Cancer Communications (Sep 2023)

HMMR alleviates endoplasmic reticulum stress by promoting autophagolysosomal activity during endoplasmic reticulum stress‐driven hepatocellular carcinoma progression

  • Lin He,
  • Hao Li,
  • Can Li,
  • Ze‐Kun Liu,
  • Meng Lu,
  • Ren‐Yu Zhang,
  • Dong Wu,
  • Ding Wei,
  • Jie Shao,
  • Man Liu,
  • Hao‐Lin Wei,
  • Cong Zhang,
  • Zhe Wang,
  • Ling‐Min Kong,
  • Zhi‐Nan Chen,
  • Huijie Bian

DOI
https://doi.org/10.1002/cac2.12464
Journal volume & issue
Vol. 43, no. 9
pp. 981 – 1002

Abstract

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Abstract Background The mechanism of hepatitis B virus (HBV)‐induced carcinogenesis remains an area of interest. The accumulation of hepatitis B surface antigen in the endoplasmic reticulum (ER) of hepatocytes stimulates persistent ER stress. Activity of the unfolded protein response (UPR) pathway of ER stress may play an important role in inflammatory cancer transformation. How the protective UPR pathway is hijacked by cells as a tool for malignant transformation in HBV‐related hepatocellular carcinoma (HCC) is still unclear. Here, we aimed to define the key molecule hyaluronan‐mediated motility receptor (HMMR) in this process and explore its role under ER stress in HCC development. Methods An HBV‐transgenic mouse model was used to characterize the pathological changes during the tumor progression. Proteomics and transcriptomics analyses were performed to identify the potential key molecule, screen the E3 ligase, and define the activation pathway. Quantitative real‐time PCR and Western blotting were conducted to detect the expression of genes in tissues and cell lines. Luciferase reporter assay, chromatin immunoprecipitation, coimmunoprecipitation, immunoprecipitation, and immunofluorescence were employed to investigate the molecular mechanisms of HMMR under ER stress. Immunohistochemistry was used to clarify the expression patterns of HMMR and related molecules in human tissues. Results We found sustained activation of ER stress in the HBV‐transgenic mouse model of hepatitis‐fibrosis‐HCC. HMMR was transcribed by c/EBP homologous protein (CHOP) and degraded by tripartite motif containing 29 (TRIM29) after ubiquitination under ER stress, which caused the inconsistent expression of mRNA and protein. Dynamic expression of TRIM29 in the HCC progression regulated the dynamic expression of HMMR. HMMR could alleviate ER stress by increasing autophagic lysosome activity. The negative correlation between HMMR and ER stress, positive correlation between HMMR and autophagy, and negative correlation between ER stress and autophagy were verified in human tissues. Conclusions This study identified the complicated role of HMMR in autophagy and ER stress, that HMMR controls the intensity of ER stress by regulating autophagy in HCC progression, which could be a novel explanation for HBV‐related carcinogenesis.

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