Effect of GGC (glycine) repeat length polymorphism in the human androgen receptor on androgen action

BACKGROUND: The human androgen receptor (AR) contains glutamine (CAG) and glycine (GGC) repeat length polymorphisms. Normal glutamine repeat length affects androgen action, but an effect of normal glycine repeat length has not been studied. METHODS: To determine whether glycine/GGC repeat length affects AR function, we constructed AR cDNA expression vectors with different GGC repeat lengths in the physiological range (13-17 GGCs). AR constructs were transfected into AR-negative DU145 human prostate cancer cells along with an androgen-responsive reporter plasmid (PSA-firefly luciferase) and a transfection efficiency control plasmid (Renilla luciferase). RESULTS: Glycine repeat length had no significant effect on androgen-dependent AR transactivation activity expressed as firefly luciferase per unit amount of AR protein. However, AR protein levels (normalized for transfection efficiency) were inversely affected by glycine repeat length (P < 0.001; r = -0.9; e.g., GGC13 yielded 2.7 times more AR protein than did GGC17). Therefore, the net amount of AR activity per cell would be higher in cells expressing AR with a short glycine repeat. Based on programs that predict structure from RNA sequence, the GGC repeat can form a hairpin structure, the free energy of which decreases (i.e., hairpin stability increases) as a function of increasing repeat length. This suggests that hairpin stability may interfere with translation, accounting for the inverse effect of GGC repeat length on AR protein yields. CONCLUSIONS: The ability of a short GGC repeat to enhance androgen action provides a biologically plausible mechanism to account for reports that a short GGC repeat in the AR gene is a risk factor for prostate cancer.     

Germline CAG repeat length of the androgen receptor and time to progression in patients with prostate cancer treated with androgen deprivation therapy

Study Type – Prognosis (retrospective cohort) Level of Evidence 2b What’s known on the subject? and What does the study add? Germline CAG repeat polymorphisms in the androgen receptor (AR‐CAG) have been shown to influence the activity of the androgen receptor, but there has been conflicting data from small retrospective studies evaluating the effect of CAG repeat polymorphisms on response to ADT. This is the largest published study to date investigating the association of germline AR‐CAG repeat lengths and efficacy of ADT in prostate cancer. Germline AR‐CAG repeat lengths do not predict response to ADT.

OBJECTIVES

? Germline CAG repeat polymorphisms in the androgen receptor (AR‐CAG) have been shown to influence the activity of the AR. ? The purpose of the present study was to determine if AR‐CAG repeat length correlates with time to progression on androgen deprivation therapy (ADT).

PATIENTS AND METHODS

? Germline AR‐CAG repeat lengths were determined in a cohort of 480 patients with recurrent or metastatic prostate cancer treated at a single tertiary care institution and correlated to time to progression (TTP) and overall survival.

RESULTS

? There was no significant correlation between differences in the AR‐CAG repeat lengths and TTP or overall survival in patients with prostate cancer receiving ADT. ? AR‐CAG repeat lengths did not significantly correlate with age, prostate‐specific antigen (PSA), Gleason score or clinical stage at diagnosis. ? In patients with metastatic disease, longer AR‐CAG repeat lengths (>23 vs ≤23) were associated with a longer TTP on ADT, but this finding was of borderline significance (median TTP 18.3 vs 15.5 months, P= 0.09; adjusted HR = 0.76, 95% confidence interval = 0.54–1.09).

CONCLUSIONS

? This is the largest published study to date investigating the association of germline AR‐CAG repeat lengths and efficacy of ADT in prostate cancer. ? Germline AR‐CAG repeat lengths do not predict response to ADT.     

Androgen receptor CAG repeat length contraction in diseased and non-diseased prostatic tissues

To investigate contraction of CAG repeats within the androgen receptor gene (AR) as shorter CAG repeats have been implicated as a possible risk factor in prostate cancer (PCa). AR CAG repeat lengths were analyzed in DNA from microdissected diseased prostates, leukocytes from matched peripheral blood, and control non-diseased prostates. Consistently, all prostatic tissues, whether from benign or cancerous areas of diseased prostates, or from control prostates, showed multiple AR CAG repeat contractions. Germline DNA from blood leukocytes had single CAG repeat lengths in the normal range. AR CAG repeat length contraction may be involved in prostate carcinogenesis and may precede the pathological process.     

