Novel molecular defects in the androgen receptor gene of Mexican patients with androgen insensitivity

The androgen insensitivity syndrome (AIS) is an X-linked form of male pseudohermaphroditism caused by mutations in the androgen receptor (AR) gene. In the present study, we analyzed the AR gene in 8 patients, 4 sporadic and 2 familial cases with the syndrome, using exon-specific polymerase chain reaction, single-stranded conformational polymorphism and sequencing analysis and identified six new single base mutations, including one nonsense mutation at the hinge region of the receptor. These molecular lesions occurred in the steroid-binding domain (SBD) and all but one affected the first nucleotide of their respective codons. A nonsense mutation in exon 4, which converts a glutamine into a premature termination signal (Q657stop), a missense mutation changing arginine instead of glycine (G743R) and a conservative substitution of leucine with valine at amino acid 830 (L830V) were detected in patients with CAIS. Three other missense mutations located in exons 4 (L701I), 5 (A765S), and 6 (Q802R) were present in individuals bearing a partial form of AIS. These data allow us to reaffirm the view that nonsense mutations in the AR results almost invariably in a CAIS phenotype and underly the importance of the SBD for the AR functional activity.     

Five novel androgen receptor gene mutations associated with complete androgen insensitivity syndrome

Mutations in the androgen receptor (AR) gene result in androgen insensitivity syndrome (AIS). We have identified five novel mutations that result in a complete loss in AR function and are associated with complete AIS. The mutations span all three AR major functional domains. In two cases, the loss of AR function could be explained on the basis of the current knowledge of AR molecular structure and function. N-terminal mutation c.256C>T (p.Gln86X) leads to an early stop codon and abolishes all DNA and ligand binding. The DNA-binding domain mutation c.1685G>A (p.Cys562Tyr) is located in the N-terminal part of the first zinc finger; a mutation in this position is likely to impair the association of the mutated AR with the androgen response element of target genes. The splice site mutation at intron 2/exon 3 junction (c.1766-1G>A) is shown to lead to c.1765_1766 ins69 (p.[Gly589_Lys590ins23;Gly589Glu]). The two novel ligand-binding domain mutations identified were recreated by site-directed mutagenesis. Both mutations c.2171G>T (p.Gly724Val) and c.2435T>C (p.Leu812Pro) abolished AR ligand binding and severely impaired AR mediated transactivation. Residue p.Gly724 is located in the ligand binding domain, between helices 3 and 4. This region is known to be involved not only in ligand binding but also in AR N/C-terminal interactions. The mutation p.Leu812Pro is located in the C-terminal end of helix 8. This domain is highly conserved and critical for ligand binding. This study extends current understanding of AR mutations associated with CAIS.     

An Androgen Receptor Gene Mutation (A645D) in a Boy With a Normal Phenotype

Over 100 mutations have so far been published in the androgen receptor gene (AR) in patients with different degrees of undervirilisation. The AR gene consists of 8 exons, exons 2–3 code for the DNA binding domain and exons 4–8 (codon 628–919) for the steroid binding domain (codon 667–919). Only four mutations have been published in the 5 ‘end of exon 4, codons 628–667, that is in two PAIS cases and two prostate tumours. In a set of phenotypically normal controls we observed one mutation in exon 4, codon 645, in a 15 year old boy. He has a history of Wilms’ tumour but no undervirilisation and without a family history with intersex. Exon 4 was amplified from constitutional DNA and subject to DGGE with 35–65% of denaturants. Aberrant fragments were subject to a new PCR and direct sequencing was performed. This mutation changed Ala645→Asp due to change of GCT→GAT. This was not detected in 108 normal chromosomes. Interestingly, the same mutation was recently reported in one PAIS case. This phenotypic discrepancy calls for functional studies of this region. This is the first case of a normal phenotype with an amino acid alteration in the AR gene.     

Androgen receptor gene mutations identified by SSCP in fourteen subjects with androgen insensitivity syndrome.

