丘脑集中控制,并通过交感神经系统的激活在外围控制。破坏这种高度协调的多器官过程的药物会导致危及生命的高热。在大多数情况下,高热药物通过增加中枢和外周热调节神经递质的释放来提高体温,最终导致产热效应器官骨骼肌(SKM)和棕色脂肪组织(BAT)的产热。在许多情况下,热疗药物也会通过外周血管血流的改变来减少散热。药物诱导的产热是由通常调节适应性产热反应的机制刺激驱动的,包括寒战和非寒战产热(NST)机制。BAT中解偶联蛋白1 (uncoupling protein 1, UCP1)对线粒体电化学质子/pH梯度的调节是NST应对寒冷的最明确机制,可能有助于拟交感神经药物诱导的产热,但这还远未确定。然而,UCP1同源物、UCP3和ryanodine受体(RYR1)是SKM中毒性诱导高热的已知介质。确定协调药物诱导热疗的分子机制对于开发热源性疾病的治疗方式至关重要。本文将简要概述体温调节的机制,并提供可导致热疗的药物的调查。我们还将概述调节热效应器官BAT和SKM中实际产热过程的已建立和候选分子机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The heat is on: Molecular mechanisms of drug-induced hyperthermia
Thermoregulation is an essential homeostatic process in which critical mechanisms of heat production and dissipation are controlled centrally in large part by the hypothalamus and peripherally by activation of the sympathetic nervous system. Drugs that disrupt the components of this highly orchestrated multi-organ process can lead to life-threatening hyperthermia. In most cases, hyperthermic agents raise body temperature by increasing the central and peripheral release of thermoregulatory neurotransmitters that ultimately lead to heat production in thermogenic effector organs skeletal muscle (SKM) and brown adipose tissue (BAT). In many cases hyperthermic drugs also decrease heat dissipation through peripheral changes in blood flow. Drug-induced heat production is driven by the stimulation of mechanisms that normally regulate the adaptive thermogenic responses including both shivering and non-shivering thermogenesis (NST) mechanisms. Modulation of the mitochondrial electrochemical proton/pH gradient by uncoupling protein 1 (UCP1) in BAT is the most well characterized mechanism of NST in response to cold, and may contribute to thermogenesis induced by sympathomimetic agents, but this is far from established. However, the UCP1 homologue, UCP3, and the ryanodine receptor (RYR1) are established mediators of toxicant-induced hyperthermia in SKM. Defining the molecular mechanisms that orchestrate drug-induced hyperthermia will be essential in developing treatment modalities for thermogenic illnesses. This review will briefly summarize mechanisms of thermoregulation and provide a survey of pharmacologic agents that can lead to hyperthermia. We will also provide an overview of the established and candidate molecular mechanisms that regulate the actual thermogenic processes in heat effector organs BAT and SKM.
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