Project description:Compared with the general population, women who have inherited a germline mutation in the BRCA1 gene have a greatly increased risk of developing breast cancer. However, there is also substantial interindividual variability in the occurrence of breast cancer among BRCA1 mutation carriers. We hypothesize that other genes, particularly those involved in endocrine signaling, may modify the BRCA1-associated age-specific breast cancer risk. We studied the effect of the CAG repeat-length polymorphism found in exon 1 of the androgen-receptor (AR) gene (AR-CAG). AR alleles containing longer CAG repeat lengths are associated with a decreased ability to activate androgen-responsive genes. Using a sample of women who inherited germline BRCA1 mutations, we compared AR-CAG repeat length in 165 women with and 139 women without breast cancer. We found that women were at significantly increased risk of breast cancer if they carried at least one AR allele with >/=28 CAG repeats. Women who carried an AR-CAG allele of >/=28, >/=29, or >/=30 repeats were given a diagnosis 0.8, 1.8, or 6.3 years earlier than women who did not carry at least one such allele. All 11 women in our sample who carried at least one AR-CAG allele with >/=29 repeats had breast cancer. Our results support the hypothesis that age at breast cancer diagnosis is earlier among BRCA1 mutation carriers who carry very long AR-CAG repeats. These results suggest that pathways involving androgen signaling may affect the risk of BRCA1-associated breast cancer.

Project description:Prenatal androgen exposure has been suggested to be one of the factors influencing handedness, making the androgen receptor gene (AR) a likely candidate gene for individual differences in handedness. Here, we examined the relationship between the length of the CAG-repeat in AR and different handedness phenotypes in a sample of healthy adults of both sexes (n = 1057). Since AR is located on the X chromosome, statistical analyses in women heterozygous for CAG-repeat lengths are complicated by X chromosome inactivation. We thus analyzed a sample of women that were homozygous for the CAG-repeat length (n = 77). Mixed-handedness in men was significantly associated with longer CAG-repeat blocks and women homozygous for longer CAG-repeats showed a tendency for stronger left-handedness. These results suggest that handedness in both sexes is associated with the AR CAG-repeat length, with longer repeats being related to a higher incidence of non-right-handedness. Since longer CAG-repeat blocks have been linked to less efficient AR function, these results implicate that differences in AR signaling in the developing brain might be one of the factors that determine individual differences in brain lateralization.

Project description:The aim of the present study was to investigate the role of CAG repeat polymorphism and X-chromosome Inactivation (XCI) pattern in Recurrent Spontaneous Abortions among Indian women which has not been hitherto explored. 117 RSA cases and 224 Controls were included in the study. Cases were recruited from two different hospitals--Lakshmi Fertility Clinic, Nellore and Fernandez Maternity Hospital, Hyderabad. Controls were roughly matched for age, ethnicity and socioeconomic status. The CAG repeats of the Androgen Receptor gene were genotyped using a PCR-based assay and were analysed using the GeneMapper software to determine the CAG repeat length. XCI analysis was also carried out to assess the inactivation percentages. RSA cases had a significantly greater frequency of allele sizes in the polymorphic range above 19 repeats (p?=?0.006), which is the median value of the controls, and in the biallelic mean range above 21 repeats (p?=?0.002). We found no evidence of abnormal incidence of skewed X-inactivation. We conclude that longer CAG repeat lengths are associated with increased odds for RSA with statistical power estimated to be ?90%.

Project description:ContextGenetically determined heightened androgen sensitivity may influence the phenotype of polycystic ovary syndrome (PCOS). To date, studies of the androgen receptor exon 1 polymorphic CAG repeat have produced conflicting results in PCOS.ObjectiveWe tested the hypothesis that a lower number of CAG repeats is associated with increased odds of PCOS. We also compared X-chromosome inactivation between cases and controls.DesignWomen with and without PCOS were genotyped for the CAG repeat and assessed for X-chromosome methylation. Association analyses were performed.SettingSubjects were recruited from the reproductive endocrinology clinic at the University of Alabama at Birmingham; controls were recruited from the surrounding community. Genotyping took place at Cedars-Sinai Medical Center in Los Angeles.ParticipantsParticipants included 330 women with PCOS and 289 controls (77% white, 23% black).Main measurementsAndrogen receptor genotype, X-chromosome methylation, and phenotyping for PCOS were measured.ResultsA smaller biallelic mean of CAG repeats was associated with increased odds of PCOS. X-chromosome inactivation was not different comparing cases with controls; however, in the subset with nonrandom inactivation, the chromosome bearing the shorter CAG allele was preferentially active in PCOS women.ConclusionsAssociation of shorter CAG repeats with PCOS is consistent with in vitro functional studies demonstrating higher activity of androgen receptors expressed from alleles with fewer CAG repeats, suggesting inherited alteration in androgen sensitivity may contribute to PCOS. In some women, such heightened sensitivity may also result from preferential expression of androgen receptors with shorter alleles. Thus, genetic and epigenetic changes may be involved in the pathogenesis of PCOS.

