IMMUNOCHEMICAL CHARACTERIZATION AND TRANSACTING PROPERTIES OF UPSTREAM STIMULATORY FACTOR ISOFORMS

The ubiquitous upstream stimulatory factor (USF) transcription factors encoded by two distinct genes (USF1 and USF2) exist under the form of various dimers able to bind E-boxes, We report the molecular cloning and functional characterization of USF2 isoforms, corresponding to a 4 4-kDa subunit, USF2a, and a new 38-kDa subunit, USF2b, generated by di fferential splicing. Using specific anti USF antibodies, we define the different binding complexes in various nuclear extracts, In vivo, the USF1/USF2a heterodimer represents over 66% of the USF binding activit y whereas the USF1 and USF2a homodimers represent less than 10%, which strongly suggests an in vivo preferential association in heterodimers . In particular, an USF1/USF2b heterodimer accounted for almost 15% of the USF species in some cells. The preferential heterodimerization of USF subunits was reproduced ex vivo, while the in vitro association o f cotranslated subunits, or recombinant USF proteins, appeared to be r andom. In transiently transfected HeLa or hepatoma cells, USF2a and US F1 homodimers transactivated a minimal promoter with similar efficienc y, whereas USF2b, which lacks an internal 67-amino acid domain, was a poor transactivator. Additionally, USF2b was as efficient as USF1 and USF2a homodimers in transactivating the liver-specific pyruvate kinase gene promoter.