Androgen Receptor Gene Polymorphism,Aggression, and Reproduction in Tanzanian Foragers and Pastoralists

The androgen receptor (AR) gene polymorphism in humans is linked to aggression and may also be linked to reproduction. Here we report associations between AR gene polymorphism and aggression and reproduction in two small-scale societies in northern Tanzania (Africa)—the Hadza (monogamous foragers) and the Datoga (polygynous pastoralists). We secured self-reports of aggression and assessed genetic polymorphism of the number of CAG repeats for the AR gene for 210 Hadza men and 229 Datoga men (aged 17–70 years). We conducted structural equation modeling to identify links between AR gene polymorphism, aggression, and number of children born, and included age and ethnicity as covariates. Fewer AR CAG repeats predicted greater aggression, and Datoga men reported more aggression than did Hadza men. In addition, aggression mediated the identified negative relationship between CAG repeats and number of children born.     

Genetic Variations in the Androgen Receptor Are Associated with Steroid Concentrations and Anthropometrics but Not with Muscle Mass in Healthy Young Men

Objective

The relationship between serum testosterone (T) levels, muscle mass and muscle force in eugonadal men is incompletely understood. As polymorphisms in the androgen receptor (AR) gene cause differences in androgen sensitivity, no straightforward correlation can be observed between the interindividual variation in T levels and different phenotypes. Therefore, we aim to investigate the relationship between genetic variations in the AR, circulating androgens and muscle mass and function in young healthy male siblings.

Design

677 men (25–45 years) were recruited in a cross-sectional, population-based sibling pair study.

Methods

Relations between genetic variation in the AR gene (CAGn, GGNn, SNPs), sex steroid levels (by LC-MS/MS), body composition (by DXA), muscle cross-sectional area (CSA) (by pQCT), muscle force (isokinetic peak torque, grip strength) and anthropometrics were studied using linear mixed-effect modelling.

Results

Muscle mass and force were highly heritable and related to age, physical activity, body composition and anthropometrics. Total T (TT) and free T (FT) levels were positively related to muscle CSA, whereas estradiol (E₂) and free E₂ (FE₂) concentrations were negatively associated with muscle force. Subjects with longer CAG repeat length had higher circulating TT, FT, and higher E₂ and FE₂ concentrations. Weak associations with TT and FT were found for the rs5965433 and rs5919392 SNP in the AR, whereas no association between GGN repeat polymorphism and T concentrations were found. Arm span and 2D:4D finger length ratio were inversely associated, whereas muscle mass and force were not associated with the number of CAG repeats.

Conclusions

Age, physical activity, body composition, sex steroid levels and anthropometrics are determinants of muscle mass and function in young men. Although the number of CAG repeats of the AR are related to sex steroid levels and anthropometrics, we have no evidence that these variations in the AR gene also affect muscle mass or function.     

Androgen receptor gene polymorphism may affect the risk of urothelial carcinoma

The study sought to explore if androgen receptor gene (AR) polymorphisms are associated with the risk of urothelial carcinoma (UC) which is male-predominant. AR CAG and GGN repeat lengths were analyzed in 277 UC cases and 280 age and sex-matched controls by direct sequencing of leukocyte DNA. Smoking habits were obtained using a structured questionnaire interview. Relative risks were compared between groups categorized by all possible cutoffs of AR CAG and GGN repeat lengths. Men and women who had 23 and 44 (cumulative) CAG repeats had a significantly greater risk of UC, respectively (OR 2.09, 95% CI: 1.05–4.17, p = 0.036 and OR 4.95, 95% CI: 1.56–15.73, p = 0.007). Amongst males who were medium-dose cigarette smokers, those who had 23 CAG and shorter GGN (<22) repeats, had an elevated risk than those with longer CAG and GGN (OR 4.32 and 4.57, p = 0.034 and 0.042, respectively). However, neither CAG nor GGN affected the UC risk in non-smokers or heavy smokers (≥25 packs per day-years). AR CAG polymorphism may affect the risk of UC in both genders. In addition, AR polymorphisms may influence carcinogenic effect of medium-dose of cigarette smoking in men.     

