Inhibition of GSDMD-dependent pyroptosis decreased methamphetamine self-administration in rats

冰毒- 上睑下垂 甲基苯丙胺 药理学 伏隔核 被盖腹侧区 化学 多巴胺 医学 内科学 细胞凋亡 生物化学 程序性细胞死亡 单体 有机化学 多巴胺能 聚合物 丙烯酸酯
作者
Yao Shen,Xinshuang Gong,Liyin Qian,Yuer Ruan,Shujun Lin,Zhaoying Yu,Zizhen Si,Wenting Wei,Yu Liu
出处
期刊:Brain Behavior and Immunity [Elsevier BV]
卷期号:120: 167-180 被引量:6
标识
DOI:10.1016/j.bbi.2024.05.040
摘要

It is widely believed that the activation of the central dopamine (DA) system is crucial to the rewarding effects of methamphetamine (METH) and to the behavioral outcomes of METH use disorder. It was reported that METH exposure induced gasdermin D (GSDMD)-dependent pyroptosis in rats. The membrane pore formation caused by METH-induced pyroptosis may also contribute to the overflow of DA into the extracellular space and subsequently increase the DA levels in the brain. The present study firstly investigated whether the membrane pore information induced by GSDMD-dependent pyroptosis was associated with the increased DA levels in the ventral tegmental area (VAT) and nucleus accumbens (NAc) of rats self-administering METH and SY-SH5Y cells treated by METH. Subsequently, the effect of pore formation blockade or genetic inhibition of GSDMD on the reinforcing and motivational effect of METH was determined in rats, using the animal model of METH self-administration (SA). METH exposure significantly increased the activity of NLRP1/Cas-1/GSDMD pathway and the presence of pyroptosis, accompanied by the significantly increased DA levels in VTA and NAc. Moreover, intraperitoneal injections of disulfiram (DSF) or microinjection of rAAV-shGSDMD into VTA/NAc significantly reduced the reinforcing and motivational effect of METH, accompanied by the decreased level of DA in VTA and NAc. The results provided novel evidence that METH-induced pyroptosis could increase DA release in VTA and NAc via the NLRP1/Cas-1/GSDMD pathway. Additionally, membrane pores or GSDMD blockade could significantly reduce the reinforcing and motivational effect of METH. In conclusion, blocking GSDMD and membrane pore formation could be a promising potential target for the development of agents to treat METH use disorder
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