Polycomb repressive complex 1 initiates and maintains tailless repression in Drosophila embryo

Maternally-deposited morphogens specify the fates of embryonic cells via hierarchically regulating the expression of zygotic genes that encode various classes of developmental regulators. Once the cell fates are determined, Polycomb-group proteins frequently maintain the repressed state of the genes. This study investigates how Polycomb-group proteins repress the expression of tailless, which encodes a developmental regulator in Drosophila embryo. Previous studies have shown that maternal Tramtrack69 facilitates maternal GAGA-binding factor and Heat shock factor binding to the torso response element (tor-RE) to initiate tailless repression in the stage-4 embryo. Chromatin-immunoprecipitation and genetic-interaction studies exhibit that maternally-deposited Polycomb repressive complex 1 (PRC1) recruited by the tor-RE-associated Tramtrack69 represses tailless expression in the stage-4 embryo. A noncanonical Polycomb-group response element (PRE) is mapped to the tailless proximal region. High levels of Bric-a-brac, Tramtrack, and Broad (BTB)-domain proteins are fundamental for maintaining tailless repression in the stage-8 to -10 embryos. Trmtrack69 sporadically distributes in the linear BTB-domain oligomer, which recruits and retains a high level of PRC1 near the GCCAT cluster for repressing tll expression in the stage-14 embryos. Disrupting the retention of PRC1 decreases the levels of PRC1 and Pleiohomeotic protein substantially on the PRE and causes tailless derepression in the stage-14 embryo. Furthermore, the retained PRC1 potentially serves as a second foundation for assembling the well-characterized polymer of the Sterile alpha motif domain in Polyhomeotic protein, which compacts chromatin to maintain the repressed state of tailless in the embryos after stage 14.     

Epididymal expression of the forkhead transcription factor Foxi1 is required for male fertility

An essential aspect of male reproductive capacity is the immediate availability of fertilization-ready spermatozoa. To ensure this, most mammals rely on post-testicular sperm maturation. In epididymis, germ cells are matured and stored in a quiescent state that readily can be altered to produce active spermatozoa. This depends on active proton secretion into the epididymal lumen. We have identified Foxi1 as an important regulator of gene expression in narrow and clear cells-the major proton secretory cells of epididymal epithelia. Foxi1 appears to be required for the expression of the B1-subunit of the vacuolar H+ -ATPase proton pump and for carbonic anhydrase II as well as the chloride/bicarbonate transporter pendrin. Using transfection experiments, we have identified a Foxi1 binding cis-element in the ATP6V1B1 (encoding the B1-subunit) promoter that is critical for reporter gene activation. When this site is mutated to eliminate Foxi1 binding, activation is also abolished. As a consequence of defect Foxi1-dependent epididymal sperm maturation, we demonstrate that spermatozoa from Foxi1 null males fail to reach the female genital tract in sufficient number to allow fertilization.