Transcription regulation of SARS-CoV-2 receptor ACE2 by Sp1: a potential therapeutic target
Author:
Han Hui, Luo Rong-Hua, Long Xin-Yan, Wang Li-Qiong, Zhu Qian, Tang Xin-Yue, Zhu Rui, Ma Yi-Cheng, Zheng Yong-Tang, Zou Cheng-GangORCID
Abstract
AbstractAngiotensin-converting enzyme 2 (ACE2) is a major cell entry receptor for severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Induction of ACE2 expression may represent an effective tactic employed by SARS-CoV-2 to facilitate its own propagation. However, the regulatory mechanisms of ACE2 expression after viral infection remain largely unknown. By employing an array of 45 different luciferase reporters, we identify that the transcription factor Sp1 positively and HNF4α negatively regulate the expression of ACE2 at the transcriptional levels in HPAEpiC cells, a human lung epithelial cell line. SARS-CoV-2 infection promotes and inhibits the transcription activity of Sp1 and HNF4α, respectively. The PI3K/AKT signaling pathway, which is activated by SARS-CoV-2 infection, is a crucial node for induction of ACE2 expression by increasing Sp1 phosphorylation, an indicator of its activity, and reducing HNF4α nuclear location. Furthermore, we show that colchicine could inhibit the PI3K/AKT signaling pathway, thereby suppressing ACE2 expression. Inhibition of Sp1 by either its inhibitor mithramycin A or colchicine reduces viral replication and tissue injury in Syrian hamsters infected with SARS-CoV-2. In summary, our study uncovers a novel function of Sp1 in regulating ACE2 expression and suggests that Sp1 is a potential target to reduce SARS-CoV-2 infection.
Publisher
Cold Spring Harbor Laboratory
Reference61 articles.
1. PI3K activation increases SDF-1 production and number of osteoclast precursors, and enhances SDF-1- mediated osteoclast precursor migration;Bone Reports,2019 2. The MEME Suite 3. Brevini, T. , Maes, M. , Webb, G. J. , John, B. V. , Fuchs, C. D. , Buescher, G. , Wang, L. , Griffiths, C. , Brown, M. L. , Scott, W. E. , Pereyra-Gerber, P. , Gelson, W. T. H. , Brown, S. , Dillon, S. , Muraro, D. , Sharp, J. , Neary, M. , Box, H. , Tatham, L. , Stewart, J. , Curley, P. , Pertinez, H. , Forrest, S. , Mlcochova, P. , Varankar, S. S. , Darvish-Damavandi, M. , Mulcahy, V. L. , Kuc, R. E. , Williams, T. L. , Heslop, J. A. , Rossetti, D. , Tysoe, O. C. , Galanakis, V. , Vila-Gonzalez, M. , Crozier, T. W. M. , Bargehr, J. , Sinha, S. , Upponi, S. S. , Fear, C. , Swift, L. , Saeb-Parsy, K. , Davies, S. E. , Wester, A. , Hagström, H. , Melum, E. , Clements, D. , Humphreys, P. , Herriott, J. , Kijak, E. , Cox, H. , Bramwell, C. , Valentijn, A. , Illingworth, C. J. R. , Dahman, B. , Bastaich, D. R. , Ferreira, R. D. , Marjot, T. , Barnes, E. , Moon, A. M. , Barritt, A. S. , Gupta, R. K. , Baker, S. , Davenport, A. P. , Corbett, G. , Gorgoulis, V. G. , Buczacki, S. J. A. , Lee, J.- H. , Matheson, N. J. , Trauner, M. , Fisher, A. J. , Gibbs, P. , Butler, A. J. , Watson, C. J. E. , Mells, G. F. , Dougan, G. , Owen, A. , Lohse, A. W. , Vallier, L. , Sampaziotis, F. & Consortium, U.-P. R . 2022. FXR inhibition may protect from SARS- CoV-2 infection by reducing ACE2. Nature. 4. Callahan, V. , Hawks, S. , Crawford, M. A. , Lehman, C. W. , Morrison, H. A. , Ivester, H. M. , Akhrymuk, I. , Boghdeh, N. , Flor, R. , Finkielstein, C. V. , Allen, I. C. , Weger-Lucarelli, J. , Duggal, N. , Hughes, M. A. & Kehn-Hall, K . 2021. The Pro-Inflammatory Chemokines CXCL9, CXCL10 and CXCL11 Are Upregulated Following Sars-CoV-2 Infection in an Akt-Dependent Manner. Viruses, 13.
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