Abstract
Tumor metastasis refers to spread of a tumor from site of its origin to distant organs and causes majority of cancer deaths. Although >30 metastasis suppressor genes (MSGs) that negatively regulate metastasis have been identified so far, two issues are poorly understood: first, which MSGs oppose metastasis in a tumor type, and second, which molecular function of MSG controls metastasis. Herein, integrative analyses of tumor-transcriptomes (n = 382), survival data (n = 530) and lymph node metastases (n = 100) in lung cancer patients identified non-metastatic 2 (NME2) as a key MSG from a pool of >30 metastasis suppressors. Subsequently, we generated a promoter-wide binding map for NME2 using chromatin immunoprecipitation with promoter microarrays (ChIP-chip), and transcriptome profiling. We discovered novel targets of NME2 which are involved in focal adhesion signaling. Importantly, we detected binding of NME2 in promoter of focal adhesion factor, vinculin. Reduced expression of NME2 led to enhanced transcription of vinculin. In comparison, NME1, a close homolog of NME2, did not bind to vinculin promoter nor regulate its expression. In line, enhanced metastasis of NME2-depleted lung cancer cells was found in zebrafish and nude mice tumor models. The metastatic potential of NME2-depleted cells was remarkably diminished upon selective RNA-i-mediated silencing of vinculin. Together, we demonstrate that reduced NME2 levels lead to transcriptional de-repression of vinculin and regulate lung cancer metastasis.
Highlights
More than 90% of cancer-related mortality results from metastasis [1,2]
We investigated the molecular mechanisms of nonmetastatic 2 (NME2) function through genomic, cellular and molecular studies, including model systems and validation in tumor/metastatic lymph node tissue obtained from lung cancer patients
Among genes related to cell adhesion, we found vinculin (VCL), adenomatous polyposis coli (APC), Rho related GTP binding protein B (RHO B) and connective tissue growth factor (CTGF) as direct targets of NME2
Summary
More than 90% of cancer-related mortality results from metastasis [1,2]. Metastatic lesions are manifested in multiple steps, including localized invasion and intravasation at the primary tumor site, sustained survival in circulation, extravasation at distant organ site(s) and colonization at the new site [3,4]. It is intriguing that despite the complexity, a set of genes known as metastasis suppressor genes (MSGs) can negatively regulate the metastatic process [5]. > 30 MSGs have been identified so far in various tumor types (reviewed in [6,7,8]), two issues remain poorly understood: first, the specificity of known MSGs for a tumor type, and second, how does reduced expression of MSG contribute to metastasis.
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