KDM6A Lysine Demethylase Directs Epigenetic Polarity of MDSCs during Murine Sepsis

Isatou Bah; Tuqa Alkhateeb; Dima Youssef; Zhi Q. Yao; Charles E. McCall; Mohamed El Gazzar

doi:10.1159/000517407

Journal of Innate Immunity (Jul 2021)

KDM6A Lysine Demethylase Directs Epigenetic Polarity of MDSCs during Murine Sepsis

Isatou Bah,
Tuqa Alkhateeb,
Dima Youssef,
Zhi Q. Yao,
Charles E. McCall,
Mohamed El Gazzar

Affiliations

Isatou Bah: Department of Internal Medicine, East Tennessee State University College of Medicine, Johnson City, TN, USA
Tuqa Alkhateeb: Department of Internal Medicine, East Tennessee State University College of Medicine, Johnson City, TN, USA
Dima Youssef: Department of Internal Medicine, East Tennessee State University College of Medicine, Johnson City, TN, USA
Zhi Q. Yao: Department of Internal Medicine, East Tennessee State University College of Medicine, Johnson City, TN, USA
Charles E. McCall: Department of Internal Medicine, Section of Molecular Medicine, Wake Forest University School of Medicine, Winston-Salem, NC, USA
Mohamed El Gazzar: Department of Internal Medicine, East Tennessee State University College of Medicine, Johnson City, TN, USA

DOI: https://doi.org/10.1159/000517407

Abstract

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Sepsis-induced myeloid-derived suppressor cells (MDSCs) increase mortality risk. We previously identified that long non-coding RNA Hotairm1 supports myeloid precursor shifts to Gr1+CD11b+ MDSCs during mouse sepsis. A major unanswered question is what molecular processes control Hotairm1 expression. In this study, we found by a genetic deletion that a specific PU.1-binding site is indispensable in controlling Hotairm1 transcription. We then identified H3K4me3 and H3K27me3 at the PU.1 site on the Hotairm1 promoter. Controlling an epigenetic switch of Hotairm1 transcription by PU.1 was histone KDM6A demethylase for H3K27me3 that derepressed its transcription with possible contributions from Ezh2 methyltransferase for H3K27me3. KDM6A knockdown in MDSCs increased H3K27me3, decreased H3K4me3, and inhibited Hotairm1 transcription activation by PU.1. These results enlighten clinical translation research of PU.1 epigenetic regulation as a potential sepsis immune-checkpoint treatment site.

Published in Journal of Innate Immunity

ISSN: 1662-811X (Print); 1662-8128 (Online)
Publisher: Karger Publishers
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine
Website: https://www.karger.com/Journal/Home/234234

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