完全型雄激素不敏感综合征雄激素受体基因突变的鉴定与分析

目的 对l例完全型雄激素不敏感综合征(complete androgen insensitivity syndrome,CAIS)患者的雄激素受体(androgen receptor,AR)基因进行分析,寻找潜在的突变位点,并进一步分析其发病原因.方法 提取患者外周血全基因组DNA,扩增位于X染色体AR基因8个外显子及邻近外显子与内含子剪切位点DNA序列,对扩增产物直接进行DNA序列测定,与GenBank中的基因序列进行比对.结果 该患者AR基因在第6外显子核苷酸序列3507位点缺失一个碱基C而引起移码突变,致使在第808位密码子出现终止密码子(TGA)使得翻译提前终止形成截短的雄激素受体蛋白.该突变可能诱导雄激素受体结合能力发生功能上的变异,导致CAIS的发生.结论 AR基因第6外显子核苷酸序列3507位点缺失碱基C引起的移码突变是一种导致CAIS新的基因突变方式,该研究丰富了AR基因突变谱,为了解CAIS的发病机制提供了新的依据.     

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.     

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.     

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.     

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.     

一种导致完全性雄激素不敏感综合征的AR基因移码突变的鉴定

目的 对1个男性假两性畸形完全性雄激素不敏感综合征的家系雄激素受体(androgen receptor,AR)基因进行突变检测,并分析其致病原因.方法 用PCR扩增及DNA测序等技术分析男性假两性畸形先证者候选基因AR的外显子及外显子内含子接头序列,根据检测到的突变位点情况,检测患者及其家系其他成员的相应DNA区段的碱基序列.结果 先证者及其家庭成员共3例患者均为AR基因1910delA的移码突变.其母亲为AR基因突变杂合子,是此疾病的携带者.该突变导致AR基因的N637I(AAU→AUC)、L638*(CTG→TGA)改变,导致AR蛋白283个氨基酸的截短.正常人群未发现该移码突变,该突变尚未见文献报道.结论 基因水平确定了该家系为AR基因突变引起的完全性雄激素不敏感综合征男性假两性畸形家系,同时发现了1种AR基因病理性新突变.     

用PCR-SSCP分析检测睾丸女性化综合征患者雄激素受体基因突变

为进一步探讨睾丸女性化（Ｔｆｍ）综合征患者发病的分子机理，并为研究雄激素受体（ＡＲ）结构与功能关系提供资料，应用银染聚合酶链式反应－单链构象多态性（ＰＣＲ－ＳＳＣＰ）分析方法对４例Ｔｆｍ患者的ＡＲ基因８个外显子中的７个（Ｂ～Ｈ）分别进行了研究。结果表明，所有患者ＡＲ基因的上述外显子经ＰＣＲ扩增后均出现与外显子相应长度一致的条带，表明没有明显的缺失或插入突变。２例患者外显子Ｇ片段在行ＳＳＣＰ分析时分别有泳动变位，经ＤＮＡ双链循环测序证实两外显子各有一点突变（Ｖａｌ８６６Ｍｅｔ，Ｔ２９１９→Δ），这些突变均位于ＡＲ的雄激素结合区内。其中的缺失突变为国际上尚未报道过的新突变。研究表明，ＰＣＲ－ＳＳＣＰ分析是检测ＡＲ基因突变的快速、简便、可靠的方法。     

一例 AR基因变异导致完全型雄激素不敏感综合征的表型及细胞分子遗传学分析

目的明确1例原发性闭经患者的遗传学病因。方法收集患者的临床资料, 采集外周血样行G显带染色体核型分析后, 使用目标区域捕获及二代测序技术对与性发育及分化异常相关的致病基因进行检测, 用Sanger测序对患者及其母亲AR基因进行验证。结果患者染色体核型为46, XY, 二代测序发现患者具有雄激素受体(androgen receptor,AR)基因c.1832dup(p.N611Kfs*12)半合子变异, 为移码变异。Sanger测序验证患者AR基因突变源于其表型正常的杂合变异携带者母亲。结论患者AR基因变异与雄激素不敏感综合征(androgen insensitivity syndrome, AIS)相关, 结合其临床体征、性激素及影像学检查, 考虑完全型雄激素不敏感综合征(complete AIS)是该患者青春期原发性闭经的原因。     

中国男性雄激素受体基因(CAG)n重复多态性的初步研究

目的 研究正常中国男性雄激素受体（androgen receptor,AR)基因（CAG）n重复序列的多态性。方法 应用DNA测序基础上的[α-^32P]dCTP掺入不对称PCR-变性聚丙烯酰胺凝胶电泳（Polyacrylamide gel electrophoresis,PAGE)方法,对107名正常男性AR基因的（CAG）n重复数进行测定。结果 AR基因（CAG）n序列在正常男性人群中呈现重复多态性,其重复范围为11-29,集中于20-24,以22最多。结论 AR基因（CAG）n序列在正常男性人群中呈现重复多态性,为今后进一步研究其病理学及遗传学意义打下基础。     

