Abstract
Background
Prostate cancer cell lines have been used in the search for biomarkers that are suitable for prostate cancer diagnosis. Unfortunately, many cell line studies have only involved single cell lines, partially characterized cell lines or were performed without controls, and this may have been detrimental to effective biomarker discovery. We have analyzed a panel of prostate cancer and nonmalignant control cell lines using current biomarkers and then investigated a set of prospective endosomal and lysosomal proteins to search for new biomarkers.Methods
Western blotting was used to define the amount of protein and specific molecular forms in cell extracts and culture media from a panel of nonmalignant (RWPE-1, PNT1a, PNT2) and prostate cancer (22RV1, CaHPV10, DU-145, LNCaP) cell lines. Gene expression was determined by qRT-PCR.Results
HPV-18 transfected cell lines displayed a different pattern of protein and gene expression when compared to the other cell lines examined, suggesting that these cell lines may not be the most optimal for prostate cancer biomarker discovery. There was an increased amount of prostatic acid phosphatase and kallikrein proteins in LNCaP cell extracts and culture media, but variable amounts of these proteins in other prostate cancer cell lines. There were minimal differences in the amounts of lysosomal proteins detected in prostate cancer cells and culture media, but two endosomal proteins, cathepsin B and acid ceramidase, had increased gene and protein expression, and certain molecular forms showed increased secretion from prostate cancer cells (P ≤ 0.05). LIMP-2 gene and protein expression was significantly increased in prostate cancer compared to nonmalignant cell lines (P ≤ 0.05).Conclusions
While the existing prostate cancer biomarkers and lysosomal proteins investigated here were not able to specifically differentiate between a panel of nonmalignant and prostate cancer cell lines, endosomal proteins showed some discriminatory capacity. LIMP-2 is a critical regulator of endosome biogenesis and the increased expression observed in prostate cancer cells indicated that other endosome related proteins may also be upregulated and could be investigated as novel biomarkers.References
Articles referenced by this article (99)
Title not supplied
2012
The controversial relationship between benign prostatic hyperplasia and prostate cancer: the role of inflammation.
Eur Urol, (1):106-117 2011
MED: 21497433
Effect of prostatic massage on serum complexed prostate-specific antigen levels.
Urology, (6):1234-1238 2005
MED: 16360449
Pathologic characteristics of cancers detected in The Prostate Cancer Prevention Trial: implications for prostate cancer detection and chemoprevention.
Cancer Prev Res (Phila), (3):167-173 2008
MED: 19138952
Prevalence of prostate cancer among men with a prostate-specific antigen level < or =4.0 ng per milliliter.
N Engl J Med, (22):2239-2246 2004
MED: 15163773
Prostate cancer screening in the Prostate, Lung, Colorectal and Ovarian cancer screening trial: update on findings from the initial four rounds of screening in a randomized trial.
BJU Int, (11):1524-1530 2008
MED: 19035857
Screening and prostate-cancer mortality in a randomized European study.
N Engl J Med, (13):1320-1328 2009
MED: 19297566
Overdiagnosis due to prostate-specific antigen screening: lessons from U.S. prostate cancer incidence trends.
J Natl Cancer Inst, (13):981-990 2002
MED: 12096083
Show 10 more references (10 of 99)
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