Tumors driven by RAS signaling harbor a natural vulnerability to oncolytic virus M1.
Jing CaiKaiying LinWei CaiYuan LinXincheng LiuLi GuoJifu ZhangWencang XuZiqing LinChun Wa WongMax SanderJun HuGuangmei YanWenbo ZhuJiankai LiangPublished in: Molecular oncology (2020)
Oncolytic viruses are potent anticancer agents that replicate within and kill cancer cells rather than normal cells, and their selectivity is largely determined by oncogenic mutations. M1, a novel oncolytic virus strain, has been shown to target cancer cells, but the relationship between its cancer selectivity and oncogenic signaling pathways is poorly understood. Here, we report that RAS mutation promotes the replication and oncolytic effect of M1 in cancer, and we further provide evidence that the inhibition of the RAS/RAF/MEK signaling axis suppresses M1 infection and the subsequent cytopathic effects. Transcriptome analysis revealed that the inhibition of RAS signaling upregulates the type I interferon antiviral response, and further RNA interference screen identified CDKN1A as a key downstream factor that inhibits viral infection. Gain- and loss-of-function experiments confirmed that CDKN1A inhibited the replication and oncolytic effect of M1 virus. Subsequent TCGA data mining and tissue microarray (TMA) analysis revealed that CDKN1A is commonly deficient in human cancers, suggesting extensive clinical application prospects for M1. Our report indicates that virotherapy is feasible for treating undruggable RAS-driven cancers and provides reliable biomarkers for personalized cancer therapy.
Keyphrases
- wild type
- papillary thyroid
- cancer therapy
- signaling pathway
- induced apoptosis
- endothelial cells
- squamous cell
- single cell
- pi k akt
- childhood cancer
- squamous cell carcinoma
- lymph node metastasis
- electronic health record
- high throughput
- drug delivery
- oxidative stress
- artificial intelligence
- young adults
- machine learning
- anti inflammatory