The CAG repeat polymorphism of the androgen receptor gene and breast cancer

Background

Genetic variants in hormone receptor genes may be crucial predisposing factors for breast cancer, and microsatellites in the androgen receptor gene (AR) have been suggested to play a role. The aim of the study was to determine the association between the length of the CAG repeats in the AR gene and the development of breast cancer. Methodology: In total, 75 breast cancer cases and 50 healthy controls were analyzed for CAG repeats in the AR gene by polymerase chain reaction and the GeneScan/Genotyping technique.

Results

CAG repeat genotypes and alleles distribution were found to be significantly different between breast cancer patients and controls (P < 0.05). While the presence of CAG repeats shorter than 22 (classified as short, S) increases the risk of breast cancer, the risk is reduced by the presence of CAG repeats longer than 22. In the group of patients with breast cancer, a high tumor stage was found to have a significant association with genotype S/S of CAG repeats in the AR gene.

Conclusion

Our results suggest that the length of CAG repeats in the androgen receptor gene is associated with the risk of developing breast cancer.     

Variability of CAG tandem repeats in exon 1 of the androgen receptor gene is not related with dog intersexuality

Numerous mutations of the human androgen receptor (AR) gene cause an intersexual phenotype, called the androgen insensitivity syndrome. The intersexual phenotype is also quite often diagnosed in dogs. The aim of this study was to conduct a comparative analysis of the entire coding sequence (eight exons) of the AR gene in healthy and four intersex dogs, as well as in three other canids (the red fox, arctic fox and Chinese raccoon dog). The coding sequence of the studied species appeared to be conserved (similarity above 97%) and polymorphism was found in exon 1 only. Altogether, 2 SNPs were identified in healthy dogs, 14 in red foxes, 16 in arctic foxes and 6 were found in Chinese raccoon dogs, respectively. Moreover, a variable number of tandem repeats (CAG and CAA), encoding an array of glutamines, was also observed in this exon. The CAA codon numbers were invariable within species, but the CAG repeats were polymorphic. The highest number of the CAG and CAA repeats was found in dogs (from 40 to 42) and the observed variability was similar in intersex and healthy dogs. In the other canids the variability fell within the following ranges: 29–37 (red fox), 37–39 (arctic fox) and 29–32 (Chinese raccoon dog). In addition, a polymorphic microsatellite marker in intron 2 was found in the dog, red fox and Chinese raccoon dog. It was concluded that the polymorphism level of the AR gene in the dog was lower than in the other canids and none of the detected polymorphisms, including variability of the CAG tandem repeats, could be related with the intersexual phenotype of the studied dogs.     

Molecular genetic polymorphism of androgen receptor gene (AR) in African populations of Hadza and Datoga

The molecular genetic analysis of the polymorphic variants of the CAG repeat-containing locus of the androgen receptor (AR) gene was performed in the populations of Hadza and Datoga. Allele frequency distribution patterns were established. Alleles containing 20–25 repeats were the most abundant in both populations. The populations studied were compared with Asians (Han), white Americans, and Africans (Ariaal). Statistically significant difference between populations of Hadza and Datoga in the distribution of the AR allelic variants was demonstrated.     

Three Huntington’s Disease Specific Mutation-Carrying Human Embryonic Stem Cell Lines Have Stable Number of CAG Repeats upon In Vitro Differentiation into Cardiomyocytes

