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Postgraduate Medical Journal 2006;82:40-45; doi:10.1136/pgmj.2005.038042
Copyright © 2006 The Fellowship of Postgraduate Medicine.

ORIGINAL ARTICLE

Application of Gleason analogous grading system and flow cytometry DNA analysis in a novel knock-in mouse prostate cancer model

G Wu1,2, Lei Yu1, L Wang1, H Wang1 and J W Xuan2

1 Department of Urology, Xijing Hospital, the Fourth Military Medical University, Xi’an, China
2 Department of Surgery, University of Western Ontario, London, Ontario, Canada

Correspondence to:
Correspondence to:
Dr G Wu and Dr H Wang
Department of Urology, Xijing Hospital, the Fourth Military Medical University, Xi’an, China, 710032; wuguojun{at}fmmu.edu.cn; dusxjhw{at}fmmu.edu.cn

Objective: A new knock-in mouse adenocarcinoma prostate model (KIMAP) was established, which showed a close to human kinetics of tumour development. This study used a new mouse histological grading system similar to the human Gleason grading system and flow cytometry DNA analysis to measure and compare the new KIMAP model with human CaP and transgenic mouse adenocarcinoma prostate (TGMAP) model.

Methods: According to heterogeneity of the clinical standard for prostate cancer diagnosis, a close to human mouse standard for histological grading and scoring system, Gleason analogous grading system, was established in this study. Sixty KIMAP and 48 TGMAP prostate cancer samples were measured and compared with human CaP. Flow cytometry DNA analysis was performed on malignant prostate tissues obtained from both TGMAP and KIMAP models.

Results: Mice with CaP from KIMAP (n = 60) and TGMAP (n = 48) models showed a different distribution of histological scores (p = 0.000). KIMAP mice showed higher percentage (53.3%) of compound histological score rate than TGMAP (25%), but closer to the human clinical average (50%), which showed significant correlation with age (p = 0.001), while TGMAP mice showed unbalanced and random score distribution in all age groups. Flow cytometry analyses showed that most tumour tissues in KIMAP were diploid, analogous to the human condition, while all the TGMAP mice showed aneuploid tumours.

Conclusions: Results of this study further show that KIMAP, a new generation of murine prostate cancer model, could be used as a supplementary model in addition to the currently widely used transgenic models.

Abbreviations: KIMAP, knock-in mouse adenocarcinoma prostate; TGMAP, transgenic mouse adenocarcinoma prostate; PSA, prostrate specific antigen

Keywords: prostate neoplasms; knock-in mouse model


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