Proteoglycan Expression in Normal Human Prostate Tissue and Prostate Cancer

Proteoglycans (PGs) are expressed on the cell surface and extracellular matrix of all mammalian cells and tissues, playing an important role in cell-cell and cell-matrix interactions and signaling. Changes in the expression and functional properties of individual PGs in prostate cancer are shown, although common patterns of PGs expression in normal and tumour prostate tissues remain unknown. In this study, expression of cell surface and stromal proteoglycans (glypican-1, perlecan, syndecan-1, aggrecan, versican, NG2, brevican, decorin, and lumican) in normal tissue and prostate tumours was determined by RT-PCR analysis and immunostaining with core protein- and GAG-specific antibodies. In normal human prostate tissue, versican, decorin, and biglycan were predominant proteoglycans localised in tissue stroma, and syndecan-1 and glypican-1 were expressed mainly by epithelial cells. In prostate tumours, complex changes in proteoglycans occur, with a common trend towards decrease of decorin and lumican expression, overall increase of syndecan-1 and glypican-1 expression in tumour stroma along with its disappearance in tumour epithelial cells, and aggrecan and NG2 expressions in some prostate tumours. All the changes result in the highly individual proteoglycan expression patterns in different prostate tumours, which may be potentially useful as molecular markers for prostate cancer personalised diagnosis and treatment.

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Exploiting altered patterns of choline kinase-alpha expression on human prostate tissue to prognosticate prostate cancer

Journal of Clinical Pathology ◽

10.1136/jclinpath-2015-202859 ◽

2015 ◽

Vol 68 (9) ◽

pp. 703-709 ◽

Cited By ~ 5

Author(s):

Amarnath Challapalli ◽

Sebastian Trousil ◽

Steve Hazell ◽

Kasia Kozlowski ◽

Mihir Gudi ◽

...

Keyword(s):

Prostate Cancer ◽

Expression Patterns ◽

Prostate Tissue ◽

Human Prostate ◽

Choline Kinase ◽

Good Resolution ◽

Normal Prostate ◽

Qrt Pcr ◽

Human Prostate Tissue ◽

Malignant Prostate

AimsMalignant transformation results in overexpression of choline-kinase (CHK) and altered choline metabolism, which is potentially detectable by immunohistochemistry (IHC). We investigated the utility of CHK-alpha (CHKA) IHC as a complement to current diagnostic investigation of prostate cancer by analysing expression patterns in normal (no evidence of malignancy) and malignant human prostate tissue samples.MethodsAs an initial validation, paraffin-embedded prostatectomy specimen blocks with both normal and malignant prostate tissue were analysed for CHKA protein and mRNA expression by western blot and quantitative reverse transcriptase PCR (qRT-PCR), respectively. Subsequently, 100 paraffin-embedded malignant prostate tumour and 25 normal prostate cores were stained for both Ki67 (labelling-index: LI) and CHKA expression.ResultsThe validity of CHKA-antibody was verified using CHKA-transfected cells and siRNA knockdown. Immunoblotting of tissues showed good resolution of CHKA protein in malignant prostate, verifying use of the antibody for IHC. There was minimal qRT-PCR detectable CHKA mRNA in normal tissue, and conversely high expression in malignant prostate tissues. IHC of normal prostate cores showed mild (intensity) CHKA expression in only 28% (7/25) of samples with no Ki67 expression. In contrast, CHKA was expressed in all malignant prostate cores along with characteristically low proliferation (median 2% Ki67-LI; range 1–17%). Stratification of survival according to CHK intensity showed a trend towards lower progression-free survival with CHK score of 3.ConclusionsIncreased expression of CHKA, detectable by IHC, is seen in malignant lesions. This relatively simple cost-effective technique (IHC) could complement current diagnostic procedures for prostate cancer and, therefore, warrants further investigation.

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Identifying prostate cancer biomarkers by profiling glycoproteins in human prostate tissue (591.6)

The FASEB Journal ◽

10.1096/fasebj.28.1_supplement.591.6 ◽

2014 ◽

Vol 28 (S1) ◽

Author(s):

David Spiciarich ◽

Sophia Maund ◽

Donna Peehl ◽

Carolyn Bertozzi

Keyword(s):

Prostate Cancer ◽

Cancer Biomarkers ◽

Prostate Tissue ◽

Human Prostate ◽

Human Prostate Tissue

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Instrument towards Faster Diagnosis and Treatment of Prostate Cancer – Resonance Sensor Stiffness Measurements on Human Prostate Tissue in vitro

IFMBE Proceedings - World Congress on Medical Physics and Biomedical Engineering, September 7 - 12, 2009, Munich, Germany ◽

10.1007/978-3-642-03885-3_41 ◽

2009 ◽

pp. 145-148

Author(s):

V. Jalkanen ◽

B. M. Andersson ◽

O. A. Lindahl

Keyword(s):

Prostate Cancer ◽

Diagnosis And Treatment ◽

Prostate Tissue ◽

Human Prostate ◽

Resonance Sensor ◽

Human Prostate Tissue

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Numerical simulation modeling of the irreversible electroporation treatment zone for focal therapy of prostate cancer, correlation with whole-mount pathology and T2-weighted MRI sequences

Therapeutic Advances in Urology ◽

10.1177/1756287219852305 ◽

2019 ◽

Vol 11 ◽

pp. 175628721985230 ◽

Cited By ~ 2

Author(s):

Matthijs J. Scheltema ◽

Tim J. O’Brien ◽

Willemien van den Bos ◽

Daniel M. de Bruin ◽

Rafael V. Davalos ◽

...

Keyword(s):

Prostate Cancer ◽

Irreversible Electroporation ◽

Prostate Tissue ◽

Human Prostate ◽

Ablation Zone ◽

Electrical Field ◽

Whole Mount ◽

Human Prostate Tissue ◽

Mri Sequences

Background: At present, it is not possible to predict the ablation zone volume following irreversible electroporation (IRE) for prostate cancer (PCa). This study aimed to determine the necessary electrical field threshold to ablate human prostate tissue in vivo with IRE. Methods: In this prospective multicenter trial, patients with localized PCa were treated with IRE 4 weeks before their scheduled radical prostatectomy. In 13 patients, numerical models of the electrical field were generated and compared with the ablation zone volume on whole-mount pathology and T2-weighted magnetic resonance imaging (MRI) sequences. Volume-generating software was used to calculate the ablation zone volumes on histology and MRI. The electric field threshold to ablate prostate tissue was determined for each patient. Results: A total of 13 patients were included for histological and simulation analysis. The median electrical field threshold was 550 V/cm (interquartile range 383–750 V/cm) for the software-generated histology volumes. The median electrical field threshold was 500 V/cm (interquartile range 386–580 V/cm) when the ablation zone volumes were used from the follow-up MRI. Conclusions: The electrical field threshold to ablate human prostate tissue in vivo was determined using whole-mount pathology and MRI. These thresholds may be used to develop treatment planning or monitoring software for IRE prostate ablation; however, further optimization of simulation methods are required to decrease the variance that was observed between patients.

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