The androgen insensitivity syndrome (AIS) is a disorder of male sexual development resulting in a wide range of clinical phenotypes. AIS is classified into two phenotypic forms: complete (CAIS) and partial (PAIS). To determine the molecular basis of the phenotypic diversity in AIS, we have studied 27 subjects (13 CAIS, 14 PAIS), spanning the full range of AIS phenotypes. We report the results of a mutation screen of the androgen receptor gene. The coding regions of the gene were amplified by the polymerase chain reaction and screened for single strand conformation polymorphisms to identify mutations. This was followed by DNA sequencing of putative mutant segments. Androgen receptor gene mutations were identified in nine CAIS and five PAIS subjects. Two of the CAIS mutations in exon A resulted in frameshifts. A third CAIS mutation resulted in the deletion of a single amino acid from the ligand binding domain of the receptor. All other mutations caused single amino acid substitutions in the ligand binding domain. These results suggest that mutations affecting the ligand binding domain of the androgen receptor are the most frequent cause of AIS, although some cases of PAIS may be the result of other, as yet undefined, genetic lesions.     

完全型雄激素不敏感综合征雄激素受体基因突变分析

目的 对完全型雄激素不敏感综合征一家系雄激素受体(androgen receptor,AR)基因进行突变检测;并对发现突变的基因进行分析.方法 应用PCR扩增、DNA序列测定等技术分析所有AR基因外显子及其邻近DNA序列片段;应用核苷酸内切酶诊断方法观察其是否存在于正常人群;应用跨物种比对方法探讨突变所在位置的保守性.结果 3例患者AR基因第4外显子均发生E681D(GAG→GAT)错义突变,患者母亲为此突变杂合子携带者;患者父亲未见异常;正常人群未发现AR基因E681D突变;681位谷氨酸在不同物种间高度保守.结论 AR基因E681D(GAG→GAT)突变可能是导致完全型雄激素不敏感综合征新的突变方式.     

Analysis of exon 1 mutations in the androgen receptor gene

Eleven mutations in exon 1 of the androgen receptor gene (AR) have been identified in 15 individuals with Androgen Insensitivity syndrome (AIS). Nine of the mutations yield a stop codon directly, or due to a frameshift, in individuals with complete AIS (CAIS). One individual with CAIS had three different mutations in exon 1: one is nominally silent (Glu 211; GAG 995 GAA); two are missense (Pro 390 Arg and Glu 443 Arg). Five unrelated individuals with either CAIS, partial AIS (PAIS) or mild AIS (MAIS) had GAG 995 GAA as their only alteration. This report almost doubles the number of exon 1 mutations stored in the AR Mutation Database, reinforces their highly predominant nonsense character, and identifies Pro 390 and/or Gln 443 as residues that are probably necessary for one or more specific functions of the AR's N-terminal transactivation domain.     

Amber mutation creates a diagnostic MaeI site in the androgen receptor gene of a family with complete androgen insensitivity

We have discovered in the X-linked androgen receptor gene a single nucleotide substitution that is the putative cause of complete androgen insensitivity (resistance) in a family with affected individuals in 2 generations. Earlier studies on the family indicated cosegregation of mutant phenotype and the RFLPs at the loci DXS1 and DXYS1. The mutation is an adenine-to-thymine transversion in exon 8 that changes the sense of codon 882 from lysine to an amber (UAG) translation termination signal. The substitution creates a recognition sequence for the restriction endonuclease MaeI: this permits ready recognition of hemizygotes and heterozygotes after amplification of genomic exon 8 by the polymerase chain reaction. The mutation predicts the synthesis of a truncated receptor that lacks 36 amino acids at the carboxy terminus of its 252-amino acids androgen-binding domain. The cultured genital skin fibroblasts of the one affected patient examined have normal levels of androgen receptor mRNA, but negligible androgen-receptor binding activity. These results accord with a variety of data from spontaneous and artificial mutations indicating that all portions of the steroid binding domain contribute to normal steroid binding by a steroid receptor.     