Huntington disease (HD; OMIM 143100), a progressive neurodegenerative disorder, is caused by an expanded trinucleotide CAG (polyQ) motif in the HTT gene. Cardiovascular symptoms, often present in early stage HD patients, are, in general, ascribed to dysautonomia. However, cardio-specific expression of polyQ peptides caused pathological response in murine models, suggesting the presence of a nervous system-independent heart phenotype in HD patients. A positive correlation between the CAG repeat size and severity of symptoms observed in HD patients has also been observed in in vitro HD cellular models. Here, we test the suitability of human embryonic stem cell (hESC) lines carrying HD-specific mutation as in vitro models for understanding molecular mechanisms of cardiac pathology seen in HD patients. We have differentiated three HD-hESC lines into cardiomyocytes and investigated CAG stability up to 60 days after starting differentiation. To assess CAG stability in other tissues, the lines were also subjected to in vivo differentiation into teratomas for 10 weeks. Neither directed differentiation into cardiomyocytes in vitro nor in vivo differentiation into teratomas, rich in immature neuronal tissue, led to an increase in the number of CAG repeats. Although the CAG stability might be cell line-dependent, induced pluripotent stem cells generated from patients with larger numbers of CAG repeats could have an advantage as a research tool for understanding cardiac symptoms of HD patients.     

Mutations du gène de la polymérase gamma de l’ADN mitochondrial (POLG) associées à l’infertilité masculine?

The single DNA polymerase gene of mitochondrial DNA (POLG) contains a polymorphic CAG repeat in the first coding exon. The promising results of a first study by Rovio et al. showing that several cases of male infertility were related to a “homozygous mutant” genotype with a number of CAG repeats differing from 10, prompted us to conduct a large study on 503 infertile and 90 fertile men. Our results do not confirm any significant relationship between the polymorphic CAG repeat in thePOLG gene and male infertility.     

Number of CAG repeats in POLG1 and its association with Parkinson disease in the Norwegian population

The number of CAG repeats in the mitochondrial DNA-polymerase gamma (POLG1) gene has been associated with Parkinson disease (PD) in some populations. We sequenced the CAG tract of POLG1 in 191 Norwegian patients with PD and an equal number of controls and found an association between non-10 or 11 CAG repeats and PD in our population. While our results were significant, this trend was not maintained following correction for multiple testing. We also performed a meta-analysis of all published studies including our own that shows PD is associated with the number of CAG repeats in POLG1. The meta-analysis reveals that the rare allelic variation encompassed by non-10 CAG repeats associates significantly with PD (p = 0.0017). Whether this reflects a direct influence of POLG on the pathogenesis of PD or linkage disequilibrium between POLG1 alleles and nearby, disease-influencing genetic variants remains unknown.     

The CAG repeat polymorphism of androgen receptor gene and prostate cancer: a meta-analysis

The association between the polymorphic CAG repeat in androgen receptor gene (AR) and prostate cancer susceptibility has been studied extensively. However, the results are contradictory. The purpose of our meta-analysis was to investigate whether CAG repeat related to prostate cancer risk and had genetic heterogeneity across different geographic regions and study designs. Random-effects model was performed irrespective of between-study heterogeneity. Data and study quality were assessed in duplicate. Publication bias was assessed by the fail-safe number and Egger’s test. There were 16 (patients/controls: 2972/3792), 19 (3835/4908) and 12 (3372/2631) study groups for comparisons of ≥20, 22 and 23 repeats of CAG sequence, respectively. Compared with CAG repeat <20, 22 or 23, carriers of ≥20, 22 or 23 repeats had 21% (95% CI: 0.61–1.02; P = 0.076), 5% (95% CI: 0.81–1.11; P = 0.508) and 5% (95% CI: 0.76–1.20; P = 0.681) decreased risk of prostate cancer. After classifying studies by geographic areas, carriers of ≥20 repeats had 11% decreased risk in populations from USA, 53% from Europe, and 20% from Asia (P > 0.05), whereas comparison of ≥23 repeats with others generated a significant prediction in European populations (OR = 1.17; P = 0.039). Stratification by study designs revealed no material changes in risk estimation. Meta-regression analysis found no significant sources of between-study heterogeneity for age, study design and geographic region for all comparisons. There was no identified publication bias. Taken together, our results demonstrated that AR CAG repeat polymorphism with ≥20 repeats might confer a protective effect among the prostate cancer patients with 45 years older but not all the prostate cancer patients.     

