c-Myb fusion proteins in Adenoid Cystic Carcinoma
University Of Virginia, Charlottesville VA
Investigators
Abstract
DESCRIPTION (provided by applicant): The Myb locus encodes the c-Myb transcription factor, which functions as both a transcription activator and repressor. c-Myb is absolutely required for definitive hematopoiesis and has been implicated in a variety of hematopoietic tumors including leukemia and lymphoma as well as solid tumors. In a collaborative effort, we recently demonstrated that loss of a single Myb allele severely reduces colony formation in bone marrow progenitors transduced with a p210BCR/ABL producing virus and extended survival in a model of CML blast crisis. This finding has been extended to transformation of B-lineage progenitors in two models of p190BCR/ABL- dependent B-cell leukemia. Despite clear evidence for the involvement of c-Myb in mouse and avian tumors relatively little direct evidence has implicated c-Myb in human cancer until recent reports of chromosomal translocations and subtle gene amplification involving the MYB locus in several human cancers. Thus, understanding c-Myb function in human tumors and identifying the downstream mediators of c-Myb activity is crucial for understanding the relevance of c-Myb function in human cancer. Stenman and colleagues have recently identified a recurrent and tumor specific t(6;9)(q22-23;p23-24) chromosomal translocation that involves the MYB and NFIB loci in adenoid cystic carcinoma (ACC). The recurrent and unique representation of this translocation in ACC suggests that the translocation event and the resulting c-Myb/NFIB fusion protein may play a fundamental role in these tumors. We propose two aims to test the significance of the resulting c- Myb/NFIB proteins to ACC. If c-Myb/NFIB fusion protein(s) proves to be important for the maintenance or initiation of ACC, the reagents generated in this proposal will provide valuable resources to understand the biology of ACC, identify target genes that are downstream mediators of the c-Myb/NFIB fusion protein in ACC and may provide therapeutic targets.
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