2例睾丸女性化综合征患者雄激素受体基因中的突变

目的：研究２例完全型睾丸女性化综合征（ＴＦＭ）患者的外阴部皮肤成纤维细胞（ＧＳＦ）中的雄激素受体（ＡＲ）。结果：发现两患者ＡＲ的数量无明显改变，但一患者的ＡＲ亲和力明显降低。用ＰＣＲ－ＳＳＣＰ（单链构象多态性）方法对两患者ＡＲ基因８个外显子中的７个（Ｂ－Ｈ）分别进行分析，发现两患者ＡＲ基因外显子Ｅ均存在着泳动变位，ＤＮＡ序列分析证实两患者外显子Ｅ各有一点突变，分别使得编码第７４３位和第７５２位的氨基酸发生了改变，后一突变还造成了一Ｓａｕ３ＡⅠ酶酶切位点的消失。结论：结合ＡＲ功能改变及临床表型可以认为，两患者的性分化发育异常是由于两位点的突变所致     

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.     

Leu-676-Pro mutation of the androgen receptor causes complete androgen insensitivity syndrome in a large Hutterite kindred

A large Manitoba Hutterite kindred with X-linked receptor negative complete androgen insensitivity syndrome (CAIS) was studied. In attempts to identify all carriers of the syndrome in this kindred, using the androgen receptor (AR) cDNA, we have found a novel diagnostic Mspl polymorphic pattern, which cosegregates with the disease. This polymorphism was not detected in 79 unrelated X-chromosomes of which 22 were from Hutterite controls. We were able to localize the polymorphism to exon 4, which is known to encode part of the androgen receptor hormone binding domain. A single base substitution (T→C) was detected, which creates a new Mspl site. This novel transition mutation replaces Leu-676 with Pro at a site which is conserved in numerous members of the steroid receptor gene family. Sequencing all 8 exons of the AR revealed the Leu-676→Pro mutation as the only change in the primary structure of the receptor. Transfection of COS-l cells with an expression vector of the mutant AR demonstrates that this point mutation of nucleotide 2558 abolishes receptor binding activity. The mutation can easily be detected by MspI digestion of the polymerase chain reaction (PCR) amplified exon 4 product.© 1995 wiley-Liss, Inc.     

Bridging structural biology and genetics by computational methods: an investigation into how the R774C mutation in the AR gene can result in complete androgen insensitivity syndrome

Recent structural studies of the ligand-binding domain (LBD) of the androgen receptor (AR) have raised more questions than answers, as most of the known pathogenic mutations of the AR gene causing androgen insensitivity syndrome (AIS) are not in the ligand-binding pocket. In this study, we have investigated one such pathogenic mutation, by examining details of its altered atomic structure using a computational technique of molecular dynamics (MD) simulations extended over 4 ns, effectively creating a 4D structural model. The mutation R774C, which is in the LBD of the AR gene, causes complete AIS (CAIS), producing ARs that have a unique thermolabile profile, being thermostable at 22 degrees C but thermolabile at 37 degrees C. We have therefore investigated this mutation by MD simulations at 293 K (20 degrees C), 300 K (27 degrees C), and 310 K (37 degrees C). The MD simulations indicate that: 1) the mutation causes local structural distortions, which result in changes in the shape of the ligand-binding pocket; 2) the mutation alters the dynamic nature of the protein and results in a more diverse conformational distribution of the ligand-binding pocket; and 3) the effect of the mutation on AR structure could be largely reversed by lowering the temperature at which the MD simulations were conducted. These results therefore strongly support the biochemical data, e.g., the mutants' inability to form AR-ligand complexes at 37 degrees C and its characteristic reversible thermolability, clearly indicating the value of such computational methods.     

Androgen receptor gene mutations in 46,XY females with germ cell tumours

We present clinical findings and molecular characterization in two patients previously diagnosed as 46,XY female gonadal dysgenesis with germ cell tumour. Both patients showed a female general phenotype with unambiguously female external genitalia and primary amenorrhoea compatible with complete androgen insensitivity syndrome. The first patient, at the age of 31 years, developed a dysgerminoma measuring 8 x 13 x 10 cm in one abdominal testis. Genetic analysis revealed a single nucleotide substitution on exon 4 in the hormone-binding domain of the androgen receptor (AR) gene, resulting in a change of codon 681 GAG (glutamic acid) to AAG (lysine). The second patient, at the age of 17 years, developed a dysgerminoma measuring 12 x 10 x 7 cm in one abdominal testis and gonadoblastoma in the other testis. Genetic analysis showed a point mutation on exon 3 in the DNA-binding domain of the AR gene resulting in a change of codon 607 CGA (arginine) to CAA (glutamine). Arg607-Gln and Arg608-Lys point mutations in the DNA-binding domain of the AR gene have been associated with male breast cancer in partial androgen insensitivity syndrome. A codon 607 mutation in the DNA-binding domain of the AR gene in our patient 2 is associated with early development of germ cell tumour. We suggest regular molecular genetic analysis of the AR gene in 46,XY females with germ cell tumour and androgen insensitivity syndrome to detect differences in the specific regions of AR gene involved in early progression toward oncogenesis of the dysgenetic gonads.     

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.