Partial androgen insensitivity with phenotypic variation caused by androgen receptor mutations that disrupt activation function 2 and the NH(2)- and carboxyl-terminal interaction

Partial androgen insensitivity with sex phenotype variation in two unrelated families was associated with missense mutations in the androgen receptor (AR) gene that disrupted the AR NH(2)-terminal/carboxy terminal interaction. Each mutation caused a single amino acid change within the region of the ligand-binding domain that forms activation function 2 (AF2). In one family, the mutation I737T was in alpha helix 4 and in the other F725L was between helices 3 and 4. Neither mutation altered androgen binding as determined by assays of mutant AR in the patient's cultured genital skin fibroblasts or of recombinant mutant receptors transfected into COS cells. In transient cotransfection assays in CV1 cells, transactivation with the AR mutants at low concentrations of DHT was reduced several fold compared with wild-type AR but increased at higher concentrations. Defects in NH(2)-terminal/carboxy terminal interactions were identified in mammalian two hybrid assays. In similar assays, there was reduced binding of the p160 coactivators TIF2/SRC2 and SRC1 to the mutant AR ligand binding domains (LBD). In the family with AR I737T, sex phenotype varied from severely defective masculinization in the proband to a maternal great uncle whose only manifestation of AIS was severe gynecomastia. He was fertile and passed the mutation to two daughters. The proband of the F725L family was also incompletely masculinized but was raised as a male while his half-sibling by a different father was affected more severely and reared as a female. These studies indicate that the function of an AR AF2 mutant in male development can vary greatly depending on the genetic background.     

Analysis of the transactivation domain of the androgen receptor in patients with male infertilitv

Wang Q, Ghadessy FJ, Yong EL. Analysis of the transactivation domain of the androgen receptor in patients with male infertility. Clin Genet 1998: 54: 185–192. 0 Munksgaard, 1998
Genetic defects of the human androgen receptor (AR) can cause a wide spectrum of androgen insensitivity syndromes (AIS) in XY individuals ranging from phenotypic females, to defective spermatogenesis in otherwise normal males. We screened the non-polymorphic regions of exon 1, transactivation domain (TAD), of the AR gene in 153 subjects with varying degrees of defective spermatogenesis of unknown aetiology, and compared them to 100 healthy fertile controls. Three different single-strand conformation polymorphisms were detected and sequencing of the mutant fragments revealed three G+A transitions in codons 210, 211 and 214. The first two mutations were polymorphisms and the transition in codon 211 was related to ethnic origin occurring in 10–15% of Indian or Middle-Eastern subjects, but not in the majority of Chinese. The third mutation resulted in a non-conservative glycine to arginine substitution at codon 214 (G214R) and was associated with ˜ 20% lower transactivation capacity compared to the wild-type (WT). This study, the first screening of the AR TAD for subtle mutations, in a large group of males with defective spermatogenesis, has uncovered novel polymorphisms which may be useful in ethnic studies. Although a possible pathogenic mutation was uncovered, mutations of the non-polymorphic portions of the TAD of the AR do not appear to have a major role in the aetiology of idiopathic male infertility.     

The clinical and molecular spectrum of androgen insensitivity syndromes

Androgen insensitivity syndromes (AIS) are due to end-organ resistance to androgenic steroids in males leading to defective virilization of the external genitalia. The phenotype encompasses a wide array of genital ambiguity and may range from completely female to undervirilized but unequivocally male with infertility. This disorder is caused by mutations of the androgen receptor and is an X-linked recessive trait. We have studied 47 patients with AIS and have characterized the underlying molecular abnormality in the androgen receptor gene. Twenty patients had complete AIS and twenty-seven had partial AIS. Of the latter, 11 were of predominantly female phenotypic appearance and gender was assigned accordingly, while 16 were raised as males. Within the group of complete AIS, two patients had gross deletions within the gene, one had a small deletion, and one had an insertion. In the other patients with complete AIS, as well as all individuals with partial AIS, single nucleotide substitutions within the coding region were detected, each leading to an amino acid alteration. Seven codons were involved in more than one mutation in different cases. In addition, in one patient with spinal and bulbar muscular atrophy, an elongation of a glutamine-repeat was characterized. We conclude that mutations in the androgen receptor gene may be present throughout the whole coding region. However, our study provides evidence that several mutational hot spots exist. © 1996 Wiley-Liss, Inc.     

