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1.  Prevalence and spectrum of microsatellite alterations in nonmuscle invasive bladder cancers 
We aimed to identify interesting deleted chromosomal regions for bladder cancer diagnosis and carcinogenesis, and to evaluate the association between loss of heterozygosity (LOH) and clinico-pathological parameters. Microsatellite analysis was performed on urine sediment and tumor tissue from 43 consecutive patients with superficial transitional cell carcinoma (TCC) and from 42 consecutive controls. Informative cases were scored as LOH or allelic loss (AL) according to the decrease of the allelic-imbalance ratio. The prevalence of LOH and AL was 39.5% and 86%, respectively. Chromosome 9 was the most frequently altered, especially at 9p (35%). The total number of microsatellite alterations per analysis was correlated with age, grade, stade and EAU classification. The locus 17p13.1 was strongly associated with high-stage (p=0.01) and high-grade tumors (p=0.02). Specificity and sensitivity of LOH was 100% and 39.3% for diagnosis of malignant urinary disease. Specificity and sensitivity of AL was 73.8% and 88%, respectively. Allelic losses are a frequent and early event in bladder cancer, especially at 9p. Thanks to its high specificity, LOH may serve as a complementary tool for non invasive diagnosis of bladder cancer. Further study is warranted to evaluate the prognostic value of LOH on recurrence, progression and muscle invasion.
PMCID: PMC3189821  PMID: 21994900
Bladder cancer; microsatellite; loss of heterozygosity; allelic loss
2.  The prognostic value of FGFR3 mutational status for disease recurrence and progression depends on allelic losses at 9p22 
Developing molecular markers that define high-risk lesions is clinically critical for improving the prognosis determination of the tumors and their treatment. We decided to focus on the two pathways involving FGFR3 and allelic losses at 9p22 to identify a potential combined role in predicting tumor recurrence, progression and/or muscle. Microsatellite and mutational FGFR3 status analyses was performed in tumor tissue of 58 patients in a prospective unicentre study. The results of microsatellite and FGFR3 analyses were dichotomized as follows: loss of heterozygos-ity (LOH) versus retention of heterozygosity (ROH) on the one hand; mutant FGFR3 (mtFGFR3) versus wild-type FGFR3 (wtFGFR3) on the other hand. The combined 9p22/FGFR3 status was strongly correlated with stage (p=0.001) and grade (p<0.001) whereas the single FGFR3 mutational status was not able to predict recurrence, progression or muscle invasion. The survival curves corresponding to each combined status (mtFGFR3/ROH, wtFGFR3/ROH, mtFGFR3/LOH, wtFGFR3/LOH) were significantly different for recurrence (p=0.008), progression (p=0.046) and progression to muscle invasive disease (p=0.004). In case of 9p22 LOH, the FGFR3 mutational status was strongly associated with different clinical outcomes. In a multivariate model, the combined wtFGFR3/9p22 LOH status remained significant in predicting oncologic outcomes. FGFR3 mutations strongly characterize tumors with low malignant potential and favourable clinical outcome in case of allelic losses at 9p22, whereas its prognostic value becomes null or slightly inverts in case of allelic stability. Thus, our findings may also lead to further experiments in order to study interactions between FGFR3 and genes located at 9p22, as CDKN2A.
PMCID: PMC3186048  PMID: 21984968
Bladder cancer; FGFR3; loss of heterozygosity; prognosis; mutations

Results 1-2 (2)