RNASEL Arg462Gln variant is implicated in up to 13% of prostate cancer cases.

RNASEL (encoding ribonuclease L) has recently been proposed as a candidate for the hereditary prostate cancer (HPC1) gene. We determined that the RNASEL variant Arg462Gln has three times less enzymatic activity than the wildtype and is significantly associated with prostate cancer risk (P = 0.007). At least one copy of the mutated allele that causes this substitution is carried by nearly 60% of the men in our study. Men that are heterozygous with respect to the mutated allele have 50% greater risk of prostate cancer than non-carriers, and homozygotes have more than double the risk.

Prostate cancer aggressiveness locus on chromosome 7q32-q33 identified by linkage and allelic imbalance studies.

The biologic aggressiveness of prostate tumors is an important indicator of prognosis. Chromosome 7q32-q33 was recently reported to show linkage to more aggressive prostate cancer, based on Gleason score, in a large sibling pair study. We report confirmation and narrowing of the linked region using finer-scale genotyping. We also report a high frequency of allelic imbalance (AI) defined within this locus in a series of 48 primary prostate tumors from men unselected for family history or disease status. The highest frequency of AI was observed with adjacent markers D7S2531 (52%) and D7S1804 (36%). These two markers delineated a common region of AI, with 24 tumors exhibiting interstitial AI involving one or both markers. The 1.1-Mb candidate region contains relatively few transcripts. Additionally, we observed positive associations between interstitial AI at D7S1804 and early age at diagnosis (P=.03) as well as a high combined Gleason score and tumor stage (P=.06). Interstitial AI at D7S2531 was associated with a positive family history of prostate cancer (P=.05). These data imply that we have localized a prostate cancer tumor aggressiveness loci to chromosome 7q32-q33 that is involved in familial and nonfamilial forms of prostate cancer.

Podocalyxin variants and risk of prostate cancer and tumor aggressiveness.

We previously reported linkage of a prostate cancer tumor aggressiveness locus to chromosome 7q32-q33, a region also associated with a high frequency of allelic imbalance in prostate tumors. The smallest region of allelic imbalance contains the podocalyxin-like (PODXL) gene, which we evaluate here as a candidate prostate cancer aggressiveness gene mapping to 7q32-q33. DNA from probands of linked families was examined for germ-line mutations in PODXL. A variable in-frame deletion, four missense variants and two nonsense variants were identified in linked men. Variants that affected amino acid sequence were further evaluated for association with risk of prostate cancer and tumor aggressiveness in a family-based case-control population (439 cases and 479 sibling controls). The presence of any single in-frame deletion was positively associated with prostate cancer [odds ratio (OR)=2.14, 95% confidence interval (95%CI)=1.09-4.20, P=0.03] and the presence of two copies of any deletion further increased risk (OR=2.58, 95%CI=1.23-5.45, P=0.01). This finding was strengthened when stratifying among men with more aggressive disease (high grade or stage): OR=3.04 for one deletion (95%CI=1.01-9.15) and OR=4.42 for two deletions (95%CI=1.32-14.85, P=0.02). A weak positive association was also observed between prostate cancer risk and PODXL variant 340A (in linkage disequilibrium with another variant, 587T) (OR=1.48, 95%CI=1.02-2.14, P=0.04). These results implicate PODXL as a candidate prostate cancer tumor aggressiveness gene mapping to chromosome 7q32-q33.

Genetic analysis of benign ovarian tumors.

Ovarian cancer represents a major cause of cancer death among women and yet remarkably little is known about its etiology. The paradigm established by the colorectal carcinogenesis model would suggest that ovarian cancers are likely to arise through malignant transformation of benign ovarian tumors. However, molecular genetic data that could answer this important question is lacking. In our study, we analyzed 80 benign ovarian tumors for TP53 and K-ras mutations and for LOH on chromosomes 6, 7, 9, 11 and 17 using 56 microsatellite markers. Twenty-five percent (5/20) of non-epithelial tumors and 73% (44/60) of epithelial tumors exhibited LOH on at least 1 chromosome arm. A particularly high frequency of LOH was detected among the epithelial tumors on chromosome arms 6q (17%), 7p (17%), 7q (27%) and 11p (18%), which are also regions of frequent LOH among ovarian carcinomas. No K-ras mutations were detected in any tumor but somatic TP53 mutations were detected in 2/34 (6%) serous and 1/26 (4%) mucinous epithelial tumors. In contrast to most previous studies our data is derived from a relatively large number of microdissected tumors and is likely to represent a more accurate picture of the frequency of alterations in these tumors. We conclude that LOH is common in benign ovarian tumors, suggesting that inactivation of tumor suppressor genes are pivotal in their development. The high frequency of alterations is consistent with their being precursors to malignant disease but does not unequivocally prove this continuum. It does however provide a framework for future analysis of the molecular genetic etiology of ovarian tumorigenesis.

Association of prostate cancer risk and aggressiveness to androgen pathway genes: SRD5A2, CYP17, and the AR.

BACKGROUND: The prostate is an androgen-regulated organ and polymorphisms in genes involved in testosterone synthesis, in particular, SRD5A2 (A49T and V89L variants), CYP17 (MspAI variant), and the AR (CAG, GGC repeats), represent candidate risk factors for prostate cancer incidence and aggressiveness. METHODS: We evaluated the relationship between these five polymorphisms and prostate cancer risk in a family-based case-control study (N = 920). Cases were diagnosed at major medical institutions in Cleveland Ohio, and Detroit Michigan, and their unaffected brothers were used as controls. Associations were investigated with regard to prostate cancer risk, and clinical characteristics at diagnosis (i.e., tumor stage/grade, age, family history). RESULTS: The SRD5A2 V89L variant was associated with an increased risk of prostate cancer (OR = 1.56, P = 0.02). This association was driven primarily by men diagnosed at an earlier age (OR = 2.35, P = 0.001), or with more aggressive disease (OR = 1.63, P = 0.06). None of the other variants exhibited noteworthy associations with disease. CONCLUSIONS: These findings suggest that the SRD5A2 V89L variant may influence risk of developing prostate cancer, especially among men with a younger age of diagnosis or more aggressive disease.

Prostate cancer aggressiveness locus on chromosome segment 19q12-q13.1 identified by linkage and allelic imbalance studies.

Whole-genome scan studies recently identified a locus on chromosome segments 19q12-q13.11 linked to prostate tumor aggressiveness by use of the Gleason score as a quantitative trait. We have now completed finer-scale linkage mapping across this region that confirmed and narrowed the candidate region to 2 cM, with a peak between markers D19S875 and D19S433. We also performed allelic imbalance (AI) studies across this region in primary prostate tumors from 52 patients unselected for family history or disease status. A high level of AI was observed, with the highest rates at markers D19S875 (56%) and D19S433 (60%). Furthermore, these two markers defined a smallest common region of AI of 0.8 Mb, with 15 (29%) prostate tumors displaying interstitial AI involving one or both markers. In addition, we noted a positive association between AI at marker D19S875 and extension of tumor beyond the margin (P = 0.02) as well as a higher Gleason score (P = 0.06). These data provide strong evidence that we have mapped a prostate tumor aggressiveness locus to chromosome segments 19q12-q13.11 that may play a role in both familial and non-familial forms of prostate cancer.