Project description:Biliary tract cancers, encompassing cancers of the gallbladder, extrahepatic bile ducts, and ampulla of Vater, are rare but highly fatal. Gallstones represent the major risk factor for biliary tract cancer, and share with gallbladder cancer a female predominance and an association with reproductive factors and obesity. Although estrogens have been implicated in earlier studies of gallbladder cancer, there are no data on the role of androgens. Because intracellular androgen activity is mediated through the androgen receptor (AR), we examined associations between AR CAG repeat length [(CAG)(n)] and the risk of biliary tract cancers and stones in a population-based study of 331 incident cancer cases, 837 gallstone cases, and 750 controls from Shanghai, China, where the incidence rates for biliary tract cancer are rising sharply. Men with (CAG)(n) >24 had a significant 2-fold risk of gallbladder cancer [odds ratio (OR), 2.00; 95% confidence interval (CI), 1.07-3.73], relative to those with (CAG)(n) < or = 22. In contrast, women with (CAG)(n) >24 had reduced gallbladder cancer risk (OR, 0.69; 95% CI, 0.43-1.09) relative to those with (CAG)(n) < or = 22; P interaction sex = 0.01, which was most pronounced for women ages 68 to 74 (OR, 0.48; 95% CI, 0.25-0.93; P interaction age = 0.02). No associations were found for bile duct cancer or gallstones. Reasons for the heterogeneity of genetic effects by gender and age are unclear but may reflect an interplay between AR and the levels of androgen as well as estrogen in men and older women. Further studies are needed to confirm these findings and clarify the mechanisms involved.

Project description:Androgen receptor [CAG](n) microsatellite has been linked to human diseases.Six non-human primates were genotyped for the [CAG](n) microsatellite.Marmosets and macaques are monomorphic, while mangabeys, baboons, and chimpanzees are polymorphic.Non-human primates that are polymorphic for the microsatellite are candidate animal models for CAG-related diseases.

Project description:The androgen receptor (AR) is an essential gene in prostate cancer pathogenesis and progression. Genetic variation in AR exists, including a polymorphic CAG repeat sequence that is inversely associated with transcriptional activity. Experimental data suggest that heightened AR activity facilitates formation of TMPRSS2:ERG, a gene fusion present in approximately 50% of tumors of patients with prostate cancer.We undertook a nested case-control study to investigate the hypothesis that shorter CAG repeat length would be associated with prostate cancer risk defined by TMPRSS2:ERG status. The study included 291 men with prostate cancer (147 ERG-positive) and 1,221 cancer-free controls. ORs and 95% confidence intervals (CI) were calculated using logistic regression.Median CAG repeat length (interquartile range) among controls was 22 (20-24). Men with shorter CAG repeats had an increased risk of ERG-positive (OR, 1.07 per 1 repeat decrease; 95% CI, 1.00-1.14), but not ERG-negative prostate cancer (OR, 0.99 per 1 repeat decrease; 95% CI, 0.93-1.05).These data suggest that shorter CAG repeats are specifically associated with development of TMPRSS2:ERG-positive prostate cancer.Our results provide supportive evidence that androgen signaling underlies the development of prostate tumors that harbor TMPRSS2:ERG. Moreover, these results suggest that TMPRSS2:ERG may represent a unique molecular subtype of prostate cancer with an etiology distinct from TMPRSS2:ERG-negative disease.

