Brd4-p300 inhibition downregulates Nox4 and accelerates lung fibrosis resolution in aged mice
Yan Y. Sanders, … , Steven M. Rowe, Victor J. Thannickal
Yan Y. Sanders, … , Steven M. Rowe, Victor J. Thannickal
Published June 16, 2020
Citation Information: JCI Insight. 2020;5(14):e137127. https://doi.org/10.1172/jci.insight.137127.
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Research Article Aging Cell biology

Brd4-p300 inhibition downregulates Nox4 and accelerates lung fibrosis resolution in aged mice

Abstract

Tissue regeneration capacity declines with aging in association with heightened oxidative stress. Expression of the oxidant-generating enzyme, NADPH oxidase 4 (Nox4), is elevated in aged mice with diminished capacity for fibrosis resolution. Bromodomain-containing protein 4 (Brd4) is a member of the bromodomain and extraterminal (BET) family of proteins that function as epigenetic “readers” of acetylated lysine groups on histones. In this study, we explored the role of Brd4 and its interaction with the p300 acetyltransferase in the regulation of Nox4 and the in vivo efficacy of a BET inhibitor to reverse established age-associated lung fibrosis. BET inhibition interferes with the association of Brd4, p300, and acetylated histone H4K16 with the Nox4 promoter in lung fibroblasts stimulated with the profibrotic cytokine, TGF-β1. A number of BET inhibitors, including I-BET-762, JQ1, and OTX015, downregulate Nox4 gene expression and activity. Aged mice with established and persistent lung fibrosis recover capacity for fibrosis resolution with OTX015 treatment. This study implicates epigenetic regulation of Nox4 by Brd4 and p300 and supports BET/Brd4 inhibition as an effective strategy for the treatment of age-related fibrotic lung disease.

Authors

Yan Y. Sanders, Xing Lyv, Q. Jennifer Zhou, Zheyi Xiang, Denise Stanford, Sandeep Bodduluri, Steven M. Rowe, Victor J. Thannickal

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Figure 1

Brd4 inhibition downregulates Nox4 expression in IPF lung fibroblasts.

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Brd4 inhibition downregulates Nox4 expression in IPF lung fibroblasts. (...
(AC) Primary IPF lung fibroblasts were transfected with Brd4 siRNA for 48 hours. (A) Cells were collected and subjected to Western blots for Nox4, Brd4, and β-actin. (B) Densitometry of Brd4 and Nox4 protein expression relative to β-actin, as in A. *P < 0.05, Brd4 siRNA compared with NT control, by 2-tailed t test. (C) RNA from NT and Brd4 siRNA–treated cells was analyzed for Nox4 mRNA by real-time PCR. *P < 0.05, compared with the NT control of the same cell line, by 2-tailed t test. (D) BET inhibitors, BET-762 (0.5 μM), JQ1 (1 μM), and OTX015 (0.5 μM) were added to primary IPF lung fibroblasts at 70% confluence for 48 hours, and RNA was collected and Nox4 mRNA expression analyzed by real-time PCR. Triangles, squares, or circles indicate 3 different IPF individuals from whom primary cells were derived. Expressed values represent mean ± SD; n = 3 experimental replicates of each cell line. *P < 0.05, treated group vs. control (vehicle) group, by 2-tailed t test.