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Message: The BET Protein Inhibitor Apabetalone Rescues Diabetes-induced Impairment of Angiogenic Response by Epigenetic Regulation of Thrombospondin-1

The BET Protein Inhibitor Apabetalone Rescues Diabetes-induced Impairment of Angiogenic Response by Epigenetic Regulation of Thrombospondin-1

posted on Dec 21, 2021 04:47PM

The BET Protein Inhibitor Apabetalone Rescues Diabetes-induced Impairment of Angiogenic Response by Epigenetic Regulation of Thrombospondin-1

Mr. Shafeeq Ahmed Mohammed
Dr. Mattia Albiero
Mr. Samuele Ambrosini
Ms. Era Gorica
Dr. Gergely Karsai
Dr. Carlo Maria Caravaggi
Dr. Stefano Masi
Prof. Giovanni Giacomo Camici
Dr. Florian Wenzl
Prof. Vincenzo Calderone
Published Online:16 Dec 2021https://doi.org/10.1089/ars.2021.0127

Abstract

Aims: Therapeutic modulation of blood vessel growth holds promise for the prevention of limb ischemia in diabetic (DM) patients with peripheral artery disease (PAD). Epigenetic changes, namely posttranslational histone modifications, participate in angiogenic response suggesting that chromatin-modifying drugs could be beneficial in this setting. Apabetalone (APA), a selective inhibitor of bromodomain (BRD) and extra-terminal (BET) proteins, prevents BRD4 interactions with chromatin thus modulating transcriptional programs in different organs. We sought to investigate whether APA affects angiogenic response in diabetes. Results: As compared to vehicle, APA restored tube formation and migration in human aortic endothelial cells (HAECs) exposed to high glucose (HG) levels. Expression profiling of angiogenesis genes showed that APA prevents HG-induced upregulation of the anti-angiogenic molecule Thrombospondin-1 (THBS1). ChIP-seq and chromatin immunoprecipitation (ChIP) assays in HG-treated HAECs showed the enrichment of both BRD4 and active marks (H3K27ac) on THBS1 promoter, whereas BRD4 inhibition by APA prevented chromatin accessibility and THBS1 transcription. Mechanistically, we show that THBS1 inhibits angiogenesis by suppressing VEGFA signaling, while APA prevents these detrimental changes. In diabetic mice with hindlimb ischemia, epigenetic editing by APA restored THSB1/VEGFA axis thus improving limb vascularization and perfusion as compared to vehicle-treated animals. Finally, epigenetic regulation of THSB1 by BRD4/H3K27ac was also reported in DM patients with PAD as compared to non-diabetic controls. Innovation: This is the first study showing that BET protein inhibition by APA restores angiogenic response in experimental diabetes. Conclusions: Our findings set the stage for preclinical studies and exploratory clinical trials testing APA in diabetic PAD.

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