Androgen receptor CAG repeat lengths in ductal carcinoma in situ of breast, longest in apocrine variety

CAG repeat number in the androgen receptor (AR) has been associated with decreased prostate cancer risk, and AR expression has been found in female breast cancer, often associated with apocrine differentiation. Because trinucleotide expansion can alter gene expression and protein function, we hypothesized that it might occur in breast neoplasms. We used a repeat expansion detection technique to determine CAG repeat lengths in DNA from breast biopsies. Three lesion types were microdissected: fibroadenoma (48 cases), ductal carcinoma in situ (DCIS, 24 cases), and invasive mammary carcinoma (18 cases). The maximum number of CAG repeats in either allele of each patient in these three groups was compared. Microsatellite repeat lengths in DCIS were longer than in fibroadenomas or invasive carcinomas (P= 0.017 comparing DCIS vs invasive carcinomas). Two cases of apocrine DCIS had very long repeat lengths, both exhibiting microsatellite lengths at the longest range of normal (32 and 33). Inherited differences in AR CAG length might influence the transition from DCIS to invasive breast cancer, perhaps by modulating function of AR in breast tissue. AR microsatellite polymorphisms could influence cellular differentiation in DCIS lesions, promoting formation of the apocrine subtype in the presence of longer CAG repeats.     

An increased CAG repeat length in the androgen receptor gene in azoospermic ICSI candidates

The androgen receptor gene has a polymorphic trinucleotide repeat that encodes a polyglutamine tract in its N-terminal transactivation domain. We started this study in order to find out whether a correlation existed between the length of this polymorphic tract and the presence of azoospermia in candidates for intracytoplasmic sperm injection (ICSI). The CAG repeat length in exon 1 of the androgen receptor (AR) gene was directly sequenced in 102 patients with azoospermia and in 96 fertile controls. Hormone levels were also measured in patients with azoospermia. The mean AR gene CAG repeat length was significantly larger in azoospermic subjects than it was in control fertile men (23.25 +/- 2.7 versus 22.42 +/- 2.8; P =.033). A receiver operating characteristic analysis evidenced a cutoff point at 22/23 CAG repeats at which the probability of being azoospermic increased 2.2 times. Subsequent logistic regression analysis of the data showed that the odds for azoospermia increased with the number of CAG repeats. Men with more than 26 CAG repeats have a 4.09 greater risk of being azoospermic. Therefore, in our candidates for ICSI, a direct correlation exists between the CAG repeat length in the exon 1 of the AR gene and the risk of being azoospermic.     

The CAG trinucleotide repeat length in the androgen receptor does not predict the early onset of prostate cancer

OBJECTIVE: To relate the repeat length of the androgen-receptor CAG trinucleotide to the age of onset of prostate cancer, stage and grade of disease. PATIENTS AND METHODS: After obtaining ethical approval, 265 patients with locally confined or locally advanced/metastatic prostate cancer were identified and evaluated for age at diagnosis (< 65 years and > 75 years). DNA was extracted from peripheral blood lymphocytes and 1 micro g aliquots subjected to polymerase chain reaction using fluorescently labelled primers. Samples were then run on an ABI 377 gene scan analysis gel with an internal molecular weight marker. The length of the CAG repeat was determined by comparing the gene scan product size to samples where the CAG repeat length had been quantified using direct sequencing. The Kruskal-Wallis, Mann-Whitney and Wilcoxon two sample tests were used to analyse the data. RESULTS: The mean (range) length of the CAG repeat in the androgen receptor was 22.2 (10-31) in the younger and 22.5 (16-32) in the older group, and was not statistically different. There was no significant association between the CAG repeat length and the age of onset of prostate cancer (P = 0.568) or with stage (P = 0.577) and grade (P = 0.891) of prostate cancer. CONCLUSION: These results suggest that there is no correlation between the androgen receptor CAG repeat length and the age of onset, stage and grade of prostate cancer, confirming recent doubts from other similar studies of a suggested correlation between shorter androgen receptor CAG repeat and early onset and aggressiveness of prostate cancer.     

