NF-Y antagonizes renin enhancer function by blocking stimulatory transcription factors.

We previously reported that the promoter proximal portion of the mouse renin enhancer contains a binding site for NF-Y (Ea) that overlaps with a positive regulatory element (Eb). In the context of the renin enhancer, NF-Y acts to oppose enhancer activity. We tested the hypothesis that NF-Y acts as a negative regulator by physically blocking the binding of transcription factors to element-b (Eb). Increasing the spacing between the NF-Y binding site (Ea) and Eb by 2, 5, or 10 nucleotides increased activity of the enhancer to the same extent as mutations abolishing NF-Y binding. The increase in transcription caused by increasing the spacing between Ea and Eb was not due to a shift of NF-Y from a negative regulator to a positive regulator because there was no loss of activity when Ea was also mutated. Oligonucleotides containing the normal or increased spacing mutants still allowed the binding of both NF-Y to Ea and transcription factors to Eb. In fact, we present evidence that both NF-Y and the Eb-binding factor(s) can each bind together on the same oligonucleotide containing either a 5- or 10-bp spacing between Ea and Eb. Our data strongly suggest that the mechanism by which NF-Y opposes renin enhancer activity is to sterically block the binding of factors to Eb.