Allelic loss of the active X chromosome during bladder carcinogenesis.

CONTEXT: Previous studies have shown that loss of the X chromosome is involved in the carcinogenesis of certain human malignancies. OBJECTIVE: To determine whether X-linked allelic losses occur during bladder tumorigenesis and whether such losses involve the active or the inactive X chromosome. DESIGN: We analyzed the deletion status of the X-linked human androgen receptor gene locus in 6 female patients who underwent radical cystectomies for muscle-invasive urothelial carcinoma of the urinary bladder. Four patients had coexisting urothelial carcinoma in situ. Analysis for inactivation of the X chromosome was carried out in parallel. RESULTS: Three cases were informative. Invasive tumor samples showed loss of heterozygosity involving the active allele at the androgen receptor locus in all 3 positive cases, whereas carcinoma in situ showed nonrandom X chromosome inactivation but not allelic deletion. CONCLUSIONS: Our data suggest that allelic loss of the activated X chromosome is involved in bladder carcinogenesis and cancer progression.

Molecular genetic alterations in the laser-capture-microdissected stroma adjacent to bladder carcinoma.

BACKGROUND: Urothelial carcinoma commonly manifested loss of heterozygosity (LOH) at different regions of chromosomes 17p, 3p, and 9q. Recent studies suggested that bladder stromal cells may be implicated in the growth and progression of urothelial carcinoma. To better understand the genetic alterations in the stromal cells in patients with bladder carcinoma, the authors evaluated the prevalence of allelic loss at three microsatellite polymorphic markers on chromosomes 17p13 (TP53), 3p25-26 (D3S3050), and 9q32-33 (D9S177). In addition, the pattern of X-chromosome inactivation of the stromal cells was evaluated by analyzing the DNA methylation pattern at a polymorphic site on the androgen receptor gene. METHODS: The authors studied 18 female patients who underwent either transurethral resection (n = 2) or radical cystectomy (n = 16) for high-grade muscle-invasive urothelial carcinoma of the urinary bladder. Genomic DNA samples from the stromal cells immediately adjacent to the tumor and the tumor itself were prepared from formalin-fixed, paraffin-processed tissues using laser-assisted microdissection and LOH was determined. RESULTS: The stromal cells showed a high frequency of LOH on chromosomes 17p13 (29%), 3p25-26 (61%), and 9q32-33 (47%) with no clear concordance with the adjacent tumor cells. Fourteen specimens (78%) showed LOH in the stroma in at least 1 of 3 markers examined. Nonrandom X-chromosome inactivation was frequent in the stromal cells (50% of informative specimens). CONCLUSIONS: The current study revealed that some of the genetic changes that commonly occur with invasive urothelial carcinoma were frequently found in the adjacent stroma and suggested that the stroma of urothelial carcinoma may play an important role in bladder carcinogenesis.