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Characterization of a novel separase-interacting protein and candidate new securin, Eip1p, in the fungal pathogen Candida albicans

Mol Biol Cell. 2019 Sep 1;30(19):2469-2489. doi: 10.1091/mbc.E18-11-0696. Epub 2019 Aug 14.

Abstract

Proper chromosome segregation is crucial for maintaining genomic stability and dependent on separase, a conserved and essential cohesin protease. Securins are key regulators of separases, but remain elusive in many organisms due to sequence divergence. Here, we demonstrate that the separase homologue Esp1p in the ascomycete Candida albicans, an important pathogen of humans, is essential for chromosome segregation. However, C. albicans lacks a sequence homologue of securins found in model ascomycetes. We sought a functional homologue through identifying Esp1p interacting factors. Affinity purification of Esp1p and mass spectrometry revealed Esp1p-Interacting Protein1 (Eip1p)/Orf19.955p, an uncharacterized protein specific to Candida species. Functional analyses demonstrated that Eip1p is important for chromosome segregation but not essential, and modulated in an APCCdc20-dependent manner, similar to securins. Eip1p is strongly enriched in response to methyl methanesulfate (MMS) or hydroxyurea (HU) treatment, and its depletion partially suppresses an MMS or HU-induced metaphase block. Further, Eip1p depletion reduces Mcd1p/Scc1p, a cohesin subunit and separase target. Thus, Eip1p may function as a securin. However, other defects in Eip1p-depleted cells suggest additional roles. Overall, the results introduce a candidate new securin, provide an approach for identifying these divergent proteins, reveal a putative anti-fungal therapeutic target, and highlight variations in mitotic regulation in eukaryotes.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Candida albicans / metabolism
  • Cell Cycle Proteins
  • Chromosomal Proteins, Non-Histone
  • Chromosome Segregation / physiology*
  • Cohesins
  • Endopeptidases / metabolism
  • Metaphase / physiology
  • Mitosis / physiology
  • Protein Binding
  • Securin / metabolism*
  • Securin / physiology
  • Separase / metabolism*
  • Separase / physiology

Substances

  • Cell Cycle Proteins
  • Chromosomal Proteins, Non-Histone
  • Securin
  • Endopeptidases
  • Separase