The heterogeneity of tumour cells enables cancers to dynamically adapt to microenvironmental stresses during progression. However, the mechanism underlying the transformation and intercellular communication between heterogeneous tumour cells has remained elusive. Here, we report a "contagion model" that mediates intercellular transformation between heterogeneous tumour cells which facilitates tumour progression. Initially identifying heterogeneous expression of CXCR1, a receptor for interleukin-8, in head and neck squamous cell carcinoma (HNSCC) tumour cells, we found that CXCR1 tumour cells had higher abilities for migration and invasion. Following interleukin-8-mediated activation, CXCR1 cells transformed CXCR1 cells into CXCR1 cells through the secretion of small extracellular vesicles (sEVs), which increased the proportion of CXCR1 cells and facilitated tumour progression. Mechanistically, we demonstrate that sEVs derived from interleukin-8-activated CXCR1 cells contain high levels of ATP citrate lyase (ACLY), which acetylates NF-κB p65 and facilitates its nuclear translocation to transcribe CXCR1 in CXCR1 cells. That process could be inhibited by Bempedoic acid, an FDA-approved ACLY-targeted drug. Taken together, our study reveals an sEV-mediated transformation of CXCR1 to CXCR1 cells that promotes HNSCC progression. This provides a new paradigm to explain the dynamic changes of heterogeneous tumour cells, and identifies Bempedoic acid as a potential drug for HNSCC treatment.
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| http://dx.doi.org/10.1002/jev2.12427 | DOI Listing |
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