Project description:X inactivation silences most but not all of the genes on one of the two X chromosomes in mammalian females. The human X chromosome preserves its activation status when isolated in rodent/human somatic-cell hybrids, and hybrids retaining either the active or inactive X chromosome have been used to assess the inactivation status of many X-linked genes. Surprisingly, the X-linked gene for human tissue inhibitor of metalloproteinases (TIMP1) is expressed in some but not all inactive X-containing somatic-cell hybrids, suggesting that this gene is either prone to reactivation or variable in its inactivation. Since many genes that escape X inactivation are clustered, we examined the expression of four genes (ARAF1, ELK1, ZNF41, and ZNF157) within approximately 100 kb of TIMP1. All four genes were expressed only from the active X chromosome, demonstrating that the factors allowing TIMP1 expression from the inactive X chromosome are specific to the TIMP1 gene. To determine if this variable inactivation of TIMP1 is a function of the hybrid-cell environment or also is observed in human cells, we developed an allele-specific assay to assess TIMP1 expression in human females. Expression of two alleles was detected in some female cells with previously demonstrated extreme skewing of X inactivation, indicating TIMP1 expression from the inactive chromosome. However, in other cells, no expression of TIMP1 was observed from the inactive X chromosome, suggesting that TIMP1 inactivation is polymorphic in human females.

Project description:BACKGROUND: Stress fractures commonly affect military recruits during basic training. Several lines of evidence suggest genetic factors are involved in stress fracture predisposition. As gender steroid hormone levels and activity have been implicated in affecting bone strength, one of the candidate genes likely to be involved is the androgen receptor gene. QUESTIONS/PURPOSES: We assessed the possible involvement of the androgen receptor gene in stress fracture predisposition in Israeli soldiers. PATIENTS AND METHODS: Between January 2007 and December 2009, we collected clinical and imaging data from 454 Israeli soldiers referred for bone scans with clinical symptoms compatible with stress fractures: 171 soldiers (154 men, 17 women) (patients) with bone scan-proven stress fractures and 283 soldiers (242 men, 41 women) with normal bone scans (control subjects). All participants were genotyped for the length of the CAG (cytosine-adenine-guanine) repeat in exon 1 of the androgen receptor gene using PCR and subsequent fragment analysis on sequence analyzer. RESULTS: The androgen receptor gene CAG repeat was ranged between six and 31 (mean ± SD, 20.6 ± 4.3) among patients and between 11 and 32 (mean ± SD, 20.0 ± 3.8) among control subjects. Smaller-sized (< 16) androgen receptor CAG repeats were more prevalent among control subjects (23%) than among patients (13%); the risk for having SFs was almost halved if the size of the repeat was shorter than 16 repeats. CONCLUSIONS: The androgen receptor gene CAG repeat has a different allele distribution among Israeli soldiers with stress fractures than in control subjects. While our finding must be validated, it could be used for screening individuals at risk for stress fractures. LEVEL OF EVIDENCE: Level II, prognostic study. See the Guidelines for Authors complete description of levels of evidence.

Project description:The association between polymorphism of androgen receptor gene CAG (AR-CAG) and male infertility in several studies was controversial. Based on studies on association between AR-CAG repeat length and male infertility in recent years, an updated meta-analysis is needed. We aimed to evaluate the association between AR-CAG repeat length and male infertility in advantage of the data in all published reports.We searched for reports published before August 2015 using PubMed, CNKI, VIP, and WanFang. Data on sample size, mean, and standard deviation (SD) of AR-CAG repeat length were extracted independently by 3 investigators.Forty-four reports were selected based on criteria. The overall infertile patients and azoospermic patients were found to have longer AR-CAG repeat length (standard mean difference (SMD)?=?0.19, 95% confidence interval (CI): 0.10-0.28, P?<?0.01; SMD?=?0.36, 95% CI: 0.10-0.61, P?<?0.01). AR-CAG repeat length was longer in infertile men in Asian, Caucasian, and mixed races (SMD?=?0.25, 95% CI: 0.08-0.43, P?<0.01; SMD?=?0.13, 95% CI: 0.02-0.25, P?<0.05; SMD?=?0.39, 95% CI: 0.15-0.63, P?<0.01). The overall study shows that increased AR-CAG repeat length was associated with male infertility. The subgroup study on races shows that increased AR-CAG repeat length was associated with male infertility in Asian, Caucasian, and mixed races. Increased AR-CAG repeat length was also associated with azoospermia.This meta-analysis supports that increased androgen receptor CAG length is capable of causing male infertility susceptibility.