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Abstract
Background
The MYC oncogene contributes to induction and growth of many cancers but the full spectrum of the MYC transcriptional response remains unclear.
Methodology/Principal Findings
Using microarrays, we conducted a detailed kinetic study of genes that respond to MYCN or MYCN?MBII induction in primary human fibroblasts. In parallel, we determined the response to steady state overexpression of MYCN and MYCN?MBII in the same cell type. An overlapping set of 398 genes from the two protocols was designated a ‘Core MYC Signature’ and used for further analysis. Comparison of the Core MYC Signature to a published study of the genes induced by serum stimulation revealed that only 7.4% of the Core MYC Signature genes are in the Core Serum Response and display similar expression changes to both MYC and serum. Furthermore, more than 50% of the Core MYC Signature genes were not influenced by serum stimulation. In contrast, comparison to a panel of breast cancers revealed a strong concordance in gene expression between the Core MYC Signature and the basal-like breast tumor subtype, which is a subtype with poor prognosis. This concordance was supported by the higher average level of MYC expression in the same tumor samples.
Conclusions/Significance
The Core MYC Signature has clinical relevance as this profile can be used to deduce an underlying genetic program that is likely to contribute to a clinical phenotype. Therefore, the presence of the Core MYC Signature may predict clinical responsiveness to therapeutics that are designed to disrupt MYC-mediated phenotypes.
The MYC oncogene contributes to induction and growth of many cancers but the full spectrum of the MYC transcriptional response remains unclear.
Methodology/Principal Findings
Using microarrays, we conducted a detailed kinetic study of genes that respond to MYCN or MYCN?MBII induction in primary human fibroblasts. In parallel, we determined the response to steady state overexpression of MYCN and MYCN?MBII in the same cell type. An overlapping set of 398 genes from the two protocols was designated a ‘Core MYC Signature’ and used for further analysis. Comparison of the Core MYC Signature to a published study of the genes induced by serum stimulation revealed that only 7.4% of the Core MYC Signature genes are in the Core Serum Response and display similar expression changes to both MYC and serum. Furthermore, more than 50% of the Core MYC Signature genes were not influenced by serum stimulation. In contrast, comparison to a panel of breast cancers revealed a strong concordance in gene expression between the Core MYC Signature and the basal-like breast tumor subtype, which is a subtype with poor prognosis. This concordance was supported by the higher average level of MYC expression in the same tumor samples.
Conclusions/Significance
The Core MYC Signature has clinical relevance as this profile can be used to deduce an underlying genetic program that is likely to contribute to a clinical phenotype. Therefore, the presence of the Core MYC Signature may predict clinical responsiveness to therapeutics that are designed to disrupt MYC-mediated phenotypes.
Original language | English |
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Article number | e6693 |
Journal | PLoS ONE |
Volume | 4 |
Issue number | 8 |
DOIs | |
Publication status | Published - 2009 |
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- 1 Finished
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Aref#d: 19352. The Mechanism of Myc function in cell proliferation and cancer (Career Development Fellowship)
Cowling, V. (Investigator)
3/12/07 → 2/01/14
Project: Research