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Single-cell transcriptomics reveals opposing roles of Shp2 in Myc-driven liver tumor cells and microenvironment

Wendy S. Chen, Yan Liang, Min Zong, Jacey J. Liu, Kota Kaneko, Kaisa L. Hanley, Kun Zhang, Gen‐Sheng Feng

2021Cell Reports49 citationsDOIOpen Access PDF

Abstract

The mechanisms of Myc-driven liver tumorigenesis are inadequately understood. Herein we show that Myc-driven hepatocellular carcinoma (HCC) is dramatically aggravated in mice with hepatocyte-specific Ptpn11/Shp2 deletion. However, Myc-induced tumors develop selectively from the rare Shp2-positive hepatocytes in Shp2-deficent liver, and Myc-driven oncogenesis depends on an intact Ras-Erk signaling promoted by Shp2 to sustain Myc stability. Despite a stringent requirement of Shp2 cell autonomously, Shp2 deletion induces an immunosuppressive environment, resulting in defective clearance of tumor-initiating cells and aggressive tumor progression. The basal Wnt/β-catenin signaling is upregulated in Shp2-deficient liver, which is further augmented by Myc transfection. Ablating Ctnnb1 suppresses Myc-induced HCC in Shp2-deficient livers, revealing an essential role of β-catenin. Consistently, Myc overexpression and CTNNB1 mutations are frequently co-detected in HCC patients with poor prognosis. These data elucidate complex mechanisms of liver tumorigenesis driven by cell-intrinsic oncogenic signaling in cooperation with a tumor-promoting microenvironment generated by disrupting the specific oncogenic pathway.

Topics & Concepts

CarcinogenesisCancer researchWnt signaling pathwayBiologyDownregulation and upregulationMAPK/ERK pathwaySignal transductionTumor microenvironmentHepatocyteTumor progressionCellCell biologyCancerTumor cellsGeneGeneticsIn vitroProtein Tyrosine PhosphatasesRNA Research and SplicingRNA modifications and cancer