In vitro interactions between nuclear proteins and uncoupling protein gene promoter reveal several putative transactivating factors including Ets1, retinoid X receptor, thyroid hormone receptor, and a CACCC box-binding protein.

Abstract

Previous studies of rat ucp (uncoupling protein) gene organization carried out in this laboratory identified regulatory sequences located in the 5'-flanking region. In this work, DNase I footprint analysis of the enhancer revealed two domains at base pairs (bp) -2444 to -2423 and bp -2352 to -2319. The former domain can bind in vitro, in a cooperative manner, factors related to nuclear factor 1 and Ets1; the latter domain contains a type 3 directly repeated sequence that was shown to be able to bind the retinoid X and triiodothyronine receptors. Moreover, a positive effect of retinoic acid on ucp mRNA levels in immortalized brown adipocytes was observed. DNase I footprint analysis identified two hypersensitive regions, A and B, at bp -509 to -472 and bp -403 to -350, respectively; region A contains a repeated CACCC box, and region B can bind protein related to Ets1. The A box differentially binds liver and brown adipose tissue nuclear proteins and could be involved in uncoupling protein induction. Further analysis showed three foot-printed boxes, C-E, at bp -182 to -159, -147 to -120, and -111 to -85, able to bind in vitro proteins related to nuclear factor 1, cAMP response element-binding protein, and Sp1, respectively.