通过靶向p53蛋白的寡聚体聚集来潜在增强中风后的血管生成反应。

Potential enhancement of post-stroke angiogenic response by targeting the oligomeric aggregation of p53 protein.

作者信息

Tam Hoi Hei, Zhu Dongxing, Ho Samuel Sze King, Vong Heng Wai, Wong Vincent Kam Wai, Mok Simon Wing-Fai, Wong Io Nam

机构信息

Faculty of Medicine, Macau University of Science and Technology, Macau, Macau SAR, China.

Guangdong Key Laboratory of Vascular Diseases, State Key Laboratory of Respiratory Disease, The Second Affiliated Hospital, Guangzhou Institute of Cardiovascular Disease, Guangzhou Medical University, Guangzhou, Guangdong, China.

出版信息

Front Cell Neurosci. 2023 Jul 18;17:1193362. doi: 10.3389/fncel.2023.1193362. eCollection 2023.

DOI:10.3389/fncel.2023.1193362

PMID:37534043

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10393283/

Abstract

Tumor suppressor gene p53 and its aggregate have been found to be involved in many angiogenesis-related pathways. We explored the possible p53 aggregation formation mechanisms commonly occur after ischemic stroke, such as hypoxia and the presence of reactive oxygen species (ROS). The angiogenic pathways involving p53 mainly occur in nucleus or cytoplasm, with one exception that occurs in mitochondria. Considering the high mitochondrial density in brain and endothelial cells, we proposed that the cyclophilin D (CypD)-dependent vascular endothelial cell (VECs) necrosis pathway occurring in the mitochondria is one of the major factors that affects angiogenesis. Hence, targeting p53 aggregation, a key intermediate in the pathway, could be an alternative therapeutic target for post-stroke management.

摘要

肿瘤抑制基因p53及其聚集体已被发现参与许多与血管生成相关的途径。我们探讨了缺血性中风后常见的p53聚集形成机制，如缺氧和活性氧（ROS）的存在。涉及p53的血管生成途径主要发生在细胞核或细胞质中，线粒体中的情况是个例外。考虑到脑和内皮细胞中线粒体密度较高，我们提出线粒体中发生的亲环蛋白D（CypD）依赖性血管内皮细胞（VECs）坏死途径是影响血管生成的主要因素之一。因此，靶向该途径中的关键中间体p53聚集，可能是中风后治疗管理的另一种治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3fe3/10393283/5fb206f250a5/fncel-17-1193362-g001.jpg

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通过靶向p53蛋白的寡聚体聚集来潜在增强中风后的血管生成反应。

Potential enhancement of post-stroke angiogenic response by targeting the oligomeric aggregation of p53 protein.

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