bims-cytox1 Biomed News
on Cytochrome oxidase subunit 1
Issue of 2024–02–25
one paper selected by
Gavin McStay, Liverpool John Moores University



  1. Cell Signal. 2024 Feb 21. pii: S0898-6568(24)00079-2. [Epub ahead of print] 111111
       BACKGROUND: Cytochrome C oxidase assembly factor 6 (COA6) is significantly involved in the progression of cancer and is aberrantly expressed in disease. Nevertheless, the comprehensive analysis of COA6 using many omics techniques, and its impact on the prognosis and immunological microenvironment of cancer patients, remains unexplored.
    METHODS: We gathered data from 33 cancer cases and conducted a thorough analysis of abnormalities in COA6 gene expression. This analysis included examining its relevance to disease, its diagnostic and prognostic value, pathway enrichment, the immune microenvironment, its association with immune checkpoints, and its ability to predict patient response to immunotherapy and natural small molecule drugs that target the COA6 protein. Ultimately, we examined the function of COA6 in bladder cancer by in vitro research.
    RESULTS: Our study revealed significant variations in gene expression and identified COA6 as a potential diagnostic biomarker for cancer. COA6 was also discovered to have a crucial function in pan-cancer involving the tumor microenvironment. COA6 has a strong correlation with well-known immunological checkpoints, including TMB and MSI. Molecular docking identified natural small chemical inhibitors that specifically target the COA6 protein. Ultimately, scientific evidence has verified that suppressing the expression of the COA6 gene hinders the growth and infiltration of bladder cancer cells.
    CONCLUSIONS: Our study emphasizes the significant potential of COA6 as a predictive and immunotherapeutic response biomarker. This finding may lead to future investigation into the mechanism of tumor infiltration and the therapeutic possibilities of COA6 in cancer.
    Keywords:  Bladder cancer; COA6; Immunotherapy; Molecular docking; Tumor microenvironment; pan-cancer
    DOI:  https://doi.org/10.1016/j.cellsig.2024.111111