海马 PACAP 信号激活可引发快速抗抑郁反应。

IF 16.7 2区 医学 Q1 MEDICINE, GENERAL & INTERNAL Military Medical Research Pub Date : 2024-07-23 DOI:10.1186/s40779-024-00548-1
Hai-Lou Zhang, Yan Sun, Zhang-Jie Wu, Ying Yin, Rui-Yi Liu, Ji-Chun Zhang, Zhang-Jin Zhang, Suk-Yu Yau, Hao-Xin Wu, Ti-Fei Yuan, Li Zhang, Miroslav Adzic, Gang Chen
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引用次数: 0

摘要

背景:氯胺酮类快速抗抑郁药的开发有望提高抑郁症的疗效,但其潜在的细胞和分子机制仍不清楚。本文研究了与抑郁症调节有关的神经肽垂体腺苷酸环化酶激活多肽(PACAP),以探讨其在介导快速抗抑郁反应中的作用:方法:通过抑郁相关行为范式评估抗抑郁反应的起始时间。通过定点基因敲除、药物干预或光遗传学操作,评估了 PACAP 在海马齿状回(DG)中的信号转导机制。共有 446 只小鼠接受了行为和分子信号测试。每次实验将小鼠随机分为对照组和实验组,实验操作包括:长期帕罗西汀治疗(4、9、14 d)或氯胺酮单次治疗;社交失败或注射脂多糖诱导抑郁模型;不同剂量的 PACAP(0.4、2、4 纳克/位点;海马 DG 显微注射);DG 内药理学干预(CALM 和 PACAP6-38);DG 内病毒介导的 PACAP RNAi;以及使用通道视蛋白 2(ChR2)或内质网卤化视蛋白 3.0(eNpHR3.0)的opotogenetics。行为范式包括新奇抑制摄食试验、尾悬挂试验、强迫游泳试验和蔗糖偏好试验。用 Western 印迹、ELISA 或定量实时 PCR(RT-PCR)分析检测海马中蛋白质/肽或基因的表达:结果:慢性给药慢发性抗抑郁药帕罗西汀会导致海马PACAP表达增加,而DG内阻断PACAP会减弱抗抑郁反应的发生。在两种不同的抑郁症动物模型中,海马 PACAP 的表达水平都有所降低,DG 内敲除 PACAP 会诱发类似抑郁症的行为。相反,在正常小鼠和慢性应激小鼠中,向DG区注入一次PACAP可产生快速而持续的抗抑郁反应。对表达 PACAP 的神经元进行 DG 内光遗传激发可立即产生抗抑郁反应,而光遗传抑制则会诱发抑郁样行为。光遗传激发/抑制时间越长,引起的抗抑郁/抑郁样反应越持久。通过抑制钙/钙调蛋白依赖性蛋白激酶II(CaMKII)-真核细胞延伸因子2(eEF2)和激活哺乳动物雷帕霉素靶标(mTOR),DG内PACAP输注立即促进了快速抗抑郁反应的信号传导。在DG内预先激活CaMKII信号会减弱PACAP诱导的快速抗抑郁反应以及eEF2-mTOR-脑源性神经营养因子(BDNF)信号。最后,急性氯胺酮治疗会上调海马PACAP的表达,而DG内阻断PACAP信号传导会减弱氯胺酮的快速抗抑郁反应:结论:激活海马PACAP信号通过调节CaMKII抑制管理的eEF2-mTOR-BDNF信号诱导快速抗抑郁反应。
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Hippocampal PACAP signaling activation triggers a rapid antidepressant response.

Background: The development of ketamine-like rapid antidepressants holds promise for enhancing the therapeutic efficacy of depression, but the underlying cellular and molecular mechanisms remain unclear. Implicated in depression regulation, the neuropeptide pituitary adenylate cyclase-activating polypeptide (PACAP) is investigated here to examine its role in mediating the rapid antidepressant response.

Methods: The onset of antidepressant response was assessed through depression-related behavioral paradigms. The signaling mechanism of PACAP in the hippocampal dentate gyrus (DG) was evaluated by utilizing site-directed gene knockdown, pharmacological interventions, or optogenetic manipulations. Overall, 446 mice were used for behavioral and molecular signaling testing. Mice were divided into control or experimental groups randomly in each experiment, and the experimental manipulations included: chronic paroxetine treatments (4, 9, 14 d) or a single treatment of ketamine; social defeat or lipopolysaccharides-injection induced depression models; different doses of PACAP (0.4, 2, 4 ng/site; microinjected into the hippocampal DG); pharmacological intra-DG interventions (CALM and PACAP6-38); intra-DG viral-mediated PACAP RNAi; and opotogenetics using channelrhodopsins 2 (ChR2) or endoplasmic natronomonas halorhodopsine 3.0 (eNpHR3.0). Behavioral paradigms included novelty suppressed feeding test, tail suspension test, forced swimming test, and sucrose preference test. Western blotting, ELISA, or quantitative real-time PCR (RT-PCR) analysis were used to detect the expressions of proteins/peptides or genes in the hippocampus.

Results: Chronic administration of the slow-onset antidepressant paroxetine resulted in an increase in hippocampal PACAP expression, and intra-DG blockade of PACAP attenuated the onset of the antidepressant response. The levels of hippocampal PACAP expression were reduced in both two distinct depression animal models and intra-DG knockdown of PACAP induced depression-like behaviors. Conversely, a single infusion of PACAP into the DG region produced a rapid and sustained antidepressant response in both normal and chronically stressed mice. Optogenetic intra-DG excitation of PACAP-expressing neurons instantly elicited antidepressant responses, while optogenetic inhibition induced depression-like behaviors. The longer optogenetic excitation/inhibition elicited the more sustained antidepressant/depression-like responses. Intra-DG PACAP infusion immediately facilitated the signaling for rapid antidepressant response by inhibiting calcium/calmodulin-dependent protein kinase II (CaMKII)-eukaryotic elongation factor 2 (eEF2) and activating the mammalian target of rapamycin (mTOR). Pre-activation of CaMKII signaling within the DG blunted PACAP-induced rapid antidepressant response as well as eEF2-mTOR-brain-derived neurotrophic factor (BDNF) signaling. Finally, acute ketamine treatment upregulated hippocampal PACAP expression, whereas intra-DG blockade of PACAP signaling attenuated ketamine's rapid antidepressant response.

Conclusions: Activation of hippocampal PACAP signaling induces a rapid antidepressant response through the regulation of CaMKII inhibition-governed eEF2-mTOR-BDNF signaling.

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来源期刊
Military Medical Research
Military Medical Research Medicine-General Medicine
CiteScore
38.40
自引率
2.80%
发文量
485
审稿时长
8 weeks
期刊介绍: Military Medical Research is an open-access, peer-reviewed journal that aims to share the most up-to-date evidence and innovative discoveries in a wide range of fields, including basic and clinical sciences, translational research, precision medicine, emerging interdisciplinary subjects, and advanced technologies. Our primary focus is on modern military medicine; however, we also encourage submissions from other related areas. This includes, but is not limited to, basic medical research with the potential for translation into practice, as well as clinical research that could impact medical care both in times of warfare and during peacetime military operations.
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