Expression of Itch in Sertoli cells is controlled via the interaction of E2F1/DP1 complex with E2F and GATA motifs

Abstract

Itch, an ubiquitin E3 ligase, has been implicated in the regulation of the permeability of tight junction (TJ) barriers in Sertoli cells. It is involved in cAMP-mediated TJ disruption by targeting occludin for proteasomal degradation in the testis. However, the molecular mechanisms governing its transcription remain enigmatic. By the transient transfection of Itch promoter luciferase construct in TM4 cells, we showed that the minimal Itch promoter was located between nucleotides -151 and -1 (relative to the translation start site). One E2F motif and two each of GATA and Nkx motifs were identified within the core promoter region. Mutation and overexpression analyses have shown that the E2F and GATA-a motifs are involved in Itch gene transcription, but play different roles. The E2F motif is the crucial cis-acting element that drives the basal gene transcription, while the GATA-a motif functionally co-operates with E2F motif. By electromobility shift assays, we confirmed that E2F1 and DP1 form heterodimers and binds to E2F and GATA-a motifs. Taken together, the GATA-a motif assists/strengthens the binding of E2F1/DP1 complex to the E2F motif, resulting in efficient looping of promoter region of Itch gene for transcription.