Inhibition of bromodomain extraterminal histone readers alleviates skin fibrosis in experimental models of scleroderma
Sirapa Vichaikul, Mikel Gurrea-Rubio, M. Asif Amin, Phillip L. Campbell, Qi Wu, Megan N. Mattichak, William D. Brodie, Pamela J. Palisoc, Mustafa Ali, Sei Muraoka, Jeffrey H. Ruth, Ellen N. Model, Dallas M. Rohraff, Jonatan L. Hervoso, Yang Mao-Draayer, David A. Fox, Dinesh Khanna, Amr H. Sawalha, Pei-Suen Tsou
Sirapa Vichaikul, Mikel Gurrea-Rubio, M. Asif Amin, Phillip L. Campbell, Qi Wu, Megan N. Mattichak, William D. Brodie, Pamela J. Palisoc, Mustafa Ali, Sei Muraoka, Jeffrey H. Ruth, Ellen N. Model, Dallas M. Rohraff, Jonatan L. Hervoso, Yang Mao-Draayer, David A. Fox, Dinesh Khanna, Amr H. Sawalha, Pei-Suen Tsou
View: Text | PDF
Research Article

Inhibition of bromodomain extraterminal histone readers alleviates skin fibrosis in experimental models of scleroderma

Abstract

Binding of the bromodomain and extraterminal domain proteins (BETs) to acetylated histone residues is critical for gene transcription. We sought to determine the antifibrotic efficacy and potential mechanisms of BET inhibition in systemic sclerosis (SSc). Blockade of BETs was done using a pan-BET inhibitor, JQ1; BRD2 inhibitor, BIC1; or BRD4 inhibitors AZD5153 or ARV825. BET inhibition, specifically BRD4 blockade, showed antifibrotic effects in an animal model of SSc and in patient-derived diffuse cutaneous SSc (dcSSc) fibroblasts. Transcriptome analysis of JQ1-treated dcSSc fibroblasts revealed differentially expressed genes related to extracellular matrix, cell cycle, and calcium (Ca2+) signaling. The antifibrotic effect of BRD4 inhibition was mediated at least in part by downregulation of Ca2+/calmodulin–dependent protein kinase II α and reduction of intracellular Ca2+ concentrations. On the basis of these results, we propose targeting Ca2+ pathways or BRD4 as potentially novel therapeutic approaches for progressive tissue fibrosis.

Authors

Sirapa Vichaikul, Mikel Gurrea-Rubio, M. Asif Amin, Phillip L. Campbell, Qi Wu, Megan N. Mattichak, William D. Brodie, Pamela J. Palisoc, Mustafa Ali, Sei Muraoka, Jeffrey H. Ruth, Ellen N. Model, Dallas M. Rohraff, Jonatan L. Hervoso, Yang Mao-Draayer, David A. Fox, Dinesh Khanna, Amr H. Sawalha, Pei-Suen Tsou

×

Figure 5

The antifibrotic effect of JQ1 is abolished by the sequestration of intracellular Ca2+ and overexpression of CAMK2A in dcSSc fibroblasts.

Options: View larger image (or click on image) Download as PowerPoint
The antifibrotic effect of JQ1 is abolished by the sequestration of intr...
(A) Cells cultured in Ca2+-free media had lower levels of ACTA2 and COL1A1 compared with cells cultured in Ca2+-containing media. The effect of JQ1 on COL1A1 is blocked in cells cultured without Ca2+. n = 8 patients. (B) BAPTA-AM, an intracellular Ca2+-chelating reagent, significantly decreased ACTA2 and COL1A1 expression in dcSSc fibroblasts. It also blocked the effect of JQ1. n = 4 patients. (C) JQ1 downregulated CAMK2A expression in dcSSc fibroblasts. Overexpression of CAMK2A not only increased ACTA2 and COL1A1 expression, but it also blocked the antifibrotic effects of JQ1. n = 4 patients. (D) CAMK2A is critical for cell proliferation, as overexpression of this gene enhanced cell proliferation. The inhibitory effect of JQ1 on cell proliferation was blocked by CAMK2A overexpression. n = 4 patients. Results are expressed as mean ± SD and P < 0.05 was considered significant. Significance was determined by 1-way ANOVA. NT, no treatment.