可卡因诱导的小鼠凹凸核中表达多巴胺 D1 受体和 D2 受体的中刺神经元可塑性的基本性别差异

Andrew D. Chapp , Chinonso A. Nwakama , Pramit P. Jagtap , Chau-Mi H. Phan , Mark J. Thomas , Paul G. Mermelstein
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引用次数: 0

摘要

背景可卡因诱导的雄性腰果核可塑性主要发生在表达多巴胺 D1 受体的中棘神经元(D1R-MSNs)中,对表达多巴胺 D2 受体的中棘神经元(D2R-MSNs)几乎没有影响。在雌性动物中,可卡因对umbens外壳D1R-和D2R-MSN神经生理学的影响尚未见报道,也未考虑发情周期的影响。然后,我们获得了发情期和绝经期雌雄小鼠腔核中荧光标记的 D1R-MSN 和 D2R-MSN 的体外全细胞记录。结果在雌性小鼠中,我们观察到整个发情周期中 D1R-MSN 兴奋性的改变,其程度与可卡因对雄性小鼠的影响相似。此外,可卡因还将发情周期依赖性可塑性从 D1R-MSN 的内在兴奋性变化转移到了 D2R-MSN。在雄性中,可卡因处理会导致 D1R-MSN 兴奋性的预期下降,而对 D2R-MSN 兴奋性没有影响。可卡因增加了发情期雌性 D2R-MSN 的 mEPSC 频率和振幅,以及绝经期雌性 D2R-MSN 的 mEPSC 振幅。结论总的来说,虽然可卡因诱导的 D1R-MSN 与 D2R-MSN 的相对兴奋性在两性之间存在相似的差异,但这是通过降低雄性的 D1R-MSN 兴奋性而介导的,而在雌性则是由于提高了 D2R-MSN 的兴奋性。
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Fundamental Sex Differences in Cocaine-Induced Plasticity of Dopamine D1 Receptor– and D2 Receptor–Expressing Medium Spiny Neurons in the Mouse Nucleus Accumbens Shell

Background

Cocaine-induced plasticity in the nucleus accumbens shell of males occurs primarily in dopamine D1 receptor–expressing medium spiny neurons (D1R-MSNs), with little if any impact on dopamine D2 receptor–expressing medium spiny neurons (D2R-MSNs). In females, the effect of cocaine on accumbens shell D1R- and D2R-MSN neurophysiology has yet to be reported, nor have estrous cycle effects been accounted for.

Methods

We used a 5-day locomotor sensitization paradigm followed by a 10- to 14-day drug-free abstinence period. We then obtained ex vivo whole-cell recordings from fluorescently labeled D1R-MSNs and D2R-MSNs in the nucleus accumbens shell of male and female mice during estrus and diestrus. We examined accumbens shell neuronal excitability as well as miniature excitatory postsynaptic currents (mEPSCs).

Results

In females, we observed alterations in D1R-MSN excitability across the estrous cycle similar in magnitude to the effects of cocaine in males. Furthermore, cocaine shifted estrous cycle–dependent plasticity from intrinsic excitability changes in D1R-MSNs to D2R-MSNs. In males, cocaine treatment produced the anticipated drop in D1R-MSN excitability with no effect on D2R-MSN excitability. Cocaine increased mEPSC frequencies and amplitudes in D2R-MSNs from females in estrus and mEPSC amplitudes of D2R-MSNs from females in diestrus. In males, cocaine increased both D1R- and D2R-MSN mEPSC amplitudes with no effect on mEPSC frequencies.

Conclusions

Overall, while there are similar cocaine-induced disparities regarding the relative excitability of D1R-MSNs versus D2R-MSNs between the sexes, this is mediated through reduced D1R-MSN excitability in males, whereas it is due to heightened D2R-MSN excitability in females.

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Biological psychiatry global open science
Biological psychiatry global open science Psychiatry and Mental Health
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