Abstract
In the fission yeast Schizosaccharomyces pombe, proper establishment and maintenance of cell polarity require Orb6p, a highly conserved serine/threonine kinase involved in regulating both cell morphogenesis and cell cycle control. Orb6p localizes to the cell tips during interphase and to the cell septum during mitosis. To investigate the mechanisms involved in Orb6p function, we conducted a two-hybrid screen to identify proteins that interact with Orb6p. Using this approach, we identified Skb1p, a highly conserved protein methyltransferase that has been implicated previously in cell cycle control, in the coordination of cell cycle progression with morphological changes, and in hyperosmotic stress response. We found that Skb1p associates with Orb6p in S. pombe cells and that the two proteins interact directly in vitro. Loss of Skb1p exacerbates the phenotype of orb6 mutants, suggesting that Skb1p and Orb6p functionally interact in S. pombe cells. Our results suggest that Skb1p affects the intracellular localization of Orb6p and that loss of Skb1p leads to a redistribution of the Orb6p kinase away from the cell tips. Furthermore, we found that Orb6p kinase activity is strongly increased following exposure to salt shock, suggesting that Orb6p has a role in cell response to hyperosmotic stress. Previous studies have shown that Skb1p interacts with the fission yeast p21-activated kinase homologue Pak1p/Shk1p to regulate cell polarity and cell cycle progression. Our findings identify Orb6p as an additional target for Skb1p and suggest a novel function for Skb1p in the control of cell polarity by regulating the subcellular localization of Orb6p.
Highlights
The establishment of cell polarity and the control of cell shape are fundamental to cell growth and function and are essential for intracellular transport, cell differentiation, and cell locomotion
A Two-hybrid Interaction Screen Identifies Skb1p as a Protein Interacting with Orb6p—To gain insights into how Orb6p regulates cell polarity and mitotic progression, we conducted a two-hybrid screen to identify cDNAs that encode proteins interacting with Orb6p
Orb6p is a member of a conserved family of serine/threonine kinases involved in regulating cell morphogenesis in a number of eukaryotic organisms [7,8,9, 11,12,13,14,15,16,17,18]
Summary
Genotype hϪ 972 hϩ orb ade704 leu hϩ cdc leu ade704 ura4-D18 pJK148 orb6-HA hϩ cdc skb1::ura4ϩ leu ade704 ura4-D18 pJK148 orb6-HA hϪ skb1::ura4ϩ ade6-M216 his322 leu ura4-D18 h90 orb6::ura4ϩ ade- leu ura4-D18 pJK148 orb6HA hϪ ura4-D18 leu ade6-M216 his322 hϩ mob2-13myc::kanMX6 orb6-HA::sup ura4-D18 leu ade6Ϫ hϩ skb1::ura4ϩ mob2-13myc(KAN) orb6-HA(sup3-5) ura4-D18 leu ade6Ϫ hϪ ura4-D18 leu ade6-M216 his322 pRep3X GST-orb hϪ skb1::ura4ϩ ade6-M216 his322 leu ura4-D18 hϪ pRep3X GST-orb hϩ orb6-HA::sup ura4-D18 leu ade704 hϩ skb1::ura4ϩ orb6-HA(sup3-5) ura4-D18 leu ade6Ϫ hϪ ade704 leu ura4-D18 pAAU GST-skb pRep3X orb6-HA hϪ ade704 leu ura4-D18 pAAU GST pRep3X orb6-HA hϪ mob2-13myc::kanMX6 ura4-D18 leu ade6Ϫ. 6, 7 This study This study Ref. 19 Ref. 7 This study Ref. 28 This study This study This study Ref. 28 This study This study This study This study both Skb1p and Hls7p have a role in cell cycle control, the molecular details of these controls may be different. We characterize the interaction between Skb1p and Orb6p at the genetic and molecular level. Our results indicate that Skb1p interacts with Orb6p to regulate cell polarity in fission yeast by positively regulating Orb6p localization to the cell tips. We report that Orb6p kinase activity is increased during hyperosmotic stress, suggesting that Orb6p may play an important role in hyperosmotic stress response. Our findings identify a novel function for Skb1p and suggest a wider role for this protein in regulating the spatial localization of protein kinases involved in the control of cell morphology in fission yeast
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