Activation of the hypoxia response in the aging cerebrovasculature protects males against cognitive impairment

Author:

Li Peihu1,Bi Xiaoman1,Xu Dahua1,Meng Yuan2,Xia Yucheng1,Cai Jiale1,Shen Yutong1,Wang Jiaqi1,Chen Jiazhu1,Yin Lamei1,Wang Bo1,Wu Deng3,Li Kongning1ORCID

Affiliation:

1. College of Biomedical Information and Engineering Hainan General Hospital, Hainan Affiliated Hospital of Hainan Medical University Haikou China

2. Wannan Medical College Wuhu China

3. School of Life Sciences, Faculty of Science The Chinese University of Hong Kong Hong Kong China

Abstract

AbstractAlzheimer's disease (AD) is a neurodegenerative disorder with a distinct sex bias. Age‐related vascular alterations, a hallmark of AD onset and progression, are consistently associated with sexual dimorphism. Here, we conducted an integrative meta‐analysis of 335,803 single‐nucleus transcriptomes and 667 bulk transcriptomes from the vascular system in AD and normal aging to address the underlying sex‐dependent vascular aging in AD. All vascular cell types in male AD patients exhibited an activated hypoxia response and downstream signaling pathways including angiogenesis. The female AD vasculature is characterized by increased antigen presentation and decreased angiogenesis. We further confirmed that these sex‐biased alterations in the cerebral vascular emerged and were primarily determined in the early stages of AD. Sex‐stratified analysis of normal vascular aging revealed that angiogenesis and various stress‐response genes were downregulated concurrently with female aging. Conversely, the hypoxia response increased steadily in males upon aging. An investigation of upstream driver transcription factors (TFs) revealed that altered communication between estrogen receptor alpha (ESR1) and hypoxia induced factors during menopause contributes to the inhibition of angiogenesis during normal female vascular aging. Additionally, inhibition of CREB1, a TF that targets estrogen, is also related to female AD. Overall, our study revealed a distinct cerebral vascular profile in females and males, and revealed novel targets for precision medicine therapy for AD.

Funder

National Natural Science Foundation of China

Publisher

Wiley

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