Endothelial PRMT5 plays a crucial role in angiogenesis after acute ischemic injury
Qing Ye, … , Yan Liu, Jianxin Sun
Qing Ye, … , Yan Liu, Jianxin Sun
Published May 9, 2022
Citation Information: JCI Insight. 2022;7(9):e152481. https://doi.org/10.1172/jci.insight.152481.
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Research Article Angiogenesis Vascular biology

Endothelial PRMT5 plays a crucial role in angiogenesis after acute ischemic injury

Abstract

Arginine methylation mediated by protein arginine methyltransferases (PRMTs) has been shown to be an important posttranslational mechanism involved in various biological processes. Herein, we sought to investigate whether PRMT5, a major type II enzyme, is involved in pathological angiogenesis and, if so, to elucidate the molecular mechanism involved. Our results show that PRMT5 expression is significantly upregulated in ischemic tissues and hypoxic endothelial cells (ECs). Endothelial-specific Prmt5-KO mice were generated to define the role of PRMT5 in hindlimb ischemia–induced angiogenesis. We found that these mice exhibited impaired recovery of blood perfusion and motor function of the lower limbs, an impairment that was accompanied by decreased vascular density and increased necrosis as compared with their WT littermates. Furthermore, both pharmacological and genetic inhibition of PRMT5 significantly attenuated EC proliferation, migration, tube formation, and aortic ring sprouting. Mechanistically, we showed that inhibition of PRMT5 markedly attenuated hypoxia-induced factor 1-α (HIF-1α) protein stability and vascular endothelial growth factor–induced (VEGF-induced) signaling pathways in ECs. Our results provide compelling evidence demonstrating a crucial role of PRMT5 in hypoxia-induced angiogenesis and suggest that inhibition of PRMT5 may provide novel therapeutic strategies for the treatment of abnormal angiogenesis-related diseases, such as cancer and diabetic retinopathy.

Authors

Qing Ye, Jian Zhang, Chen Zhang, Bing Yi, Kyosuke Kazama, Wennan Liu, Xiaobo Sun, Yan Liu, Jianxin Sun

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Figure 7

PRMT5 inhibitor decreased the expression and stability of HIF-1α induced by hypoxia.

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PRMT5 inhibitor decreased the expression and stability of HIF-1α induced...
(A) HUVECs were incubated with either vehicle or 10.0 μM EPZ015666 for 4 days before exposure to 200 μM CoCl2 for 24 hours. The expression of HIF-1α was determined by Western blot. n = 3. (B) Dose-dependent effects of EPZ015666 on the expression of HIF-1α in HUVECs as determined by Western blot. n = 3. (C) HUVECs were incubated with lentivirus expressing sh-Ctrl or sh-PRMT5 for 72 hours, followed by CoCl2 treatment. Expression of indicated proteins was determined by Western blot. n = 3. (D) The stability of HIF-1α in EPZ015666-treated cells was determined by Western blot in the presence of 20 μg/mL cycloheximide (CHX). **P < 0.01, ***P < 0.001 versus 0.1% DMSO at same time point, using 2-tailed Student’s t test. n = 3. (E) The stability of HIF-1α in PRMT5 knockdown cells was determined by Western blot. *P < 0.05 and **P < 0.01 versus sh-Ctrl at same time point, using 2-tailed Student’s t test. n = 3. (F) HUVECs were incubated with or without 10.0 μM EPZ015666 and then pretreated with MG132 (10.0 μM) or BAF-A1 (100 nM) for 30 minutes before exposure to CoCl2 treatment. The expression of HIF-1α was determined by Western blot. n = 3. (G) qPCR detection of VEGFA mRNA in ECs treated with EPZ015666. n = 3. (H) ELISA measurements of VEGF-A levels in the culture supernatants harvested from HUVECs treated with indicated concentrations of EPZ015666. n = 3. (AC and FH) *P < 0.05, **P < 0.01, ***P < 0.001, using 1-way ANOVA coupled with Tukey’s multiple-comparison post hoc test. Groups in B, G, and H were compared with 0 μM group. All data were exhibited as mean ± SD.