• J. Biol. Chem. · Aug 2013

    MicroRNA-124 suppresses the transactivation of nuclear factor of activated T cells by targeting multiple genes and inhibits the proliferation of pulmonary artery smooth muscle cells.

    • Kang Kang, Xiao Peng, Xiaoying Zhang, Yuna Wang, Lishu Zhang, Li Gao, Tingting Weng, Honghao Zhang, Ramaswamy Ramchandran, J Usha Raj, Deming Gou, and Lin Liu.
    • College of Life Sciences, Shenzhen Key Laboratory of Microbial Genetic Engineering, Shenzhen University, Shenzhen, Guangdong 518060, China.
    • J. Biol. Chem. 2013 Aug 30;288(35):25414-27.

    AbstractAbnormal proliferation and phenotypic modulation of pulmonary artery smooth muscle cells (PASMC) contributes to the pathogenesis of numerous cardiovascular disorders, including pulmonary arterial hypertension (PAH). The nuclear factor of activated T cells (NFAT) signaling pathway is linked to PASMC proliferation and PAH. MicroRNAs (miRNAs) are small non-coding RNAs that function in diverse biological processes. To systemically identify the specific miRNAs that regulate the NFAT pathway, a human primary miRNA library was applied for cell-based high throughput screening with the NFAT luciferase reporter system. Eight miRNAs were found to modulate NFAT activity efficiently. Of them, miR-124 robustly inhibited NFAT reporter activity and decreased both the dephosphorylation and the nuclear translocation of NFAT. miR-124 also inhibited NFAT-dependent transcription of IL-2 in Jurkat T cells. miR-124 exerted its effects by targeting multiple genes, including a known component of the NFAT pathway, NFATc1, and two new regulators of NFAT signaling, CAMTA1 (calmodulin-binding transcription activator 1) and PTBP1 (polypyrimidine tract-binding protein 1). Physiologically, miR-124 was down-regulated by hypoxia in human PASMC, consistent with the activation of NFAT during this process. Down-regulation of miR-124 was also observed in 3-week hypoxia-treated mouse lungs. Furthermore, the overexpression of miR-124 not only inhibited human PASMC proliferation but also maintained its differentiated phenotype by repressing the NFAT pathway. Taken together, our data provide the first evidence that miR-124 acts as an inhibitor of the NFAT pathway. Down-regulation of miR-124 in hypoxia-treated PASMC and its antiproliferative and prodifferentiation effects imply a potential value for miR-124 in the treatment of PAH.

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