HIPK2 通过 STAT3 介导小胶质细胞 M1 极化：抑郁症相关神经炎症的新机制。

HIPK2 mediates M1 polarization of microglial cells via STAT3: A new mechanism of depression-related neuroinflammation.

机构信息

Department of Pharmacy, The Second Affiliated Hospital of Jiaxing University, Jiaxing, China.

College of Chinese Medicinal Materials, Jilin Agricultural University, Changchun, China.

出版信息

J Cell Physiol. 2024 Mar;239(3):e30994. doi: 10.1002/jcp.30994. Epub 2023 Mar 15.

DOI:10.1002/jcp.30994

PMID:36924038

Abstract

This study aimed to investigate the role of protein kinase HIPK2 in depression and its associated mechanism. The chronic unpredictable mild stress (CUSM) model was constructed to simulate mice with depression to detect the mouse behaviors. Moreover, by using mouse microglial cells BV2 as the model. After conditional knockdown of HIPK2, the depressive behavior disorder of mice was improved, meanwhile, neuroinflammation was alleviated, and the M1 cell proportion was reduced. Similar results were obtained after applying the HIPK2 inhibitor tBID or ASO-HIPK2 treatment. HIPK2 was overexpressed in BV2 cells, which promoted M1 polarization of cells, while tBID suppressed the effect of HIPK2 and reduced the M1 polarized level in BV2 cells. Pull-down assay results indicated that HIPK2 bound to STAT3 and promoted STAT3 phosphorylation. We found that HIPK2 can bind to STAT3 to promote its phosphorylation, which accelerates M1 polarization of microglial cells, aggravates the depressive neuroinflammation, and leads to abnormal behaviors. HIPK2 is promising as the new therapeutic target of depression.

摘要

本研究旨在探讨蛋白激酶 HIPK2 在抑郁症中的作用及其相关机制。构建慢性不可预测轻度应激（CUSM）模型模拟具有抑郁症的小鼠，以检测小鼠的行为。此外，使用小鼠小胶质细胞 BV2 作为模型。条件性敲低 HIPK2 后，改善了小鼠的抑郁行为障碍，同时减轻了神经炎症，降低了 M1 细胞比例。应用 HIPK2 抑制剂 tBID 或 ASO-HIPK2 处理后也得到了类似的结果。在 BV2 细胞中过表达 HIPK2 促进了细胞的 M1 极化，而 tBID 抑制了 HIPK2 的作用，降低了 BV2 细胞中 M1 极化水平。下拉实验结果表明，HIPK2 与 STAT3 结合并促进其磷酸化。我们发现 HIPK2 可以与 STAT3 结合，促进其磷酸化，从而加速小胶质细胞的 M1 极化，加重抑郁性神经炎症，并导致异常行为。HIPK2 有望成为抑郁症的新治疗靶点。

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HIPK2 通过 STAT3 介导小胶质细胞 M1 极化：抑郁症相关神经炎症的新机制。

HIPK2 mediates M1 polarization of microglial cells via STAT3: A new mechanism of depression-related neuroinflammation.

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