Pleiotropic functional properties of androgen receptor mutants in prostate cancer

The androgen receptor (AR) signaling pathway plays an important role during the development of the normal prostate gland, but also during the progression of prostate cancer on androgen ablation therapy. Mutations in the AR gene emerge to keep active the AR signaling pathway and to support prostate cancer cells growth and survival despite the low levels of circulating androgens. Indeed, mutations affecting the ligand binding domain (LBD) of the AR have been shown to generate so-called "promiscuous" receptors that present widened ligand specificity and allow the stimulation of these receptors by a larger spectrum of endogenous hormones. Another class of mutations, arising in the amino-terminal domain (NTD) of the receptor, modulate AR interactions with coregulators involved in cell proliferation regulation. Besides characteristics of these well-known types of mutations, the properties of other classes of AR mutants recently described in prostate cancer are currently under investigation. Most interestingly, in addition to their potential role in the mechanisms which allow prostate cancer cells to escape androgen ablation therapy, data suggest that certain AR mutations are present early in the natural history of the disease and may play a role in many aspects of prostate cancer progression. Surprisingly, singular truncated AR devoid of their carboxy-terminal end (CTE) region seem to exert specific paracrine effects and to induce a clonal cooperation with neighboring prostate cancer cells, which may facilitate both the invasion and metastasis processes. In this article, we review the functional properties of different classes of AR mutants and their potential impact on the natural history of prostate cancer. Hum Mutat 0, 1-14, 2008. (c) 2008 Wiley-Liss, Inc.     

Extreme androgen resistance in a kindred with a novel insertion/deletion mutation in exon 5 of the androgen receptor gene

Androgen insensitivy syndrome (AIS) is the most frequent cause of male pseudohermaphroditism resulting from target-organ resistance to androgen action. Individuals bearing the complete form of the disease (CAIS) present a female phenotype and a lack of pubic and axillary hair. In the present study, four 46,XY patients born in two generations from a kindred with a history of AIS were examined for genetic abnormalities in the androgen receptor gene (AR). All eight exons encoding the AR protein were individually amplified from genomic DNA followed by a mutation screening with single-strand conformation polymorphism analysis. Sequencing of the mutant AR revealed a novel insertion/deletion mutation in exon 5. A deletion of 7 bp is replaced by an insertion of 11 nucleotides, which represents a duplication of the adjacent downstream sequence. The mutation g.2640_2646delAGGATGC/2652_2662insTTCGCCCCTGA, results in a frameshift that introduces a premature termination signal TGA, nine codons downstream. Such a rearrangement predicts a truncation of the AR, thereby deleting a large portion of the ligand-binding domain (amino acid position 768–919). Furthermore, although this mutation breaks the translational reading frame starting from codon 760, examination of the complementary DNA suggested that it does not disturb mRNA splicing. These changes have been found in all the patients and appear to account for the observed absence of detectable androgen binding to the AR in cultured fibroblasts and for the CAIS phenotype in the kindred. This disorder represents the first insertion/deletion mutation of the AR that probably arose by a slipped-strand mispairing mechanism.     

Rapid detection of a mutation hot-spot in the human androgen receptor

Mutations of the human androgen receptor gene may disturb sexual development in males, and are inherited as an X-linked recessive trait. The vast majority of the mutations are familial. We have identified a large kindred with complete androgen insensitivity syndrome (CAIS) without detectable androgen-binding in genital skin fibroblasts. A single nucleotide substitution (C-to-T transition) was identified, resulting in an Arg⁸⁵⁵ to Cys in the androgen binding domain. To date, four independent CAIS families have been reported with this specific mutation that coincides with the propensity of cytosines at CpG dinucleotides to methylate. An allele-specific oligo-nucleotide assay was developed that allowed for the rapid and specific identification of this mutation hot-spot in individuals with androgen receptor incensitivity syndromes.     

The androgen receptor gene mutations database (ARDB): 2004 update

The current version of the androgen receptor (AR) gene mutations database is described. The total number of reported mutations has risen from 374 to 605, and the number of AR-interacting proteins described has increased from 23 to 70, both over the past 3 years. A 3D model of the AR ligand-binding domain (AR LBD) has been added to give a better understanding of gene structure-function relationships. In addition, silent mutations have now been reported in both androgen insensitivity syndrome (AIS) and prostate cancer (CaP) cases. The database also now incorporates information on the exon 1 CAG repeat expansion disease, spinobulbar muscular atrophy (SBMA), as well as CAG repeat length variations associated with risk for female breast, uterine endometrial, colorectal, and prostate cancer, as well as for male infertility. The possible implications of somatic mutations, as opposed to germline mutations, in the development of future locus-specific mutation databases (LSDBs) is discussed. The database is available on the Internet (http://www.mcgill.ca/androgendb/).     

