mu -阿片样物质和NMDA谷氨酸受体的直接关联支持它们的交叉调节:阿片样物质耐受性的分子意义。

Javier Garzón, María Rodríguez-Muñoz, Pilar Sánchez-Blázquez
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引用次数: 78

摘要

在神经系统中,吗啡及其衍生物等阿片样物质与G蛋白偶联的mu -阿片样受体(MOR)相互作用,引起镇痛耐受和身体依赖的发展。耐受性意味着需要增加药物剂量才能达到同样的效果,这一现象在很大程度上导致了与娱乐性阿片类药物滥用有关的社会问题。近年来,我们对控制神经系统MOR功能并最终产生阿片类药物耐受性的机制的了解大大增加。药理学研究已经确定了一些参与吗啡诱导耐受的信号蛋白,包括n -甲基-d -天冬氨酸谷氨酸受体(NMDAR)、一氧化氮合酶(NOS)、蛋白激酶C (PKC)、蛋白激酶a (PKA)、钙(Ca 2 +)/钙调素(CaM)依赖性激酶II (CaMKII)、delta-阿片受体(DOR)和g蛋白信号传导(RGS)蛋白的调节因子。NMDAR/nNOS/CaMKII通路在这一过程中起着关键作用,这一观点得到了最近MORs和NMDARs在突触后结构中的物理关联的证明的支持。事实上,降低吗啡耐受性的治疗可能针对相同的调节MOR-NMDAR通路中的不同元素。因此,我们提出了一个包含与阿片耐受性相关的最相关信号成分的模型,其中来自激活的MOR的某些信号被相关的NMDAR感知,而NMDAR反过来对MOR信号施加负反馈效应。MOR和nmdar介导的信号以顺序和相互关联的方式共同作用,最终诱导MOR脱敏。未来对这些现象的研究应侧重于在这一信号通路中添加更多的成分,以便更好地定义神经细胞中MOR脱敏的机制。
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Direct association of Mu-opioid and NMDA glutamate receptors supports their cross-regulation: molecular implications for opioid tolerance.

In the nervous system, the interaction of opioids like morphine and its derivatives, with the G protein-coupled Mu-opioid receptor (MOR) provokes the development of analgesic tolerance, as well as physical dependence. Tolerance implies that increasing doses of the drug are required to achieve the same effect, a phenomenon that contributes significantly to the social problems surrounding recreational opioid abuse. In recent years, our understanding of the mechanisms that control MOR function in the nervous system, and that eventually produce opioid tolerance, has increased greatly. Pharmacological studies have identified a number of signaling proteins involved in morphine-induced tolerance, including the N-methyl-D-aspartate acid glutamate receptor (NMDAR), nitric oxide synthase (NOS), protein kinase C (PKC), protein kinase A (PKA), calcium (Ca²⁺)/calmodulin (CaM)-dependent kinase II (CaMKII), delta-opioid receptor (DOR) and the regulators of G-protein signaling (RGS) proteins. There is general agreement on the critical role of the NMDAR/nNOS/CaMKII pathway in this process, which is supported by the recent demonstration of a physical association between MORs and NMDARs in post-synaptic structures. Indeed, it is feasible that treatments that diminish morphine tolerance may target distinct elements within the same regulatory MOR-NMDAR pathway. Accordingly, we propose a model that incorporates the most relevant signaling components implicated in opioid tolerance in which, certain signals originating from the activated MOR are perceived by the associated NMDAR, which in turn exerts a negative feedback effect on MOR signaling. MOR- and NMDAR-mediated signals work together in a sequential and interconnected manner to ultimately induce MOR desensitization. Future studies of these phenomena should focus on adding further components to this signaling pathway in order to better define the mechanism underlying MOR desensitization in neural cells.

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