Glia-related Acute Effects of Risperidone and Haloperidol in Hippocampal Slices and Astrocyte Cultures from Adult Wistar Rats: A Focus on Inflammatory and Trophic Factor Release

IF 3.7 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Neurochemical Research Pub Date : 2024-11-19 DOI:10.1007/s11064-024-04273-y
Amanda da Silva, Larissa Daniele Bobermin, Camila Leite Santos, Rômulo Rodrigo de Souza Almeida, Lílian Juliana Lissner, Tiago Marcon dos Santos, Marina Seady, Marina Concli Leite, Angela T. S. Wyse, Carlos-Alberto Gonçalves, André Quincozes-Santos
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Abstract

Antipsychotics are drugs commonly prescribed to treat a variety of psychiatric conditions. They are classified as typical and atypical, depending on their affinity for dopaminergic and serotonergic receptors. Although neurons have been assumed to be the major mediators of the antipsychotic pharmacological effects, glia, particularly astrocytes, have emerged as important cellular targets for these drugs. In the present study, we investigated the effects of acute treatments with the antipsychotics risperidone and haloperidol of hippocampal slices and astrocyte cultures, focusing on neuron-glia communication and how antipsychotics act in astrocytes. For this, we obtained hippocampal slices and primary astrocyte cultures from 30-day-old Wistar rats and incubated them with risperidone or haloperidol (1 and 10 μM) for 30 min and 24 h, respectively. We evaluated metabolic and enzymatic activities, the glutathione level, the release of inflammatory and trophic factors, as well as the gene expression of signaling proteins. Haloperidol increased glucose metabolism; however, neither of the tested antipsychotics altered the glutathione content or glutamine synthetase and Na+K+-ATPase activities. Haloperidol induced a pro-inflammatory response and risperidone promoted an anti-inflammatory response, while both antipsychotics seemed to decrease trophic support. Haloperidol and risperidone increased Nrf2 and HO-1 gene expression, but only haloperidol upregulated NFκB and AMPK gene expression. Finally, astrocyte cultures confirmed the predominant effect of the tested antipsychotics on glia and their opposite effects on astrocytes. Therefore, antipsychotics cause functional alterations in the hippocampus. This information is important to drive future research for strategies to attenuate antipsychotics-induced neural dysfunction, focusing on glia.

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利培酮和氟哌啶醇在成年 Wistar 大鼠海马切片和星形胶质细胞培养物中与胶质细胞相关的急性效应:关注炎症和营养因子的释放。
抗精神病药物是治疗各种精神疾病的常用处方药。根据其对多巴胺能受体和血清素能受体的亲和力,它们被分为典型和非典型两类。虽然神经元一直被认为是抗精神病药理作用的主要介质,但神经胶质细胞,尤其是星形胶质细胞,已成为这些药物的重要细胞靶点。在本研究中,我们研究了抗精神病药物利培酮和氟哌啶醇急性治疗对海马切片和星形胶质细胞培养物的影响,重点是神经元与胶质细胞的交流以及抗精神病药物如何作用于星形胶质细胞。为此,我们从 30 天大的 Wistar 大鼠身上获取了海马切片和原代星形胶质细胞培养物,并分别用利培酮或氟哌啶醇(1 和 10 μM)培养 30 分钟和 24 小时。我们评估了代谢和酶活性、谷胱甘肽水平、炎症和营养因子的释放以及信号蛋白的基因表达。氟哌啶醇增加了葡萄糖代谢;然而,两种抗精神病药物都没有改变谷胱甘肽含量或谷氨酰胺合成酶和Na+K+-ATP酶的活性。氟哌啶醇会诱发促炎反应,利培酮会促进抗炎反应,而这两种抗精神病药物似乎都会减少营养支持。氟哌啶醇和利培酮增加了Nrf2和HO-1基因的表达,但只有氟哌啶醇上调了NFκB和AMPK基因的表达。最后,星形胶质细胞培养证实了所测试的抗精神病药物对神经胶质细胞的主要影响以及对星形胶质细胞的相反影响。因此,抗精神病药物会导致海马的功能性改变。这些信息对于推动未来研究以神经胶质细胞为重点,减轻抗精神病药物引起的神经功能紊乱的策略非常重要。
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来源期刊
Neurochemical Research
Neurochemical Research 医学-神经科学
CiteScore
7.70
自引率
2.30%
发文量
320
审稿时长
6 months
期刊介绍: Neurochemical Research is devoted to the rapid publication of studies that use neurochemical methodology in research on nervous system structure and function. The journal publishes original reports of experimental and clinical research results, perceptive reviews of significant problem areas in the neurosciences, brief comments of a methodological or interpretive nature, and research summaries conducted by leading scientists whose works are not readily available in English.
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