苯环利定诱导的精神分裂症样动物模型及其潜在神经机制的研究进展。

IF 3 Q2 PSYCHIATRY Schizophrenia (Heidelberg, Germany) Pub Date : 2024-07-23 DOI:10.1038/s41537-024-00485-x
Dabing Li, Qiangwen Pan, Yewei Xiao, Kehui Hu
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摘要

精神分裂症(SZ)是一种慢性严重精神障碍,临床表现多样,病因不明。长期以来,精神分裂症动物模型的可靠性低、发病机制不明确,限制了对 SZ 的研究。苯环利定(PCP)是一种非竞争性的 N-甲基-D-天冬氨酸受体(NMDAR)拮抗剂,能迅速诱导啮齿类动物出现 SZ 的阳性和阴性症状以及稳定的 SZ 相关认知障碍。然而,五氯苯酚诱发类似 SZ 症状的神经机制尚未完全明了。非多巴胺能病理生理学,特别是前额叶皮质(PFC)中 NMDAR 功能减退所诱发的谷氨酸过度释放,可能在 PCP 诱导的 SZ 类症状的发展过程中起着关键作用。在本综述中,我们总结了有关五氯苯酚的行为和代谢效应以及五氯苯酚在前额叶皮质和海马(HIP)中的细胞和环路靶点的研究。人们认为五氯苯酚对腹侧 HIP-PFC 通路的靶向作用强于 PFC-VTA 通路和丘脑皮层通路。全身服用五氯苯酚可能会优先抑制 vHIP 中的γ-氨基丁酸(GABA)神经元,进而导致海马锥体细胞失抑制。来自 HIP 的兴奋性输入可能会引发持续、过度和病理性的 PFC 锥体神经元激活,从而介导各种类似 SZ 的症状。此外,在五氯苯酚诱导的 SZ 模型中还观察到大脑皮层或海马的星形胶质细胞和小胶质细胞活化和氧化应激。这些发现完善了精神分裂症的低谷氨酸能假说。然而,这些效应是否是服用五氯苯酚的直接后果,以及五氯苯酚诱导的这些变化之间的关系如何,仍有待通过严格、因果和直接的实验证据来进一步阐明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Advances in the study of phencyclidine-induced schizophrenia-like animal models and the underlying neural mechanisms.

Schizophrenia (SZ) is a chronic, severe mental disorder with heterogeneous clinical manifestations and unknown etiology. Research on SZ has long been limited by the low reliability of and ambiguous pathogenesis in schizophrenia animal models. Phencyclidine (PCP), a noncompetitive N-methyl-D-aspartate receptor (NMDAR) antagonist, rapidly induces both positive and negative symptoms of SZ as well as stable SZ-related cognitive impairment in rodents. However, the neural mechanism underlying PCP-induced SZ-like symptoms is not fully understood. Nondopaminergic pathophysiology, particularly excessive glutamate release induced by NMDAR hypofunction in the prefrontal cortex (PFC), may play a key role in the development of PCP-induced SZ-like symptoms. In this review, we summarize studies on the behavioral and metabolic effects of PCP and the cellular and circuitary targets of PCP in the PFC and hippocampus (HIP). PCP is thought to target the ventral HIP-PFC pathway more strongly than the PFC-VTA pathway and thalamocortical pathway. Systemic PCP administration might preferentially inhibit gamma-aminobutyric acid (GABA) neurons in the vHIP and in turn lead to hippocampal pyramidal cell disinhibition. Excitatory inputs from the HIP may trigger sustained, excessive and pathological PFC pyramidal neuron activation to mediate various SZ-like symptoms. In addition, astrocyte and microglial activation and oxidative stress in the cerebral cortex or hippocampus have been observed in PCP-induced models of SZ. These findings perfect the hypoglutamatergic hypothesis of schizophrenia. However, whether these effects direct the consequences of PCP administration and how about the relationships between these changes induced by PCP remain further elucidation through rigorous, causal and direct experimental evidence.

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