From Tuberculosis Bedside to Bench: UBE2B Splicing As a Potential Biomarker and Its Regulatory Mechanism

Overview

Journal Signal Transduct Target Ther

Specialties Cell Biology
Pharmacology

Date 2023 Feb 24

PMID 36828823

Authors

Mengyuan Lyu

Jian Zhou

Yanbing Zhou

Weelic Chong

Wei Xu

Hongli Lai

Lu Niu

Yang Hai

Xiaojun Yao

Sheng Gong

Qinglan Wang

Yi Chen

Yili Wang

Liyu Chen

Zengwanggema

Jiongjiong Zeng

Chengdi Wang

Binwu Ying

Affiliations

Soon will be listed here.

Abstract

Alternative splicing (AS) is an important approach for pathogens and hosts to remodel transcriptome. However, tuberculosis (TB)-related AS has not been sufficiently explored. Here we presented the first landscape of TB-related AS by long-read sequencing, and screened four AS events (S100A8-intron1-retention intron, RPS20-exon1-alternaitve promoter, KIF13B-exon4-skipping exon (SE) and UBE2B-exon7-SE) as potential biomarkers in an in-house cohort-1. The validations in an in-house cohort-2 (2274 samples) and public datasets (1557 samples) indicated that the latter three AS events are potential promising biomarkers for TB diagnosis, but not for TB progression and prognosis. The excellent performance of classifiers further underscored the diagnostic value of these three biomarkers. Subgroup analyses indicated that UBE2B-exon7-SE splicing was not affected by confounding factors and thus had relatively stable performance. The splicing of UBE2B-exon7-SE can be changed by heat-killed mycobacterium tuberculosis through inhibiting SRSF1 expression. After heat-killed mycobacterium tuberculosis stimulation, 231 ubiquitination proteins in macrophages were differentially expressed, and most of them are apoptosis-related proteins. Taken together, we depicted a global TB-associated splicing profile, developed TB-related AS biomarkers, demonstrated an optimal application scope of target biomarkers and preliminarily elucidated mycobacterium tuberculosis-host interaction from the perspective of splicing, offering a novel insight into the pathophysiology of TB.

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