Abstract
AbstractExpression of the unconventional myosin, Myosin-1e (Myo1e), has been shown to contribute to tumor progression in the MMTV-PyMT mouse model of mammary tumorigenesis and is associated with poor outcome in breast cancer patients. However, the specific effects of Myo1e expression on the mammary tumor cells remain unidentified. Here, we used Myo1e-KO and wild-type (WT) MMTV-PyMT mice on a pure genetic background to further investigate the molecular and cellular effects of Myo1e expression. Myo1e-WT tumors were characterized by an increased abundance of intra-epithelial macrophages and lower amounts of the extracellular matrix. Transcriptomic profiling of WT and Myo1e-KO tumors identified a pattern of differential expression of tumor suppressor and tumor-promoting genes that was consistent with the observed differences in tumor progression and morphology between the genotypes, and also revealed differential expression of genes associated with secretion and cell-cell adhesion. In agreement with the RNA-seq findings, Myo1e-expressing tumor cells exhibited increased proliferation and elevated nuclear enrichment of YAP1 transcriptional activator compared to Myo1e-KO tumor cells. To investigate tumor cell-autonomous effects of Myo1e expression, we used the epithelial cell line PY-230 derived from the MMTV-PyMT-induced mouse tumor to create Myo1e-depleted cells by Crispr-mediated genome editing. Cells deficient in Myo1e had increased expression of genes encoding milk components compared to the wild-type cells. Electric cell-substrate impedance sensing (ECIS) measurements showed that depletion of Myo1e in PY-230 cells resulted in increased resistance to electrical current indicating enhanced epithelial barrier function. Overall, we find that Myo1e expression biases tumors towards a less-differentiated, pro-tumorigenic state, and that depletion of Myo1e is associated with a pro-secretory, more differentiated state.
Publisher
Cold Spring Harbor Laboratory