Synergistic Alterations in the Multilevel Chromatin Structure Anchor Dysregulated Genes in Small Cell Lung Cancer

Overview

Journal Comput Struct Biotechnol J

Specialty Biotechnology

Date 2021 Dec 1

PMID 34849199

Citations 2

Authors

Dan Guo

Qiu Xie

Shuai Jiang

Ting Xie

Yaru Li

Xin Huang

Fangyuan Li

Tingting Wang

Jian Sun

Anqi Wang

Zixin Zhang

Hao Li

Xiaochen Bo

Hebing Chen

Zhiyong Liang

Affiliations

Soon will be listed here.

Abstract

Small cell lung cancer (SCLC) is an aggressive form of lung cancer that uniquely changes the chromosomal structure, although the basis of aberrant gene expression in SCLC remains largely unclear. Topologically associated domains (TADs) are structural and functional units of the human genome. Genetic and epigenetic alterations in the cancer genome can lead to the disruption of TAD boundaries and may cause gene dysregulation. To understand the potential regulatory role of this process in SCLC, we developed the TAD boundary alteration-related gene identification in tumors (TARGET) computational framework, which enables the systematic identification of candidate dysregulated genes associated with altered TAD boundaries. Using TARGET to compare gene expression profiles between SCLC and normal human lung fibroblast cell lines, we identified >100 genes in this category, of which 24 were further verified in samples from patients with SCLC using NanoString. The analysis revealed synergistic chromatin structure alteration at the A/B compartment and TAD boundary levels that underlies aberrant gene expression in SCLC. TARGET is a novel and powerful tool that can be used to explore the relationship of chromatin structure alteration to gene dysregulation related to SCLC tumorigenesis, progression, and prognosis.

Citing Articles

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