Polymorphic repeats in the androgen receptor gene in high-risk sibships

BACKGROUND: Genetic susceptibility may explain some familial clusters of prostate cancer. The polymorphic androgen receptor (AR) gene, which mediates androgen activity in the prostate, is a candidate gene that may influence predisposition to the disease. METHODS: We analyzed the polymorphic (CAG)n and (GGN)n repeats within the AR gene in men from 51 high-risk prostate cancer sibships, which included at least one affected and one unaffected man (n = 210). We compared repeat lengths of men with prostate cancer (n = 140) to their brothers (n = 70) without disease, stratified by median age at diagnosis of affected men within each sibship. Conditional logistic regression was used to compute odds ratios (OR) and 95% confidence intervals to evaluate associations between prostate cancer and repeat length. RESULTS: The OR for prostate cancer associated with short (CAG)n repeats (< 22) compared to longer repeats (> or =22) was 1.13 (95% CI 0.5-2.4) overall, but was higher in sibships with a median age of <66 years at diagnosis (OR = 1.72, 95% CI 0.5-6.0). The (GGN)n array also was not associated with prostate cancer in general. However, in older men (> or = 66 years), there was a modest elevation in risk (OR = 1.56, 95% CI 0.6-4.1) among those with short repeats (GGN of < or =16). Men with both a short (CAG)n (< 22) and a short (GGN)n (< or =16) array were not at higher risk (OR = 1.06) compared to men with two long repeats [(CAG)n > or =22 and (GGN)n >16)]. CONCLUSIONS: These results suggest that the (CAG)n and (GGN)n repeats in the AR gene do not play a major role in familial prostate cancer.     

Polymorphic forms of prostate specific antigen and their interaction with androgen receptor trinucleotide repeats in prostate cancer

BACKGROUND: Recent data has suggested that polymorphisms in the prostate specific antigen (PSA) may increase prostate cancer (PC) risk. The PSA gene contains a G/A substitution in the androgen response element (ARE) 1 region. The androgen receptor (AR) gene has polymorphic regions containing variable length glutamine and glycine repeats and these are believed to be associated with PC risk. The effect on PC risks from PSA polymorphisms alone and synergistically with the AR gene was examined in this report. METHODS: One hundred PC patients and an age matched cohort of 79 benign prostate hyperplasia and 67 population controls were entered in this study. DNA was extracted from blood and PSA/ARE promoter region amplified by PCR. PCR products were cut with Nhe 1 restriction enzyme to distinguish G/A alleles. AR/CAG and GGC repeat length was detected by automated fluorescence from PCR products. RESULTS: We found a significantly higher PSA/GG distribution in PC (30%) than either benign prostatic hyperplasia (BPH) (18%) or population controls (16%) (P = 0.025). Furthermore the GG distribution within cases was even greater in younger men (< 65 years; 42%; P = 0.012). Additionally, when PSA genotype was cross classified with CAG repeat, significantly more cases than both BPH and population controls were observed to have a short (< 22) CAG/GG genotype (P = 0.006). CONCLUSIONS: Our results indicate that the PSA/ARE GG genotype confers an increased risk of PC especially among younger men. Moreover, we confirm previous results that a short glutamine repeat in conjunction with GG genotype significantly increases the risk of malignant disease.     

雄激素受体基因ＣＡＧ多态性与前列腺癌的关系

目的：进一步探讨雄激素受体（ＡＲ)基因ＣＡＧ多态性与前列腺癌的关系,方法：采用分子生物学方法对３５８例前列腺癌患者ＡＲ基因ＣＡＧ进行测试,分析ＣＡＧ长度与临床各种指标的关系,结果：经统计学分析显示ＡＲ基因ＣＡＧ与年龄之间呈高相关性（Ｐ＝０．００７,r＝０．１１４）,但与ＰＳＡ、肿瘤分级及分期无显著相关性,结论：ＡＲ基因ＣＡＧ的长度与患者年龄成正比,即前列腺癌患者年龄越轻,其ＣＡＧ长度越短。     

CAG polymorphic repeat lengths in androgen receptor gene among Japanese prostate cancer patients: potential predictor of prognosis after endocrine therapy

BACKGROUND: Several investigators have examined the clinical significance of the length of the CAG repeat at the N-terminal region of the androgen receptor in the pathogenesis of prostate cancer. Because the clinical significance of CAG repeat length during the course of prostate cancer in Japanese patients is unknown, the present study analyzed CAG repeat length in relation to several potential clinical factors. MATERIALS AND METHODS: A total of 88 Japanese patients with prostate cancer and a control group of 53 patients with benign prostatic disease were enrolled in this study. The length of the CAG repeat was determined by PCR sequencing and analyzed in relation to several clinical factors. RESULTS: The length of the CAG repeat did not significantly differ between prostate cancer and benign prostatic disease. Although not statistically different with regard to clinical stage and serum PSA level, the CAG repeat length was associated with histological grade and age at diagnosis. In addition, the CAG repeat length in CR and in non CR patients significantly differed at 22.1 +/- 2.4 and 24.4 +/- 3.0, respectively (P = 0.0264), suggesting that the CAG repeat length can act as a molecular marker with which to predict response to endocrine therapy in stage D prostate cancer patients. CONCLUSIONS: A shorter CAG repeat length appears to predict a response to endocrine therapy, showing a positive prognostic value and indicating good prognosis in the metastatic stage of prostate cancer patients.     

