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HPV<sup>+</sup> HNSCC‐derived exosomal miR‐9‐5p inhibits TGF‐β signaling‐mediated fibroblast phenotypic transformation through NOX4

Bozhi Wang, Zhang Si-wei, Fangjia Tong, Yan Wang, Lanlan Wei

2022Cancer Science38 citationsDOIOpen Access PDF

Abstract

Abstract Human papillomavirus (HPV) is a significant risk factor for head and neck squamous cell carcinoma (HNSCC). HPV + HNSCC patients have a higher survival rate, which may be related to its unique tumor microenvironment. Exosomes are emerging as a communication tool between tumor cells and the tumor microenvironment, including cancer‐associated fibroblasts (CAFs). In this study, 111 clinical samples tissues and public sequencing data were analyzed. Our study found fewer CAFs infiltrated in HPV + HNSCC, and poor CAF infiltration level was associated with a good prognosis. HPV + HNSCC cell‐derived exosomes can significantly reduce the phenotypic transformation of fibroblasts. miR‐9‐5p, as a miRNA enriched in HPV + HNSCC cell‐derived exosomes, can be transferred to fibroblasts. miR‐9‐5p mimic transfection decreased the expression of NOX4 and the level of intracellular reactive oxygen species (ROS), which inhibited the transforming growth factor beta 1(TGF‐β1)‐induced increase of αSMA levels. Therefore, these results indicated that HPV + HNSCC‐derived exosomal miR‐9‐5p inhibits TGF‐β signaling‐mediated fibroblast phenotypic transformation through NOX4, which is related to the excellent prognosis of HPV patients.

Topics & Concepts

Cancer-Associated FibroblastsCancer researchMicrovesiclesTumor microenvironmentHead and neck squamous-cell carcinomaNOX4Transforming growth factorTransfectionMalignant transformationBiologyExosomeFibroblastmicroRNACell cultureCancerMedicineCell biologyInternal medicineHead and neck cancerNADPH oxidaseReactive oxygen speciesBiochemistryGeneticsTumor cellsGeneExtracellular vesicles in diseaseMicroRNA in disease regulationCancer-related molecular mechanisms research
HPV<sup>+</sup> HNSCC‐derived exosomal miR‐9‐5p inhibits TGF‐β signaling‐mediated fibroblast phenotypic transformation through NOX4 | Litcius