1. Academic Validation
  2. A novel acetyltransferase p300 inhibitor ameliorates hypertension-associated cardio-renal fibrosis

A novel acetyltransferase p300 inhibitor ameliorates hypertension-associated cardio-renal fibrosis

  • Epigenetics. 2017;12(11):1004-1013. doi: 10.1080/15592294.2017.1370173.
Rahul Rai 1 Suresh K Verma 1 David Kim 1 Veronica Ramirez 1 Elizabeth Lux 1 Chengjin Li 1 Susmita Sahoo 1 Lisa D Wilsbacher 1 Douglas E Vaughan 1 Susan E Quaggin 1 Asish K Ghosh 1
Affiliations

Affiliation

  • 1 a Feinberg Cardiovascular Research Institute, Feinberg School of Medicine , Northwestern University , Chicago , Illinois , USA.
Abstract

Hypertension-associated end-organ damage commonly leads to cardiac and renal fibrosis. As no effective anti-fibrotic therapy currently exists, the unchecked progression of fibrogenesis manifests as cardio-renal failure and early death. We have previously shown that FATp300-p300 with intrinsic factor acetyltransferase activity-is an essential epigenetic regulator of fibrogenesis, and is elevated in several fibrotic tissues. In this report, we investigate the therapeutic efficacy of a novel FATp300 inhibitor, L002, in a murine model of hypertensive cardio-renal fibrosis. Additionally, we examine the effects of L002 on cellular pro-fibrogenic processes and provide mechanistic insights into its antifibrogenic action. Utilizing cardiac fibroblasts, podocytes, and mesangial cells, we demonstrate that L002 blunts FATp300-mediated acetylation of specific histones. Further, incubating cells with L002 suppresses several pro-fibrogenic processes including cellular proliferation, migration, myofibroblast differentiation and collagen synthesis. Importantly, systemic administration of L002 in mice reduces hypertension-associated pathological hypertrophy, cardiac fibrosis and renal fibrosis. The anti-hypertrophic and anti-fibrotic effects of L002 were independent of blood pressure regulation. Our work solidifies the role of epigenetic regulator FATp300 in fibrogenesis and establishes it as a pharmacological target for reducing pathological matrix remodeling and associated pathologies. Additionally, we discover a new therapeutic role of L002, as it ameliorates hypertension-induced cardio-renal fibrosis and antagonizes pro-fibrogenic responses in fibroblasts, podocytes and mesangial cells.

Keywords

Acetyltransferase p300; Angiotensin II; Cardiac Fibrosis; Epigenetics; Fibroblasts; Hypertension; Podocytes; Renal Fibrosis; Small molecule inhibitors; TGF-β.

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