Phenotypic diversity in siblings with partial androgen insensitivity syndrome

Accepted 5 March 1997
The androgen insensitivity syndrome is a heterogeneous disorder with a wide spectrum of phenotypic abnormalities, ranging from complete female to ambiguous forms that more closely resemble males. The primary abnormality is a defective androgen receptor protein due to a mutation of the androgen receptor gene. This prevents normal androgen action and thus leads to impaired virilisation. A point mutation of the androgen receptor gene affecting two siblings with partial androgen insensitivity syndrome is described. One had cliteromegaly and labial fusion and was raised as a girl, whereas the other sibling had micropenis and penoscrotal hypospadias and was raised as a boy. Both were shown to have the arginine 840 to cysteine mutation. The phenotypic variation in this family is thus dependent on factors other than abnormalities of the androgen receptor gene alone.

     

Phenotypic variation and detection of carrier status in the partial androgen insensitivity syndrome

The partial androgen insensitivity syndrome occurs in 46,XY subjects with phenotypes ranging from perineoscrotal hypospadias with cryptorchidism and micropenis (mild undervirilisation) to clitoromegaly and partial labial fusion (marked undervirilisation). Within an affected family, wide variation in the degree of genital ambiguity between individuals can be seen. Two cousins of a previously reported subject who had severe genital ambiguity and partial androgen insensitivity were investigated. Neither of the cousins had genital abnormalities as marked as the index case, who also had qualitatively abnormal androgen binding and two mutations of the androgen receptor gene. Despite marked phenotypic differences between the index case and his cousins, similar androgen binding and the same androgen receptor mutations were shown in the cousins. Furthermore, one of the androgen receptor gene mutations has been shown in the mother and sister of one of the boys indicating that they are carriers. Thus phenotypic variation in families affected by partial androgen insensitivity is dependent on factors other than abnormalities of the androgen receptor gene alone. Although carrier status in partial androgen insensitivity can be determined, the severity of genital abnormalities in an affected offspring cannot be reliably predicted.     

Phenotypic variation and detection of carrier status in the partial androgen insensitivity syndrome.

The partial androgen insensitivity syndrome occurs in 46,XY subjects with phenotypes ranging from perineoscrotal hypospadias with cryptorchidism and micropenis (mild undervirilisation) to clitoromegaly and partial labial fusion (marked undervirilisation). Within an affected family, wide variation in the degree of genital ambiguity between individuals can be seen. Two cousins of a previously reported subject who had severe genital ambiguity and partial androgen insensitivity were investigated. Neither of the cousins had genital abnormalities as marked as the index case, who also had qualitatively abnormal androgen binding and two mutations of the androgen receptor gene. Despite marked phenotypic differences between the index case and his cousins, similar androgen binding and the same androgen receptor mutations were shown in the cousins. Furthermore, one of the androgen receptor gene mutations has been shown in the mother and sister of one of the boys indicating that they are carriers. Thus phenotypic variation in families affected by partial androgen insensitivity is dependent on factors other than abnormalities of the androgen receptor gene alone. Although carrier status in partial androgen insensitivity can be determined, the severity of genital abnormalities in an affected offspring cannot be reliably predicted.     

Complete androgen insensitivity syndrome caused by the R855H mutation in the androgen receptor gene

Complete androgen insensitivity syndrome (CAIS) is characterized by a completely female phenotype in a 46,XY individual and is caused by mutations in the androgen receptor (AR) gene. A 5 year-old girl presented with bilateral hernia and was noted to have bilateral testes. She had a 46,XY karyotype and was diagnosed with CAIS. To identify the underlying mutation, the exons 2 to 8 of the AR gene were amplified by PCR using sets of known primers and reaction conditions. The results of the mutational analysis for the AR showed the presence of the R855H mutation; her mother was found to be heterozygous and both her 46,XX sister and her aunt had a normal AR gene. This mutation, is the result of a guanine to adenine transition in codon 855 at position 2926 in exon 7 of the AR gene, which causes an alteration of the coding nucleotide triad from CGC to CAC, which subsequently causes the substitution from arginine to histidine in the amino acid sequence of the receptor protein molecule. The same mutation has been reported to cause variable phenotypic expression, which could be explained by the presence of additional co-activating factors modifying the biological activity of the AR. The identification of an AR mutation in a girl with CAIS provides important information, because of the syndrome's genetic heterogeneity. This report emphasizes the fact that genetic determinants outside the coding sequence of the AR can influence the function of the AR protein molecule. Phenotypic expression of the mutation may be used for the construction of maps of functional domains of the AR.     

