RT Journal Article
SR Electronic
T1 Fission yeast TRP channel Pkd2p localizes to the cleavage furrow and regulates cell separation during cytokinesis
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 316380
DO 10.1101/316380
A1 Zachary Morris
A1 Debatrayee Sinha
A1 Abhishek Poddar
A1 Brittni Morris
A1 Qian Chen
YR 2019
UL http://biorxiv.org/content/early/2019/04/30/316380.abstract
AB Force plays a central role in separating daughter cells during cytokinesis, the last stage of cell division. However, the mechanism of force-sensing during cytokinesis remains unknown. Here we discovered that Pkd2p, a putative force-sensing TRP channel, localizes to the cleavage furrow during cytokinesis of the fission yeast, Schizosaccharomyces pombe. Pkd2p, whose human homologues are associated with Autosomal Polycystic Kidney Disease, is an essential protein whose localization depends on the contractile ring and the secretory pathway. We identified and characterized a novel pkd2 mutant pkd2-81KD. The pkd2 mutant cells show signs of osmotic stress, including temporary shrinking, paused turnover of the cytoskeletal structures and hyper-activated MAPK signaling. During cytokinesis, although the contractile ring constricts more rapidly in the pkd2 mutant than the wild-type cells (50% higher), the cell separation in the mutant is slower and often incomplete. These cytokinesis defects are also consistent with mis-regulated turgor pressure. Lastly, the pkd2 mutant exhibits strong genetic interactions with two mutants of the SIN pathway, a signaling cascade essential for cytokinesis. We propose that Pkd2p modulates osmotic homeostasis and is potentially a novel regulator of cytokinesis.Highlight summary for TOC Fission yeast TRP channel Pkd2p is the homologue of human polycystins. The pkd2 mutant exhibits defects in the contractile ring closure and cell separation during cytokinesis. This essential protein localizes to the cleavage furrow where it likely regulates osmotic homeostasis during cytokinesis.