Drosophila Hindsight and mammalian RREB-1 are evolutionarily conserved DNA-binding transcriptional attenuators

•HNT attenuates transcription of its direct target genes, hnt and nervy.•Human RREB-1 and HNT bind conserved DNA sequences.•RREB-1 and HNT have conserved DNA-binding Zinc-finger clusters.•RREB-1 and HNT are functionally conserved.•Novel mapping technique combines immunostaining and FISH on polytene chromosomes.

The Drosophila Hindsight (hnt) gene encodes a C2H2-type Zinc-finger protein, HNT, that plays multiple developmental roles including control of embryonic germ band retraction and regulation of retinal cell fate and morphogenesis. While the developmental functions of the human HNT homolog, RREB-1, are unknown, it has been shown to function as a transcriptional modulator of several tumor suppressor genes. Here we investigate HNT's functional motifs, target genes and its regulatory abilities. We show that the C-terminal region of HNT, containing the last five of its 14 Zinc fingers, binds in vitro to DNA elements very similar to those identified for RREB-1. We map HNT's in vivo binding sites on salivary gland polytene chromosomes and define, at high resolution, where HNT is bound to two target genes, hnt itself and nervy (nvy). Data from both loss-of-function and over-expression experiments show that HNT attenuates the transcription of these two targets in a tissue-specific manner. RREB-1, when expressed in Drosophila, binds to the same polytene chromosome sites as HNT, attenuates expression of the hnt and nvy genes, and rescues the germ band retraction phenotype. HNT's ninth Zinc finger has degenerated or been lost in the vertebrate lineage. We show that a HNT protein mutant for this finger can also attenuate target gene expression and rescue germ band retraction. Thus HNT and RREB-1 are functional homologs at the level of DNA binding, transcriptional regulation and developmental control.