A novel point mutation in the hormone binding domain of the androgen receptor associated with partial and minimal androgen insensitivity syndrome

Mutations in the coding sequence of the androgen receptor (AR) gene result in a wide range of androgen insensitivity syndromes (AIS). We report an extended family in which at least five male individuals in different generations suffer from partial AIS. The index patient presented at birth with ambiguous genitalia; the karyotype was 46,XY and subsequent sex assignment male. Elevated stimulated testosterone (T) and normal baseline gonadotropins were found. Family history revealed four additional adult males affected with various abnormalities of their external genitalia. Molecular analysis of the coding sequence of the AR gene revealed in all a novel point mutation in exon 6, changing threonine to isoleucine at codon position 800 in the hormone-binding domain. We conclude that phenotypic variations in mild AR defects are striking and can remain undetected even until late in life.     

Case report: WT1 exon 6 truncation mutation and ambiguous genitalia in a patient with Denys-Drash syndrome

Denys-Drash syndrome is a rare genetic disorder featuring the triad of congenital nephropathy, Wilms tumor, and intersex disorders (XY under-virilization or XY female). Denys-Drash syndrome is associated with constitutional mutations in the Wilms tumor suppressor gene WT1. Unlike WAGR (Wilms tumor, aniridia, genitourinary anomalies, and mental retardation) syndrome, with its complete deletion of one copy of WT1, Denys-Drash syndrome is generally caused by a dominant-negative mutation. We present a new case of Denys-Drash syndrome in a patient initially diagnosed with XY ambiguous genitalia/partial androgen insensitivity syndrome, who was found to have a novel nonsense mutation in exon 6 leading to a stop codon and hence a truncated protein. Based on lessons learned from this patient, the diagnosis of Denys-Drash syndrome should be considered in the presence of ambiguous genitalia and partial androgen insensitivity.     

Novel point mutations in complete androgen insensitivity syndrome with incomplete müllerian regression: two Taiwanese patients

Complete androgen insensitivity syndrome (CAIS) is a relatively rare X-linked disorder caused by androgen receptor gene (AR) mutations that result in complete impairment of genital virilisation. In these individuals, no müllerian derivatives are usually found; however, several sporadic cases of CAIS with müllerian remnants have been reported. In this paper, we report two novel point mutations of the AR gene resulting in two cases of CAIS with incomplete müllerian regression. Molecular studies of cases 1 and 2 showed novel missense mutations of the AR gene, with a methionine to threonine substitution at codon 749 (base 2608 TC) in exon 5 and a methionine to lysine substitution at codon 787 (base 2722 TA) in exon 6. Both patients received bilateral gonadectomy and inguinal hernia repair. The excised gonads proved to be testes with incomplete regression of the müllerian structures. Conclusion:müllerian structures can be present in androgen insensitivity syndrome and the presence of a uterus therefore does not exclude this disorder. Further study of these patients may promote a better understanding of the pathogenesis.Abbreviations AIS androgen insensitivity syndrome - AR androgen receptor - CAIS complete androgen insensitivity syndrome - hAR human androgen receptor - MIS müllerian inhibiting substance - PAIS partial androgen insensitivity syndrome     

Phenotypic variation in a family with partial androgen insensitivity syndrome

A family with partial androgen insensitivity syndrome exhibited considerable variation in phenotypic expression of their androgen resistance. One subject died at 2 1/2 years of age of a Wilms' tumor. In the two living members, one had a micropenis with otherwise normal genitalia, while the other had a small phallus, perineoscrotal hypospadias, bifid scrotum, and persistence of a vaginoutricular pouch. At puberty, plasma androgens and serum gonadotropins increased to normal or elevated values. However, despite adequate endogenous plasma testosterone levels and testosterone therapy, these patients showed poor virilization and were sterile. Studies of cultured sexual skin fibroblasts showed adequate 5 alpha-reductase activity and normal receptor affinity and capacity for dihydrotestosterone. An X-linked mode of inheritance is postulated, although autosomal dominance cannot be ruled out.     

