Abstract
C-MYC, a transforming oncogene that is frequently overexpressed in many human cancers, regulates a variety of normal functions including cell cycle progression, apoptosis, and maintenance of cell size, morphology, and genomic integrity. Many target genes are modulated by c-Myc, and some can recapitulate a limited number of the above functions. Because most of these have been assessed in cells which also express endogenous c-Myc, however, it is not clear to what extent its proper regulation is also required. We show here that, in c-Myc nullizygous cells, two direct target genes, MT-MC1 and HMG-I, could each recapitulate multiple c-Myc phenotypes. Although these differ somewhat for the two genes, substantial overlap and cooperativity exist. The enforced expression of these two genes was also associated with the differential deregulation of some previously described c-Myc target genes, indicating the presence of a complex molecular circuitry. These observations argue that, despite the great diversity of gene regulation by c-Myc, many, although not all, of its functions can be phenocopied by a small subset of key downstream target genes. The approach described here should permit the identification of other target genes capable of further c-Myc-independent complementation.
Highlights
Members of the Myc oncoprotein family are frequently overexpressed in human cancers [1]
In order to study the c-Myc–independent consequences of MT-MC1 and/or HMG-I overexpression, we infected KO cells with retroviruses encoding each of these epitope-tagged proteins
One of the central issues concerning c-Myc-regulated genes is the extent to which their functions are dependent upon the concurrent expression of other c-Myc targets, and upon c-Myc itself
Summary
Members of the Myc oncoprotein family are frequently overexpressed in human cancers [1]. The complete catalog of c-Myc target genes has not been studied in detail, some genes, when individually overexpressed, can recapitulate a limited number of the c-Myc phenotypes described above [23, 28,29,30,31,32,33,34,35,36,37,38]. A major challenge is to determine which of these genes comprise the minimal functional subset and whether it is unique or interchangeable with other such subsets. Another challenge is to determine whether the restricted c-Myc-like properties imparted by individual targets require assistance in the form of concurrent expression of endogenous c-Myc and/or of its other downstream targets
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