3ix0 Citations

Crystal structure of prostate secretory protein PSP94 shows an edge-to-edge association of two monomers to form a homodimer.

Kumar A, Jagtap DD, Mahale SD, Kumar M
J Mol Biol 397 947-56 (2010)
Cited: 14 times
EuropePMC logo PMID: 20184897

Abstract

Several recent genome-wide association studies have linked the human MSMB gene, encoding prostate secretory protein of 94 residues (PSP94), with prostate cancer susceptibility. PSP94 is one of the most abundant proteins from prostatic secretions and a primary constituent of human semen. PSP94 suppresses tumor growth and metastasis, and its expression gradually decreases during progression of the prostate cancer. It is a rapidly evolving protein with homologues present in several species with 10 conserved cysteine residues. PSP94 homologues show high-affinity binding with different proteins from the cysteine-rich secretory protein family, some of which have been shown to be ion channel blockers. Here, we report the crystal structure of human PSP94 at 2.3 A resolution. The structure shows that the amino and the carboxyl ends of the polypeptide chain are held in close proximity facing each other. A strong hydrogen bond between these ends, which are located respectively on the first and the last beta-strands, leads to formation of an almost straight edge in PSP94 structure. Crystal structure shows that these edges from two PSP94 monomers associate in antiparallel fashion, leading to formation of a dimer. Our studies further show that dimers dissociate into monomers at acidic pH, possibly through distortion of the straight edge. Further, based on several observations, we propose that PSP94 binds to cysteine-rich secretory proteins and immunoglobulin G through the same edge, which is involved in the formation of PSP94 dimeric interface.

Articles - 3ix0 mentioned but not cited (6)

  1. Prostate Secretory Protein of 94 amino acids (PSP94) binds to prostatic acid phosphatase (PAP) in human seminal plasma. Anklesaria JH, Jagtap DD, Pathak BR, Kadam KM, Joseph S, Mahale SD. PLoS ONE 8 e58631 (2013)
  2. A novel MSMB-related microprotein in the postovulatory egg coats of marsupials. Frankenberg S, Fenelon J, Dopheide B, Shaw G, Renfree MB. BMC Evol. Biol. 11 373 (2011)
  3. The dipeptidyl peptidase IV inhibitors vildagliptin and K-579 inhibit a phospholipase C: a case of promiscuous scaffolds in proteins. Chakraborty S, Rendón-Ramírez A, Ásgeirsson B, Dutta M, Ghosh AS, Oda M, Venkatramani R, Rao BJ, Dandekar AM, Goñi FM. F1000Res 2 286 (2013)
  4. Abstract 7/31/2010. Biol. Reprod. 83 2-2 (2010)
  5. Crystal structure of the complex between venom toxin and serum inhibitor from Viperidae snake. Shioi N, Tadokoro T, Shioi S, Okabe Y, Matsubara H, Kita S, Ose T, Kuroki K, Terada S, Maenaka K. J. Biol. Chem. 294 1250-1256 (2019)
  6. Three-dimensional structures of avian beta-microseminoproteins: insight from the chicken egg-specific beta-microseminoprotein 3 paralog. Coste F, Moreau T, Labas V, Chessé M, Bregeon M, Meudal H, Loth K, Castaing B, Guyot N, Réhault-Godbert S. FEBS Open Bio 11 1739-1756 (2021)


Reviews citing this publication (1)

  1. Biomarkers in prostate cancer: new era and prospective. Mohammed AA. Med. Oncol. 31 140 (2014)

Articles citing this publication (7)

  1. β-Microseminoprotein endows post coital seminal plasma with potent candidacidal activity by a calcium- and pH-dependent mechanism. Edström Hägerwall AM, Rydengård V, Fernlund P, Mörgelin M, Baumgarten M, Cole AM, Malmsten M, Kragelund BB, Sørensen OE. PLoS Pathog. 8 e1002625 (2012)
  2. Proteomic analysis of egg white heparin-binding proteins: towards the identification of natural antibacterial molecules. Guyot N, Labas V, Harichaux G, Chessé M, Poirier JC, Nys Y, Réhault-Godbert S. Sci Rep 6 27974 (2016)
  3. Growth inhibition mediated by PSP94 or CRISP-3 is prostate cancer cell line specific. Pathak BR, Breed AA, Nakhawa VH, Jagtap DD, Mahale SD. Asian J. Androl. 12 677-689 (2010)
  4. Mapping of the binding sites involved in PSP94-CRISP-3 interaction by molecular dissection of the complex. Breed AA, Gomes A, Roy BS, Mahale SD, Pathak BR. Biochim. Biophys. Acta 1830 3019-3029 (2013)
  5. Growth inhibition properties of the putative prostate cancer biomarkers PSP94 and CRISP-3. Van Eynde A, Litovkin K, Bollen M. Asian J. Androl. 13 205-206 (2011)
  6. Neonatal exposure to 2,3,7,8-tetrachlorodibenze-p-dioxin increases the mRNA expression of prostatic proteins in C57BL mice. Fujimoto N, Takagi A, Kanno J. J Toxicol Sci 38 279-283 (2013)
  7. Prostate secretory protein 94 inhibits sterol binding and export by the mammalian CAP protein CRISP2 in a calcium-sensitive manner. El Atab O, Kocabey AE, Asojo OA, Schneiter R. J Biol Chem 298 101600 (2022)


Related citations provided by authors (1)

  1. Crystallization and preliminary X-ray diffraction analysis of human seminal plasma protein PSP94.. Kumar M, Jagtap DD, Mahale SD, Prashar V, Kumar A, Das A, Bihani SC, Ferrer JL, Hosur MV, Ramanadham M Acta Crystallogr Sect F Struct Biol Cryst Commun 65 389-91 (2009)

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