Combined Inactivation of MYC and K-Ras oncogenes reverses tumorigenesis in lung adenocarcinomas and lymphomas

Conditional transgenic models have established that tumors require sustained oncogene activation for tumor maintenance, exhibiting the phenomenon known as "oncogene-addiction." However, most cancers are caused by multiple genetic events making it difficult to determine which oncogenes or c...

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Bibliographic Details
Published in:PloS one 2008-05, Vol.3 (5), p.e2125
Main Authors: Tran, Phuoc T, Fan, Alice C, Bendapudi, Pavan K, Koh, Shan, Komatsubara, Kim, Chen, Joy, Horng, George, Bellovin, David I, Giuriato, Sylvie, Wang, Craig S, Whitsett, Jeffrey A, Felsher, Dean W
Format: Article
Language:English
Subjects:
Addictions
Adenocarcinoma
Adenocarcinoma - genetics
Adenocarcinoma - immunology
Adenocarcinoma - pathology
Analysis
Animals
Antineoplastic Agents - therapeutic use
Breast cancer
Cancer
Cell Biology/Cell Signaling
Deactivation
Disease Models, Animal
Doxycycline - therapeutic use
Gene Expression Regulation, Neoplastic
Gene Silencing - physiology
Genes, myc
Genes, ras
Genetic aspects
Genetic engineering
Genetics and Genomics/Cancer Genetics
Genetics and Genomics/Disease Models
Health aspects
Humans
Inactivation
K-Ras protein
Kinases
Lung cancer
Lung Neoplasms - genetics
Lung Neoplasms - immunology
Lung Neoplasms - pathology
Lungs
Lymphoma
Lymphoma - genetics
Lymphoma - immunology
Maintenance
Mice
Mice, Transgenic
Mutation
Myc protein
Non-Hodgkin's lymphomas
Oncogenes
Oncology/Hematological Malignancies
Oncology/Lung Cancer
Pathways
Phosphorylation
Regression
Respiratory agents
Respiratory Mucosa - drug effects
Rodents
Stat3 protein
Stat5 protein
Transgenic
Tumorigenesis
Tumors
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Summary:Conditional transgenic models have established that tumors require sustained oncogene activation for tumor maintenance, exhibiting the phenomenon known as "oncogene-addiction." However, most cancers are caused by multiple genetic events making it difficult to determine which oncogenes or combination of oncogenes will be the most effective targets for their treatment. To examine how the MYC and K-ras(G12D) oncogenes cooperate for the initiation and maintenance of tumorigenesis, we generated double conditional transgenic tumor models of lung adenocarcinoma and lymphoma. The ability of MYC and K-ras(G12D) to cooperate for tumorigenesis and the ability of the inactivation of these oncogenes to result in tumor regression depended upon the specific tissue context. MYC-, K-ras(G12D)- or MYC/K-ras(G12D)-induced lymphomas exhibited sustained regression upon the inactivation of either or both oncogenes. However, in marked contrast, MYC-induced lung tumors failed to regress completely upon oncogene inactivation; whereas K-ras(G12D)-induced lung tumors regressed completely. Importantly, the combined inactivation of both MYC and K-ras(G12D) resulted more frequently in complete lung tumor regression. To account for the different roles of MYC and K-ras(G12D) in maintenance of lung tumors, we found that the down-stream mediators of K-ras(G12D) signaling, Stat3 and Stat5, are dephosphorylated following conditional K-ras(G12D) but not MYC inactivation. In contrast, Stat3 becomes dephosphorylated in lymphoma cells upon inactivation of MYC and/or K-ras(G12D). Interestingly, MYC-induced lung tumors that failed to regress upon MYC inactivation were found to have persistent Stat3 and Stat5 phosphorylation. Taken together, our findings point to the importance of the K-Ras and associated down-stream Stat effector pathways in the initiation and maintenance of lymphomas and lung tumors. We suggest that combined targeting of oncogenic pathways is more likely to be effective in the treatment of lung cancers and lymphomas.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0002125