前列腺癌患者雄激素受体N端AF1区的突变研究

目的　探讨雄激素受体 (AR)N端转录活化功能区 (AF1)突变与进展的关系。　方法采用PCR SSCP(单链构象多态性 ) DNA双链循环测序法对 2 7例前列腺癌 (PC)石蜡切片组织的ARN端AF1区突变进行检测 ,用DNA测序法确定PC组织AR基因外显子A中的CAG重复数目[(CAG)n]。　结果　在ARN端的AF1区证实了 2种错义突变 (Gly142Val和Asp2 2 1His) ,均存在于低分化的PC组织。 2例突变AR基因外显子A的 (CAG)n均为 17。　结论　在国人PC组织ARN端AF1区发现了 2种新的AR基因突变型 ,突变AR的 (CAG)n重复数目均低于平均水平 ,提示AR突变可能与PC进展有关     

Androgen receptor CAG polymorphism and the risk of benign prostatic hyperplasia in a Brazilian population

Benign prostatic hyperplasia (BPH) is a very frequent age-related proliferative abnormality in men. Polymorphic CAG repeat in the androgen receptor (AR) can alter transactivation of androgen-responsive genes and potentially influence BPH risk. We investigated the association between CAG repeat length and risk of BPH in a case-control study of a Brazilian population. We evaluated 214 patients; 126 with BPH and 88 healthy controls. DNA was extracted from peripheral leucocytes and the AR gene was analyzed using fragment analysis. Hazard ratio (HR) and 95% confidence interval were estimated using logistic regression models. Mean CAG length was not different between patients with BPH and controls. The CAG repeat length was examined as a categorical variable (CAG ≤ 21 vs. CAG > 21 and CAG ≤ 22 vs. CAG > 22) and did not differ between the control vs. the BPH group. We found no evidence for an association between AR CAG repeat length in BPH risk in a population-based sample of Brazilians.     

The role of an androgen receptor polymorphism in the clinical outcome of patients with metastatic prostate cancer

The androgen receptor plays a major role in the development and function of normal and malignant prostate cells. Due to the relationship of the androgen receptor and prostatic growth, it has been proposed that polymorphisms within the androgen receptor may play a role in an individual's susceptibility to developing prostate cancer. An inverse relationship has been established between a highly polymorphic trinucleotide repeat located in the first exon of the androgen receptor and the transactivaton function of the receptor. Serum samples were collected from 131 patients with histologically confirmed adenocarcinoma of the prostate, DNA was isolated, and the polymorphic CAG repeat was amplified by PCR and sequenced. The CAG repeat lengths were then compared with age at diagnosis, age at time of study, baseline log(10) PSA, Gleason score, time from diagnosis to initiation of hormonal therapy, time to progression after androgen ablation, and overall survival time. No correlation was found between CAG length and time to progression or overall survival time, but a significant correlation was found between Gleason score and CAG length suggesting that shorter CAG lengths may predict a higher histological grade of prostate cancer.     

PC-3 cells with enhanced androgen receptor signaling: a model for clonal selection in prostate cancer

BACKGROUND: Two sublines of the human prostate cancer cell line, PC-3, which is widely used as a model of prostate cancer progression, have been reported: PC-3(AR-) that do not express androgen receptor (AR), and PC-3AR+ that have measurable AR RNA but little protein. METHODS: We assayed the geneotype, karyotype, AR expression, and physical characteristics of the two PC-3 sublines, and compared their ability to elicit a transactivation response from ectopic AR in the presence and absence of specific AR coregulators. RESULTS: PC-3(AR-) and PC-3AR+ cells are genotypically and karyotypically similar, but exhibit salient differences in their morphology, growth rate, and expression of AR RNA. Whereas endogenous AR expression in PC-3AR+ cells does not result in sufficient protein to confer androgen responsiveness in culture, ectopic AR consistently elicited a much greater transactivation response in PC-3AR+ than in PC-3(AR-) cells, without altered sensitivity to activation by native ligand or AR coregulators including GRIP1, BRCA1, and Zac1. Moreover, phenotypic differences of AR variants implicated in prostate cancer susceptibility and progression were only observed in PC-3AR+ cells. Higher levels of known AR coregulator proteins detected in PC-3AR+ compared with PC-3(AR-) cells likely contribute to these differences. CONCLUSIONS: These studies provide new evidence that the androgen-signaling axis can be sensitized in prostate cancer cells, and have important implications for the analysis and interpretation of AR structure and function in in vitro cell systems.