Muscle gene E-box control elements. Evidence for quantitatively different transcriptional activities and the binding of distinct regulatory factors.

The muscle creatine kinase gene enhancer contains two regulatory elements (MCK-R and MCK-L) with the consensus E-box sequence (CAnnTG). A myocyte specific protein complex, MEF1, binds the MCK-R site. MEF1 contains several basic H-L-H myogenic determination factors (MDFs), each dimerized with ubiquitous members of the bH-L-H family (e.g. E12/E47). We now demonstrate that the ubiquitous bH-L-H factor E2-2 is a major component of the endogenous MCK-R site specific complex. Previous studies described the MCK-L site as a similar but low affinity MDF/bH-L-H heterodimer binding site. However, we find that the MCK-L site exhibits preferential binding of an unknown ubiquitous factor which contains neither E12/E47 nor E2-2, and that it exhibits differential transcriptional activity with muscle and non-muscle cells. The differential behavior of the MCK-L and MCK-R sites may be a general trait of E-box elements since one among several E-boxes in the MLC 1/3 enhancer also binds preferentially to the MCK-L factor. From our studies we now propose separate consensus sequences for MCK-R and MCK-L E-box types: AACAc/gc/gTGCa/t and GGa/cCANGTGGc/gNa/g. Our results suggest that while many muscle gene E-boxes are capable of binding the previously characterized spectrum of MDF/bH-L-H heterodimers in vitro, MCK-L type E-boxes probably bind qualitatively different factors in vivo.