PLoS Biology (Jun 2018)

The zinc transporter ZIPT-7.1 regulates sperm activation in nematodes.

  • Yanmei Zhao,
  • Chieh-Hsiang Tan,
  • Amber Krauchunas,
  • Andrea Scharf,
  • Nicholas Dietrich,
  • Kurt Warnhoff,
  • Zhiheng Yuan,
  • Marina Druzhinina,
  • Sam Guoping Gu,
  • Long Miao,
  • Andrew Singson,
  • Ronald E Ellis,
  • Kerry Kornfeld

DOI
https://doi.org/10.1371/journal.pbio.2005069
Journal volume & issue
Vol. 16, no. 6
p. e2005069

Abstract

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Sperm activation is a fascinating example of cell differentiation, in which immotile spermatids undergo a rapid and dramatic transition to become mature, motile sperm. Because the sperm nucleus is transcriptionally silent, this transition does not involve transcriptional changes. Although Caenorhabditis elegans is a leading model for studies of sperm activation, the mechanisms by which signaling pathways induce this transformation remain poorly characterized. Here we show that a conserved transmembrane zinc transporter, ZIPT-7.1, regulates the induction of sperm activation in Caenorhabditis nematodes. The zipt-7.1 mutant hermaphrodites cannot self-fertilize, and males reproduce poorly, because mutant spermatids are defective in responding to activating signals. The zipt-7.1 gene is expressed in the germ line and functions in germ cells to promote sperm activation. When expressed in mammalian cells, ZIPT-7.1 mediates zinc transport with high specificity and is predominantly located on internal membranes. Finally, genetic epistasis places zipt-7.1 at the end of the spe-8 sperm activation pathway, and ZIPT-7.1 binds SPE-4, a presenilin that regulates sperm activation. Based on these results, we propose a new model for sperm activation. In spermatids, inactive ZIPT-7.1 is localized to the membranous organelles, which contain higher levels of zinc than the cytoplasm. When sperm activation is triggered, ZIPT-7.1 activity increases, releasing zinc from internal stores. The resulting increase in cytoplasmic zinc promotes the phenotypic changes characteristic of activation. Thus, zinc signaling is a key step in the signal transduction process that mediates sperm activation, and we have identified a zinc transporter that is central to this activation process.