The Correlation and Role Analysis of COL4A1 and COL4A2 in Hepatocarcinogenesis

Overview

Journal Aging (Albany NY)

Specialty Geriatrics

Date 2020 Jan 7

PMID 31905170

Citations 28

Authors

Yanli Liu

Jiaye Zhang

Yan Chen

Hasan Sohel

Xinrong Ke

Jingqi Chen

Yin-Xiong Li

Affiliations

Soon will be listed here.

Abstract

Liver fibrosis biomarker, Type IV collagen, may function as hepatocarcinogenesis niche. However, among the six isoforms, the isoforms providing tumor microenvironment and their regulatory network are still unclarified. Based on bioinformatics analysis of hundreds of HCC transcriptome datasets from public databases, we found that expressions were significantly correlated with hepatocarcinogenesis, progression, and prognosis. The expressions of were significantly upregulated in the preneoplastic and HCC tissues compared with normal tissues. Moreover, the overexpression of was highly correlated with shorter progression-free survival in HCC patients. Bioinformatics analysis also generates an interactive regulatory network in which COL4A1/2 directly binding to integrin alpha-2/beta-1 initiates a sequentially and complicated signaling transduction, to accelerate cell cycle and promote tumorigenesis. Among those pathways, the PI3K-Akt pathway is significantly enriched in cooperative mutations and correlation analysis. This suggests that the key activated signaling is PI3K-Akt pathway which severing as the centerline linked with other pathways (Wnt and MAPK signaling) and cell behaviors signaling (cell cycle control and cytoskeleton change). Switching extracellular matrix collagen isoform may establish pro-tumorigenic and metastatic niches. The findings of and related signaling networks are valuable to be further investigated that may provide druggable targets for HCC intervention.

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