A Potential Novel Spontaneous Preterm Birth Gene,AR, Identified by Linkage and Association Analysis of X Chromosomal Markers

Preterm birth is the major cause of neonatal mortality and morbidity. In many cases, it has severe life-long consequences for the health and neurological development of the newborn child. More than 50% of all preterm births are spontaneous, and currently there is no effective prevention. Several studies suggest that genetic factors play a role in spontaneous preterm birth (SPTB). However, its genetic background is insufficiently characterized. The aim of the present study was to perform a linkage analysis of X chromosomal markers in SPTB in large northern Finnish families with recurrent SPTBs. We found a significant linkage signal (HLOD  = 3.72) on chromosome locus Xq13.1 when the studied phenotype was being born preterm. There were no significant linkage signals when the studied phenotype was giving preterm deliveries. Two functional candidate genes, those encoding the androgen receptor (AR) and the interleukin-2 receptor gamma subunit (IL2RG), located near this locus were analyzed as candidates for SPTB in subsequent case-control association analyses. Nine single-nucleotide polymorphisms (SNPs) within these genes and an AR exon-1 CAG repeat, which was previously demonstrated to be functionally significant, were analyzed in mothers with preterm delivery (n = 272) and their offspring (n = 269), and in mothers with exclusively term deliveries (n = 201) and their offspring (n = 199), all originating from northern Finland. A replication study population consisting of individuals born preterm (n = 111) and term (n = 197) from southern Finland was also analyzed. Long AR CAG repeats (≥26) were overrepresented and short repeats (≤19) underrepresented in individuals born preterm compared to those born at term. Thus, our linkage and association results emphasize the role of the fetal genome in genetic predisposition to SPTB and implicate AR as a potential novel fetal susceptibility gene for SPTB.     

Population Genetics and New Insight into Range of CAG Repeats of Spinocerebellar Ataxia Type 3 in the Han Chinese Population

Spinocerebellar ataxia type 3 (SCA3), also called Machado-Joseph disease (MJD), is one of the most common SCAs worldwide and caused by a CAG repeat expansion located in ATXN3 gene. Based on the CAG repeat numbers, alleles of ATXN3 can be divided into normal alleles (ANs), intermediate alleles (AIs) and expanded alleles (AEs). It was controversial whether the frequency of large normal alleles (large ANs) is related to the prevalence of SCA3 or not. And there were huge chaos in the comprehension of the specific numbers of the range of CAG repeats which is fundamental for genetic analysis of SCA3. To illustrate these issues, we made a novel CAG repeat ladder to detect CAG repeats of ATXN3 in 1003 unrelated Chinese normal individuals and studied haplotypes defined by three single nucleotide polymorphisms (SNPs) closed to ATXN3. We found that the number of CAG repeats ranged from 13 to 49, among them, 14 was the most common number. Positive skew, the highest frequency of large ANs and 4 AIs which had never been reported before were found. Also, AEs and large ANs shared the same haplotypes defined by the SNPs. Based on these data and other related studies, we presumed that de novo mutations of ATXN3 emerging from large ANs are at least one survival mechanisms of mutational ATXN3 and we can redefine the range of CAG repeats as: ANs≤44, 45 ≤AIs ≤49 and AEs≥50.     

Counting CAG repeats in the Huntington’s disease gene by restriction endonuclease EcoP15I cleavage

Huntington’s disease (HD) is a progressive neurodegenerative disorder with autosomal-dominant inheritance. The disease is caused by a CAG trinucleotide repeat expansion located in the first exon of the HD gene. The CAG repeat is highly polymorphic and varies from 6 to 37 repeats on chromosomes of unaffected individuals and from more than 30 to 180 repeats on chromosomes of HD patients. In this study, we show that the number of CAG repeats in the HD gene can be determined by restriction of the DNA with the endonuclease EcoP15I and subsequent analysis of the restriction fragment pattern by electrophoresis through non-denaturing polyacrylamide gels using the ALFexpress DNA Analysis System. CAG repeat numbers in the normal (30 and 35 repeats) as well as in the pathological range (81 repeats) could be accurately counted using this assay. Our results suggest that this high-resolution method can be used for the exact length determination of CAG repeats in HD genes as well as in genes affected in related CAG repeat disorders.     

