Topographical analysis of telomere length and correlation with genomic instability in whole mount prostatectomies
11107 Background: Many critical events in prostatic carcinogenesis appear to relate to the emergence of chromosomal instability and acquisition of genomic rearrangements. Characteristic abnormalities such as 8p loss, 8q gain, trisomy 7, PTEN microdeletions and TMPRSS2-ERG gene fusions appear to mediate mechanisms to increase neoplastic transformation in prostate cancer. Current evidence suggests that telomere dysfunction is a likely causative factor for some of these abnormalities on the basis of its relationship to mechanisms such as the break-fusion-bridge cycle that can lead to the onset of chromosomal instability. Methods: In this study, we correlated telomere length in various prostatic histologies by quantitative FISH with genomic markers of chromosomal instability by standard FISH and immunohistochemical measures of proliferation in 3 whole mount prostatectomies. Results: After analysing approximately 25,000 cells, we found that telomere shortening was correlated with an increase in the number of cells with abnormalities on chromosome 8, such as an increase in the average number of c-myc signals (r∼0.35, p∼0.02). However, there were no significant correlations with abnormalities such as trisomy 7 or abnormalities of the PTEN locus in any sample. Additional findings included; associations found with the probability of C-MYC aberrations in stroma with greater proximity to cancer (<1,000 um), a correlation between telomere length in a number of prostatic histologies (normal, atrophy, HPIN and cancer) with the adjacent stroma, and a lack of correlation between the Ki67 index of various histologies and their telomere length - all suggesting the importance of microenvironmental effects on telomere maintenance in the prostate. Finally, we also report significant telomere shortening in BPH in 2 cases, a phenomenon that has not been noted previously. Conclusions: This is the first study to directly link a mechanism of chromosomal instability with specific chromosomal abnormalities in prostatic carcinogenesis and also suggests that the microenvironmental milieu is of critical importance in the evolution of in vivo telomere homeostasis. No significant financial relationships to disclose.