Genome-wide profiling of transcription factor activity in primary liver cancer using single-cell ATAC sequencing

Amanda J. Craig; Maruhen Amir Datsch Silveira; Lichun Ma; Mahler Revsine; Limin Wang; S. Heinrich; Zachary Rae; Allison Ruchinskas; Kimia Dadkhah; Whitney Do; Shay Behrens; Farid Rashidi Mehrabadi; Dana A. Dominguez; Marshonna Forgues; Anuradha Budhu; Jittiporn Chaisaingmongkol; Jonathan M. Hernandez; Jeremy L. Davis; Bao Tran; Jens U. Marquardt; Mathuros Ruchirawat; Michael C. Kelly; Tim F. Greten; Xin Wei Wang

doi:10.1016/j.celrep.2023.113446

Genome-wide profiling of transcription factor activity in primary liver cancer using single-cell ATAC sequencing

Amanda J. Craig(National Cancer Institute), Maruhen Amir Datsch Silveira(National Cancer Institute), Lichun Ma(National Cancer Institute), Mahler Revsine(National Cancer Institute), Limin Wang(National Cancer Institute), S. Heinrich(Medizinische Hochschule Hannover), Zachary Rae(Leidos (United States)), Allison Ruchinskas(Leidos (United States)), Kimia Dadkhah(Leidos (United States)), Whitney Do(National Cancer Institute), Shay Behrens(National Cancer Institute), Farid Rashidi Mehrabadi(National Cancer Institute), Dana A. Dominguez(City Of Hope National Medical Center), Marshonna Forgues(National Cancer Institute), Anuradha Budhu(National Cancer Institute), Jittiporn Chaisaingmongkol(Chulabhorn Research Institute), Jonathan M. Hernandez(National Cancer Institute), Jeremy L. Davis(National Cancer Institute), Bao Tran(Leidos (United States)), Jens U. Marquardt(University of Lübeck), Mathuros Ruchirawat(Chulabhorn Research Institute), Michael C. Kelly(Leidos (United States)), Tim F. Greten(National Cancer Institute), Xin Wei Wang(National Cancer Institute)

Cell Reports

November 1, 2023

10.1016/j.celrep.2023.113446

Cited by 28Open Access

Full Text

Abstract

Primary liver cancer (PLC) consists of two main histological subtypes; hepatocellular carcinoma (HCC) and intrahepatic cholangiocarcinoma (iCCA). The role of transcription factors (TFs) in malignant hepatobiliary lineage commitment between HCC and iCCA remains underexplored. Here, we present genome-wide profiling of transcription regulatory elements of 16 PLC patients using single-cell assay for transposase accessible chromatin sequencing. Single-cell open chromatin profiles reflect the compositional diversity of liver cancer, identifying both malignant and microenvironment component cells. TF motif enrichment levels of 31 TFs strongly discriminate HCC from iCCA tumors. These TFs are members of the nuclear/retinoid receptor, POU, or ETS motif families. POU factors are associated with prognostic features in iCCA. Overall, nuclear receptors, ETS and POU TF motif families delineate transcription regulation between HCC and iCCA tumors, which may be relevant to development and selection of PLC subtype-specific therapeutics.

Related Papers

No related papers found

Powered by citation graph analysis