Quantification of age-dependent somatic CAG repeat instability in Hdh CAG knock-in mice reveals different expansion dynamics in striatum and liver

Background

Age at onset of Huntington''s disease (HD) is largely determined by the CAG trinucleotide repeat length in the HTT gene. Importantly, the CAG repeat undergoes tissue-specific somatic instability, prevalent in brain regions that are disease targets, suggesting a potential role for somatic CAG repeat instability in modifying HD pathogenesis. Thus, understanding underlying mechanisms of somatic CAG repeat instability may lead to discoveries of novel therapeutics for HD. Investigation of the dynamics of the CAG repeat size changes over time may provide insights into the mechanisms underlying CAG repeat instability.

Methodology/Principal Findings

To understand how the HTT CAG repeat length changes over time, we quantified somatic instability of the CAG repeat in Huntington''s disease CAG knock-in mice from 2–16 months of age in liver, striatum, spleen and tail. The HTT CAG repeat in spleen and tail was very stable, but that in liver and striatum expanded over time at an average rate of one CAG per month. Interestingly, the patterns of repeat instability were different between liver and striatum. Unstable CAG repeats in liver repeatedly gained similar sizes of additional CAG repeats (approximately two CAGs per month), maintaining a distinct population of unstable repeats. In contrast, unstable CAG repeats in striatum gained additional repeats with different sizes resulting in broadly distributed unstable CAG repeats. Expanded CAG repeats in the liver were highly enriched in polyploid hepatocytes, suggesting that the pattern of liver instability may reflect the restriction of the unstable repeats to a unique cell type.

Conclusions/Significance

Our results are consistent with repeat expansion occurring as a consequence of recurrent small repeat insertions that differ in different tissues. Investigation of the specific mechanisms that underlie liver and striatal instability will contribute to our understanding of the relationship between instability and disease and the means to intervene in this process.     

<Emphasis Type="Italic">HTT</Emphasis> Gene Premutation Allele Frequencies in the Russian Federation

Huntington disease (Huntington chorea, HD) is a severe neurodegenerative disease determined by polyglutamine. Polyglutamine expansion in exon 1 of the HTT gene causes Huntington disease. To date, less than 35 CAG triplets are suggested to be present in normal alleles. Alleles bearing from 27 to 35 CAG repeats are generally considered as intermediate or premutation. Alleles with the number of CAG repeats varying from 36 to 39 demonstrate reduced penetrance and result in late manifestation of the disease. To date, no studies based on representative samples of Russian residents estimating the frequencies of premutation and alleles with reduced penetrance have been published. Meanwhile, this is extremely important for genetic counseling of patients bearing such alleles and for the calculation of risks for their offspring. In the present study, the analysis of samples of Russian patients with incoming diagnoses of Huntington chorea (N = 1092), Wilson–Konovalov disease (N = 333), Hallervorden–Spatz disease (N = 33) and a control group consisting of 230 unexamined individuals from the Russian Federation under 45 years of age was carried out. A spectrum of CAG repeat length in the HTT gene in patients with HD was obtained. Patients with HD were detected in the samples of patients with incoming diagnoses of Wilson–Konovalov disease and Hallervorden–Spatz disease. This observation indicates the complexity of differential diagnosis of these diseases. An assumption was made that an allele with 36 CAG repeats should be classified as premutation. We confirmed the previously observed trend for the increased number of CAG repeats in the case of paternal transmission of the mutant allele. The frequency of premutation allele of 2.6% in Russian residents was established.