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α-Mannosidase 2C1 attenuates PTEN function in prostate cancer cells

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Listed:
  • Lizhi He

    (McMaster University
    McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital
    Hamilton Centre for Kidney Research, St Joseph's Hospital)

  • Catherine Fan

    (McMaster University
    McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital
    Hamilton Centre for Kidney Research, St Joseph's Hospital)

  • Anil Kapoor

    (McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital)

  • Alistair J. Ingram

    (McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital
    Hamilton Centre for Kidney Research, St Joseph's Hospital)

  • Adrian P. Rybak

    (McMaster University
    McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital
    Hamilton Centre for Kidney Research, St Joseph's Hospital)

  • Richard C. Austin

    (McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital
    Hamilton Centre for Kidney Research, St Joseph's Hospital)

  • Jeffery Dickhout

    (McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital
    Hamilton Centre for Kidney Research, St Joseph's Hospital)

  • Jean-Claude Cutz

    (McMaster University)

  • James Scholey

    (University of Toronto)

  • Damu Tang

    (McMaster University
    McMaster University
    Father Sean O'Sullivan Research Institute, St Joseph's Hospital
    Hamilton Centre for Kidney Research, St Joseph's Hospital)

Abstract

PTEN dephosphorylates the 3-position phosphate of phosphatidylinositol 3,4,5 triphosphate (PIP3), thereby inhibiting AKT activation. Although attenuation of PTEN function has a major role in tumourigenesis, the underlying mechanisms remain unclear. Here we show that α-mannosidase 2C1 (MAN2C1) inhibits PTEN function in prostate cancer (PC) cells and is associated with a reduction in PTEN function in primary PC. MAN2C1 activates AKT and promotes the formation of PTEN-positive DU145 cell-derived xenograft tumours by imparing endogenous PTEN function. In 659 PC patients who were examined, ∼60% of tumours were PTEN positive with elevated AKT activation. Of these, 80% display MAN2C1 overexpression that co-localizes with PTEN. Increases in MAN2C1 were detected only in PTEN-positive prostatic intraepithelial neoplasia and carcinomas, and showed a significant association with PC recurrence only in patients with PTEN-positive PCs. Mechanistically, MAN2C1 binds PTEN thereby inhibiting its PIP3 phosphatase activity. These findings show that MAN2C1 function as a PTEN-negative regulator in PC cells.

Suggested Citation

  • Lizhi He & Catherine Fan & Anil Kapoor & Alistair J. Ingram & Adrian P. Rybak & Richard C. Austin & Jeffery Dickhout & Jean-Claude Cutz & James Scholey & Damu Tang, 2011. "α-Mannosidase 2C1 attenuates PTEN function in prostate cancer cells," Nature Communications, Nature, vol. 2(1), pages 1-11, September.
    • Handle: RePEc:nat:natcom:v:2:y:2011:i:1:d:10.1038_ncomms1309
    DOI: 10.1038/ncomms1309
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