MicroRNAs (miRNAs) have been widely implicated in cancer initiation and progression, yet examination of the effects of global miRNA disruption on these processes has been limited. We developed novel genetically engineered mouse models of Kras-driven pulmonary adenocarcinoma (LUAD) with cell-type-specific disruption of miRNA biosynthesis via Dicer1 allele deletion, which exhibit significant differences in tumor progression rates and expected survival. Dicer1 is an RNase III enzyme that is required for the biogenesis of mature, functional miRNAs. Lung tumor progression was accelerated, and expected survival was decreased only when we initiated tumors and deleted one allele of Dicer1 in club cells and mutated Dicer1 in alveolar type 2 (AT2) cells. Reversing the cell types by inducing tumorigenesis, deleting one Dicer1 allele in AT2 cells, and mutating Dicer1 in club cells modestly accelerated tumor progression and had no effect on expected survival. Collectively, our results demonstrate that Dicer1 disruption accelerates lung cancer progression in a cell-type-dependent and non-cell-autonomous manner, and our mice represent tools for investigating the roles of miRNAs and miRNA-mediated intercellular communication in tumor progression.
Wells, J., Maser, R. S., Doty, R., Tucker, A., Memishian, W., McGee, T., Mitchell-Hutchinson, N., Ramkissoon, P. J., Lesbirel, S., Charette, J. R., Munger, H., Beckett, T., Bult, C. J.
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