Hypoxia-induced microRNA-424 expression in human endothelial cells regulates HIF-α isoforms and promotes angiogenesis
Goutam Ghosh, … , Yan Zeng, Sundaram Ramakrishnan
Goutam Ghosh, … , Yan Zeng, Sundaram Ramakrishnan
Published October 25, 2010
Citation Information: J Clin Invest. 2010;120(11):4141-4154. https://doi.org/10.1172/JCI42980.
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Research Article

Hypoxia-induced microRNA-424 expression in human endothelial cells regulates HIF-α isoforms and promotes angiogenesis

Abstract

Adaptive changes to oxygen availability are critical for cell survival and tissue homeostasis. Prolonged oxygen deprivation due to reduced blood flow to cardiac or peripheral tissues can lead to myocardial infarction and peripheral vascular disease, respectively. Mammalian cells respond to hypoxia by modulating oxygen-sensing transducers that stabilize the transcription factor hypoxia-inducible factor 1α (HIF-1α), which transactivates genes governing angiogenesis and metabolic pathways. Oxygen-dependent changes in HIF-1α levels are regulated by proline hydroxylation and proteasomal degradation. Here we provide evidence for what we believe is a novel mechanism regulating HIF-1α levels in isolated human ECs during hypoxia. Hypoxia differentially increased microRNA-424 (miR-424) levels in ECs. miR-424 targeted cullin 2 (CUL2), a scaffolding protein critical to the assembly of the ubiquitin ligase system, thereby stabilizing HIF-α isoforms. Hypoxia-induced miR-424 was regulated by PU.1-dependent transactivation. PU.1 levels were increased in hypoxic endothelium by RUNX-1 and C/EBPα. Furthermore, miR-424 promoted angiogenesis in vitro and in mice, which was blocked by a specific morpholino. The rodent homolog of human miR-424, mu-miR-322, was significantly upregulated in parallel with HIF-1α in experimental models of ischemia. These results suggest that miR-322/424 plays an important physiological role in post-ischemic vascular remodeling and angiogenesis.

Authors

Goutam Ghosh, Indira V. Subramanian, Neeta Adhikari, Xiaoxiao Zhang, Hemant P. Joshi, David Basi, Y.S. Chandrashekhar, Jennifer L. Hall, Sabita Roy, Yan Zeng, Sundaram Ramakrishnan

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Figure 3

CUL2 is a functional target for miR-424.

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CUL2 is a functional target for miR-424. (A) Microarray data of miRNA ex...
(A) Microarray data of miRNA expression levels from 4 independent primary cultures of HUVECs were analyzed. Data show relative levels of 37 miRNAs targeting the CUL2 3′UTR under hypoxia. Normoxic levels are considered to be equal to 100%. (B) Western blots showing the expression of CUL2 in the whole-cell lysates from HUVECs under normoxia (lanes 1 and 2) or hypoxia (lanes 3 and 4), miR-control HUVECs under normoxia (lane 5), and miR-424–transfected HUVECs under normoxia (lanes 6 and 7). β-Actin was used as loading control. (C) Schematic diagram of luciferase reporter construct containing the CUL2 3′UTR. (D) Luciferase activity (mean ± SD) in HUVECs cotransfected with the reporter construct of CUL2 3′UTR, miR-424. Renilla luciferase was used as an internal control. (E) Luciferase activity (mean ± SD) using a reporter construct containing the 3′UTR of CUL2 (wild-type or mutant lacking the miR-424 target site) under normoxia and hypoxia are shown. (F) Western blot showing the changes in VHL in the whole-cell lysates of HUVECs expressing miR-control (lanes 1 and 4), miR-210 (lanes 2 and 3), and miR-424 (lanes 5 and 6). β-Actin was used as loading control. Values represent mean ± SD. *P < 0.05.