Risk assessment for developing gliomas: A comparison of two cytogenetic approaches

Abstract Chromosome instability (CIN) measured as chromosome aberrations has long been suggested as a cancer susceptibility biomarker. Conventional cytogenetic end-points are now being improved by combining molecular methods, which increases the sensitivity, specificity, and precision of the assay. In this study we examined both spontaneous and γ-ray induced CIN in lymphocyte cultures from 51 previously untreated glioma patients and 51 age-, sex- and ethnicity-matched controls. CIN was assessed using two parallel methods: (1) the mutagen sensitivity (MS) assay and (2) the multicolor fluorescence in situ hybridization (FISH) assay. The frequency of spontaneous breaks was significantly higher in glioma patients (mean±S.D., 2.12±1.07) than in controls (1.24±0.86, P P =0.915). Similarly, the frequency of induced chromatid breaks was significantly higher using the FISH assay (3.39±1.72) but not the MS assay (0.42±0.16) in the patients versus controls (2.08±1.18 and 0.37±0.15, respectively; P P =0.10, respectively). By using the median number of breaks in the controls as the cutoff value, we observed an odds ratio (ORs) of 5.13 (95% CI=2.23–12.1) for spontaneous and 4.86 (95% CI=2.08–11.4) for induced CIN using the FISH assay, whereas the ORs were 1.32 (95% CI=0.49–3.58) and 1.28 (95% CI=0.59–2.80) for spontaneous and induced CIN using the MS assay. There was also a significant increase in the frequency of hyperdiploid cells in the glioma cases which could only be detected using the FISH assay (OR=4.0, 95% CL=0.9–17.0). By combining both methods an estimated risk of 7.0 (95% CI=1.7–25.6) was observed. There was no correlation between the breaks detected by the two methods suggesting that each method is a measure of a different event. The results indicate that using the multicolor FISH assay for detection of CIN in peripheral blood lymphocytes in glioma patients is a more useful marker for risk assessment.