Endothelin-1 (ET-1) contributes to senescence and phenotypic changes in brain pericytes in diabetes-mimicking conditions.

IF 6.7 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL
Mia Edgerton-Fulton, Yasir Abdul, Sarah Jamil, Adviye Ergul
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引用次数: 0

Abstract

Diabetes mediates endothelial dysfunction and increases the risk of Alzheimer's disease and related dementias. Diabetes also dysregulates the ET system. ET-1-mediated constriction of brain microvascular pericytes (BMVPCs) has been shown to contribute to brain hypoperfusion. Cellular senescence, a process that arrests the proliferation of harmful cells and instigates phenotypical changes and proinflammatory responses in endothelial cells that impact their survival and function. Thus, we hypothesized that ET-1 mediates BMVPC senescence and phenotypical changes in diabetes-like conditions. Human BMVPCs were incubated in diabetes-like conditions with or without ET-1 (1 µmol/L) for 3 and 7 days. Hydrogen peroxide (100 µmol/L H2O2) was used as a positive control for senescence and to mimic ischemic conditions. Cells were stained for senescence-associated β-galactosidase or processed for immunoblotting and quantitative real-time PCR analyses. In additional experiments, cells were stimulated with ET-1 in the presence or absence of ETA receptor antagonist BQ-123 (20 μmol/L) or ETB receptor antagonist BQ-788 (20 μmol/L). ET-1 stimulation increased β-galactosidase accumulation which was prevented by BQ-123. ET-1 also increased traditional senescence marker p16 protein and pericyte-specific senescence markers, TGFB1i1, PP1CA, and IGFBP7. Furthermore, ET-1 stimulated contractile protein α-SMA and microglial marker ostepontin in high glucose suggesting a shift toward an ensheathing or microglia-like phenotype. In conclusion, ET-1 triggers senescence, alters ETA and ETB receptors, and causes phenotypical changes in BMVPCs under diabetes-like conditions. These in vitro findings need to be further studied in vivo to establish the role of ETA receptors in the progression of pericyte senescence and phenotypical changes in VCID.

内皮素-1(ET-1)有助于糖尿病模拟条件下脑周细胞的衰老和表型变化。
糖尿病会导致内皮功能失调,增加阿尔茨海默病和相关痴呆症的患病风险。糖尿病还会导致 ET 系统失调。ET-1 介导的脑微血管周细胞(BMVPCs)收缩已被证明会导致脑灌注不足。细胞衰老是一个阻止有害细胞增殖的过程,它可引起内皮细胞的表型变化和促炎反应,从而影响其存活和功能。因此,我们假设 ET-1 在类似糖尿病的情况下介导 BMVPC 的衰老和表型变化。人 BMVPC 在糖尿病样条件下与 ET-1(1 µmol/L)或不与 ET-1(1 µmol/L)培养 3 天和 7 天。过氧化氢(100 µmol/L H2O2)用作衰老的阳性对照,并模拟缺血条件。对细胞进行衰老相关的β-半乳糖苷酶染色,或进行免疫印迹和定量实时 PCR 分析。在其他实验中,在有或没有 ETA 受体拮抗剂 BQ-123 (20 μmol/L)或 ETB 受体拮抗剂 BQ-788 (20 μmol/L)的情况下,用 ET-1 刺激细胞。ET-1 刺激增加了β-半乳糖苷酶的积累,而 BQ-123 则阻止了这种积累。ET-1 还增加了传统衰老标志物 p16 蛋白和周细胞特异性衰老标志物 TGFB1i1、PP1CA 和 IGFBP7。此外,ET-1 还能刺激高糖条件下的收缩蛋白 α-SMA 和小胶质细胞标志物 ostepontin,这表明小胶质细胞向鞘状或小胶质细胞样表型转变。总之,ET-1 会引发衰老,改变 ETA 和 ETB 受体,并在类似糖尿病的条件下导致 BMVPCs 的表型变化。这些体外研究结果需要在体内进一步研究,以确定 ETA 受体在 VCID 周围细胞衰老进展和表型变化中的作用。
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来源期刊
Clinical science
Clinical science 医学-医学:研究与实验
CiteScore
11.40
自引率
0.00%
发文量
189
审稿时长
4-8 weeks
期刊介绍: Translating molecular bioscience and experimental research into medical insights, Clinical Science offers multi-disciplinary coverage and clinical perspectives to advance human health. Its international Editorial Board is charged with selecting peer-reviewed original papers of the highest scientific merit covering the broad spectrum of biomedical specialities including, although not exclusively: Cardiovascular system Cerebrovascular system Gastrointestinal tract and liver Genomic medicine Infection and immunity Inflammation Oncology Metabolism Endocrinology and nutrition Nephrology Circulation Respiratory system Vascular biology Molecular pathology.
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