Abstract
Using gene expression data to enhance our knowledge of control networks relevant to cancer biology and therapy is a challenging but urgent task. Based on the premise that genes that are expressed together in a variety of cell types are likely to functions together, we derived mutually correlated genes that function together in various processes in epithelial-like tumor cells. Expression-correlated genes were derived from data for the NCI-60 human tumor cell lines, as well as data from the Broad Institute’s CCLE cell lines. NCI-60 cell lines that selectively expressed a mutually correlated subset of tight junction genes served as a signature for epithelial-like cancer cells. Those signature cell lines served as a seed to derive other correlated genes, many of which had various other epithelial-related functions. Literature survey yielded molecular interaction and function information about those genes, from which molecular interaction maps were assembled. Many of the genes had epithelial functions unrelated to tight junctions, demonstrating that new function categories were elicited. The most highly correlated genes were implicated in the following epithelial functions: interactions at tight junctions (CLDN7, CLDN4, CLDN3, MARVELD3, MARVELD2, TJP3, CGN, CRB3, LLGL2, EPCAM, LNX1); interactions at adherens junctions (CDH1, ADAP1, CAMSAP3); interactions at desmosomes (PPL, PKP3, JUP); transcription regulation of cell-cell junction complexes (GRHL1 and 2); epithelial RNA splicing regulators (ESRP1 and 2); epithelial vesicle traffic (RAB25, EPN3, GRHL2, EHF, ADAP1, MYO5B); epithelial Ca(+2) signaling (ATP2C2, S100A14, BSPRY); terminal differentiation of epithelial cells (OVOL1 and 2, ST14, PRSS8, SPINT1 and 2); maintenance of apico-basal polarity (RAB25, LLGL2, EPN3). The findings provide a foundation for future studies to elucidate the functions of regulatory networks specific to epithelial-like cancer cells and to probe for anti-cancer drug targets.
Highlights
Progress in cancer biology and therapy depends in large part on comprehending the molecular interactions that govern key regulatory networks
We aimed to utilize gene expression data for cell lines derived from various human tumors to elucidate molecular interaction networks controlling functions key to epithelial cell types, leading eventually to deeper understanding of the factors that govern transitions to mesenchymal character, a change that is thought to be central to acquisition of the ability of cancer cells to invade tissue and form distant metastases
The current work focuses on genes that are expressed selectively in epithelial cells, while a subsequent communication will focus on transitions between epithelial and mesenchymal cell states
Summary
Progress in cancer biology and therapy depends in large part on comprehending the molecular interactions that govern key regulatory networks. We aimed to utilize gene expression data for cell lines derived from various human tumors to elucidate molecular interaction networks controlling functions key to epithelial cell types, leading eventually to deeper understanding of the factors that govern transitions to mesenchymal character, a change that is thought to be central to acquisition of the ability of cancer cells to invade tissue and form distant metastases. Expression of a subset of genes that are associated with tight junctions may serve as an indicator of epithelial character. This would be in accord with the general principle that genes that are expressed together in a variety of circumstances or cell types are likely to function together
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