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AuthorAl-Farsi, Halema
AuthorAl-Azwani, Iman
AuthorMalek, Joel A.
AuthorChouchane, Lotfi
AuthorRafii, Arash
AuthorHalabi, Najeeb M.
Available date2023-09-20T08:47:08Z
Publication Date2022
Publication NameJournal of Translational Medicine
ResourceScopus
ISSN14795876
URIhttp://dx.doi.org/10.1186/s12967-022-03440-5
URIhttp://hdl.handle.net/10576/47775
AbstractBackground: Mutated and non-mutated genes interact to drive cancer growth and metastasis. While research has focused on understanding the impact of mutated genes on cancer biology, understanding non-mutated genes that are essential to tumor development could lead to new therapeutic strategies. The recent advent of high-throughput whole genome sequencing being applied to many different samples has made it possible to calculate if genes are significantly non-mutated in a specific cancer patient cohort. Methods: We carried out random mutagenesis simulations of the human genome approximating the regions sequenced in the publicly available Cancer Growth Atlas Project for ovarian cancer (TCGA-OV). Simulated mutations were compared to the observed mutations in the TCGA-OV cohort and genes with the largest deviations from simulation were identified. Pathway analysis was performed on the non-mutated genes to better understand their biological function. We then compared gene expression, methylation and copy number distributions of non-mutated and mutated genes in cell lines and patient data from the TCGA-OV project. To directly test if non-mutated genes can affect cell proliferation, we carried out proof-of-concept RNAi silencing experiments of a panel of nine selected non-mutated genes in three ovarian cancer cell lines and one primary ovarian epithelial cell line. Results: We identified a set of genes that were mutated less than expected (non-mutated genes) and mutated more than expected (mutated genes). Pathway analysis revealed that non-mutated genes interact in cancer associated pathways. We found that non-mutated genes are expressed significantly more than mutated genes while also having lower methylation and higher copy number states indicating that they could be functionally important. RNAi silencing of the panel of non-mutated genes resulted in a greater significant reduction of cell viability in the cancer cell lines than in the non-cancer cell line. Finally, as a test case, silencing ANKLE2, a significantly non-mutated gene, affected the morphology, reduced migration, and increased the chemotherapeutic response of SKOV3 cells. Conclusion: We show that we can identify significantly non-mutated genes in a large ovarian cancer cohort that are well-expressed in patient and cell line data and whose RNAi-induced silencing reduces viability in three ovarian cancer cell lines. Targeting non-mutated genes that are important for tumor growth and metastasis is a promising approach to expand cancer therapeutic options.
SponsorWe would like to thank Weill Cornell Medicine in Qatar (WCM-Q) and the Qatar National Leadership Program (QNLP) for research support. We would also like to thank the WCM-Q Advanced Computing Division for computing time and software support. Finally, we would like to thank colleagues and reviewers for experimental support and critical discussions. This study was made possible by JSREP grant 4-011-1-003 from the Qatar National Research Fund (a member of Qatar Foundation) and the QF Leadership program. The statements made herein are solely the responsibility of the author[s]. The funders had no role in the design of the study or in the collection, analysis, and interpretation of data and in writing the manuscript.
Languageen
PublisherBioMed Central Ltd
SubjectCancer somatic mutation;
Epithelial ovarian cancer
Mutated genes
Non-mutated genes
RNA-Seq
RNAi
Simulated mutation
Unmutated genes
TitleDiscovery of new therapeutic targets in ovarian cancer through identifying significantly non-mutated genes
TypeArticle
Issue Number1
Volume Number20
dc.accessType Open Access


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