Transmembrane Prostatic Acid Phosphatase

Transmembrane Prostatic Acid Phosphatase

The molecular mechanisms underlying prostate carcinogenesis are poorly understood. Prostatic acid phosphatase (PAP), a prostatic epithelial secretion marker, has been linked to prostate cancer since the 1930's. However, the contribution of PAP to the disease remains controversial. We have previ...

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Bibliographic Details
Published in:PloS one Vol. 8; no. 9; p. e73072
Main Authors: Quintero, Ileana B, Herrala, Annakaisa M, Araujo, César L, Pulkka, Anitta E, Hautaniemi, Sampsa, Ovaska, Kristian, Pryazhnikov, Evgeny, Kulesskiy, Evgeny, Ruuth, Maija K, Soini, Ylermi, Sormunen, Raija T, Khirug, Leonard, Vihko, Pirkko T
Format: Journal Article
Language:English
Published: Public Library of Science 10-09-2013
Subjects:
Adenocarcinoma
Gene expression
Genomics
Phosphatases
Physiological aspects
Prostate cancer
Protein binding
Proteins
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Summary:The molecular mechanisms underlying prostate carcinogenesis are poorly understood. Prostatic acid phosphatase (PAP), a prostatic epithelial secretion marker, has been linked to prostate cancer since the 1930's. However, the contribution of PAP to the disease remains controversial. We have previously cloned and described two isoforms of this protein, a secretory (sPAP) and a transmembrane type-I (TMPAP). The goal in this work was to understand the physiological function of TMPAP in the prostate. We conducted histological, ultra-structural and genome-wide analyses of the prostate of our PAP-deficient mouse model (PAP.sup.-/-) with C57BL/6J background. The PAP.sup.-/- mouse prostate showed the development of slow-growing non-metastatic prostate adenocarcinoma. In order to find out the mechanism behind, we identified PAP-interacting proteins byyeast two-hybrid assays and a clear result was obtained for the interaction of PAP with snapin, a SNARE-associated protein which binds Snap25 facilitating the vesicular membrane fusion process. We confirmed this interaction by co-localization studies in TMPAP-transfected LNCaP cells (TMPAP/LNCaP cells) and in vivo FRET analyses in transient transfected LNCaP cells. The differential gene expression analyses revealed the dysregulation of the same genes known to be related to synaptic vesicular traffic. Both TMPAP and snapin were detected in isolated exosomes. Our results suggest that TMPAP is involved in endo-/exocytosis and disturbed vesicular traffic is a hallmark of prostate adenocarcinoma.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0073072