雄激素受体基因新突变引起的完全型雄激素不敏感综合征

目的 对1例完全型雄激素不敏感综合征(complete androgen insensitivity syndrom,CAIS)的雄激素受体(androgen receptor,AR)基因进行分析,寻找致病突变.方法 提取外周血全基因组DNA,扩增位于X染色体上的AR基因所有8个外显子及邻近外显子与内含子之间的剪切位点DNA序列,对扩增片段直接进行DNA序列测定,与基因库中的序列进行比对.结果 该病例AR基因第1外显子的441位密码子发生无义突变(GAA→TAA),由编码谷氨酸(Glu)变为终止密码,导致雄激素受体蛋白翻译至441位时终止,产生没有功能的氨基酸多肽残段.结论 Glu441stop(GAA→TAA)是一种导致CAIS的AR基因新的突变方式,之前在世界范围内均未见报道,丰富了AR基因突变谱,增加对CAIS发病机制的了解.

Abstract：

Objective To identify the mutation of human androgen receptor gene(AR) in a patient with complete androgen insensitivity syndrome (CAIS). Methods DNA sequences of 8 exons and their exon/intron boundaries of the AR gene in the patient were amplified by PCR and directly sequenced. Results DNA sequencing revealed a nonsense mutation in exon 1, resulting in a change of codon 441 GAA (glutamic acid) to a stop codon (TAA). Conclusion A novel mutation Glu441stop (GAA to TAA) of the androgen receptor gene leading to complete androgen insensitivity syndrome was identified in this study in a Chinese patient. It may help us further understanding the pathogenesis of CAIS.     

Amber mutation creates a diagnostic MaeI site in the androgen receptor gene of a family with complete androgen insensitivity.

We have discovered in the X-linked androgen receptor gene a single nucleotide substitution that is the putative cause of complete androgen insensitivity (resistance) in a family with affected individuals in 2 generations. Earlier studies on the family indicated co-segregation of mutant phenotype and the RFLPs at the loci DXS1 and DXYS1. The mutation is an adenine-to-thymine transversion in exon 8 that changes the sense of codon 882 from lysine to an amber (UAG) translation termination signal. The substitution creates a recognition sequence for the restriction endonuclease MaeI: this permits ready recognition of hemizygotes and heterozygotes after amplification of genomic exon 8 by the polymerase chain reaction. The mutation predicts the synthesis of a truncated receptor that lacks 36 amino acids at the carboxy terminus of its 252-amino acid androgen-binding domain. The cultured genital skin fibroblasts of the one affected patient examined have normal levels of androgen receptor mRNA, but negligible androgen-receptor binding activity. These results accord with a variety of data from spontaneous and artificial mutations indicating that all portions of the steroid binding domain contribute to normal steroid binding by a steroid receptor.     

雄激素受体基因新突变引起的完全型雄激素不敏感综合征

目的 对1例完全型雄激素不敏感综合征(complete androgen insensitivity syndrom,CAIS)的雄激素受体(androgen receptor,AR)基因进行分析,寻找致病突变.方法 提取外周血全基因组DNA,扩增位于X染色体上的AR基因所有8个外显子及邻近外显子与内含子之间的剪切位点DNA序列,对扩增片段直接进行DNA序列测定,与基因库中的序列进行比对.结果 该病例AR基因第1外显子的441位密码子发生无义突变(GAA→TAA),由编码谷氨酸(Glu)变为终止密码,导致雄激素受体蛋白翻译至441位时终止,产生没有功能的氨基酸多肽残段.结论 Glu441stop(GAA→TAA)是一种导致CAIS的AR基因新的突变方式,之前在世界范围内均未见报道,丰富了AR基因突变谱,增加对CAIS发病机制的了解.