Accession Number : ADA592099


Title :   ETS Gene Fusions as Predictive Biomarkers of Resistance to Radiation Therapy for Prostate Cancer


Descriptive Note : Annual summary rept. 15 Jul 2012-14 Jul 2013


Corporate Author : MICHIGAN UNIV ANN ARBOR


Personal Author(s) : Feng, Felix


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a592099.pdf


Report Date : Aug 2013


Pagination or Media Count : 10


Abstract : The research goals of this grant proposal are to: 1) investigate the effect of ETS gene fusions on radiation phenotype in preclinical models of prostate cancer, 2) to explore the mechanism of interaction between ERG (the predominant ETS gene fusion product) and the DNA repair protein DNA-PK, and 3) to determine if ETS gene fusion status is a clinical biomarker of radioresistance for prostate cancer. The training goals of this grant proposal included a series of regular meetings with mentors, research seminars, journal clubs, and workshops, all of which are intended to help Dr. Feng develop as a translational scientist. This grant proposal was approved as a five-year award; the current annual report summarizes accomplishments over the third year of the grant, from July 15, 2012 to July 15, 2013. Overall, the first three years of this grant have been very successful. The work accomplished as a result of this grant resulted in three publications in very high-impact journals (including a fourth accepted pending minor revisions), four presentations, and four grants (two from the Prostate Cancer Foundation, one from Celgene, and one from the Fund for Cancer Research). Additionally, Dr. Feng has met the training achievements specified in his original grant. The research proposed in this training grant represents an important area within the field of prostate cancer research. Because ETS gene fusions are thought to be driver alterations in over half of all prostate cancers, understanding the mechanistic and potential clinical implications of these gene fusions has significant ramifications, particularly in the context of radiation therapy, which represents a primary treatment modality for localized prostate cancer. In the third year of this grant period, we have accomplished another three subaims, for a total of 15 out of 20 originally proposed subaims accomplished over the first three years of this grant.


Descriptors :   *PROSTATE CANCER , *RADIOTHERAPY , DEOXYRIBONUCLEIC ACIDS , FOUNDATIONS(STRUCTURES) , GENES , GRANTS , IMPACT , MEDICAL RESEARCH , MODELS , PERIODICALS , PROSTATE GLAND , PROTEINS , REPAIR , REPORTS , SYMPOSIA , TRAINING


Subject Categories : Medicine and Medical Research


Distribution Statement : APPROVED FOR PUBLIC RELEASE