Mitochondrial P32/C1QBP is Highly Expressed in Prostate Cancer and is Associated with Shorter Prostate-specific Antigen Relapse Time After Radical Prostatectomy

Overview

Journal Cancer Sci

Specialty Oncology

Date 2011 Jan 6

PMID 21205079

Citations 36

Authors

Rie Amamoto

Mikako Yagi

Yoohyun Song

Yoshinao Oda

Masazumi Tsuneyoshi

Seiji Naito

Akira Yokomizo

Kentaro Kuroiwa

Shoji Tokunaga

Seiji Kato

Hisahide Hiura

Tomohiro Samori

Dongchon Kang

Takeshi Uchiumi

Affiliations

Soon will be listed here.

Abstract

Mitochondria are key organelles for ATP production and apoptosis. Therefore, impairment of mitochondria can modulate or accelerate cancer progression. p32, originally identified as a pre-mRNA splicing factor SF2/ASF-associated protein, is localized predominantly in the mitochondrial matrix and involved in mitochondria respiration. Recently, p32 was implicated in apoptosis and resultantly cancer progression. However, little is known about the expression and function of p32 in human tumors including prostate cancer. Here, we investigated the expression of p32 in 148 prostate carcinoma tissues by immunohistochemistry and found a positive correlation of p32 expression to clinicopathological parameters including follow-up data. p32 is highly expressed in prostate tumor samples and its expression is significantly associated with the Gleason score, pathological stage and relapse. For localized cancers, high p32 is a strong and independent predictor of clinical recurrence in multivariate analysis (P=0.01). In addition, p32 is overexpressed in the prostate cancer cell lines examined. The selective knockdown of p32 by RNA interference inhibits the growth of prostate cancer cell lines but not of a non-cancerous cell line. The p32 RNA interference decreases cyclin D1, increases p21 expression and causes a G1/S cell cycle arrest in prostate cancer cells. These data suggest that p32 is critical for prostate cancer cell proliferation and may be a novel marker of clinical progression in prostate cancer.

Citing Articles

Prediction of prognosis and immune response in lung adenocarcinoma based on mitophagy and lactate-related gene signatures.

Jiang W, Zhang F, Tang Z, Xu S, Zhang Y, Liu L Int J Clin Oncol. 2024; 30(2):277-297.

PMID: 39601968 DOI: 10.1007/s10147-024-02664-3.

Mitochondrial translation failure represses cholesterol gene expression via Pyk2-Gsk3β-Srebp2 axis.

Toshima T, Yagi M, Do Y, Hirai H, Kunisaki Y, Kang D Life Sci Alliance. 2024; 7(7).

PMID: 38719751 PMC: 11079605. DOI: 10.26508/lsa.202302423.

p32/OPA1 axis-mediated mitochondrial dynamics contributes to cisplatin resistance in non-small cell lung cancer.

Yu C, Peng Z, Wang T, Qu X, Yang P, Huang S Acta Biochim Biophys Sin (Shanghai). 2023; 56(1):34-43.

PMID: 38151998 PMC: 10875347. DOI: 10.3724/abbs.2023247.

The oncogenic role of SAMMSON lncRNA in tumorigenesis: A comprehensive review with especial focus on melanoma.

Ghasemian M, Babaahmadi-Rezaei H, Khedri A, Selvaraj C J Cell Mol Med. 2023; 27(24):3966-3973.

PMID: 37772815 PMC: 10746942. DOI: 10.1111/jcmm.17978.

Targeting Peptides: The New Generation of Targeted Drug Delivery Systems.

Todaro B, Ottalagana E, Luin S, Santi M Pharmaceutics. 2023; 15(6).

PMID: 37376097 PMC: 10300729. DOI: 10.3390/pharmaceutics15061648.