Expression of two functionally different androgen receptors in a patient with androgen insensitivity

Recently, we demonstrated a previously unknown high rate of de novo mutations of the androgen receptor (AR) gene in androgen insensitivity syndrome (AIS) with some resulting in somatic mosaicism of mutant and wild type AR alleles. However, data on the genotype-phenotype relationship in the latter patients are sparse. We present here a 46,XY newborn with ambiguous genitalia carrying a mosaic of an 866 GTG (Val) → ATG (Met) mutation with the wild type AR gene. This mutation has usually been associated with complete AIS. Accordingly, we found markedly impaired transactivation due to the mutant Met⁸⁶⁶ AR. Essential information arose from Scatchard analysis of methyltrienolone binding on cultured genital skin fibroblasts. We demonstrated for the first time the expression of two functionally different ARs (K_d1: 5.58 nM = mutant, K_d2: 0.06 nM = wild type) in one AIS individual. This finding not only represents an important confirmation for the presence of the somatic mosaicism in the patient, it also indicates the most likely molecular mechanism responsible for the unexpectedly strong virilization of the patient: Androgen action through the wild type AR expressed by part of the somatic cells. Conclusions The present case clearly demonstrates the molecular mechanism by which somatic mosaicism of the androgen receptor gene can modulate in vivo androgen action. It underlines the importance of particular notice on somatic mosaicism in all androgen insensitivity syndrome patients carrying de novo mutations of the androgen receptor gene. Received: 24 August 1998 / Accepted in revised form: 5 January 1999     

Molecular characterization of the androgen receptor gene in boys with hypospadias

Development of male external genitalia is dependent on androgens, and karyotypic males lacking appropriate levels of androgens or functionally normal receptors may show abnormal virilization. Mutations in the androgen receptor gene cause abnormal receptor function and diverser mutations may be associated with heterogenous clinical signs of androgen insensitivity. In this study, we have searched for the existence of androgen receptor gene mutations carried by some patients with hypospadias. Genomic DNA samples from peripheral blood leucocytes from 21 patients with different degrees of hypospadias were studied. Analysis of the androgen receptor gene was performed by exon-specific amplification using polymerase chain reaction, single strand conformation polymorphism analysis, and direct genomic sequencing. Although a silent polymorphism was identified in exon 1 of the androgen receptor gene, the majority of patients studied (20/21) did not carry androgen receptor gene mutations. One patient with severe hypospadias and bilateral cryptorchidism was found to carry a point mutation in exon 8. We conclude that mutations in the androgen receptor gene may be carried by subset of patients with genital ambiguity presenting primarily with hypospadias, but this is not the underlying cause in the majority of cases. Characterization of this genetic defect may be important for classification and subsequent conservative therapeutic approaches for these patients.     

Persistence of Müllerian remnants in complete androgen insensitivity syndrome

One of the unusual findings in androgen insensitivity syndrome (AIS) is the persistence of Mullerian derivatives. Several hypotheses have been advanced to explain such persistence: the coincidental occurrence of mutations affecting the androgen receptor (AR) and the synthesis and/or action of anti-Müllerian hormone (AMH); the loss of AMH paracrine action due to early testicular descent; the exposure to drugs such as diethylstilbestrol. We describe a patient with complete AIS for whom surgical and laboratory findings rule out all these hypotheses. She has a missense mutation on the AR gene but no mutations were detected on the genes coding for AMH and AMH receptor. The gonads were found very close to the Mullerian structures (enough to exert a paracrine action), gonadal tissue stained positively for AMH, and yet Mullerian derivatives were present and well developed. These findings indicate the possibility of interactions between the androgen receptor and AMH action.     

5alpha-reductase 2 gene mutations in three unrelated patients of Greek Cypriot origin: identification of an ancestral founder effect

INTRODUCTION: 5alpha-Steroid reductase deficiency (5alphaSRD) is an autosomal recessive enzymatic deficiency. Mutations in the 5alpha-steroid reductase type 2 gene (SRD5A2) result in male pseudohermaphroditism caused by decreased dihydrotestosterone (DHT) synthesis--a key hormone of virilization of male external genitalia. AIM: To study for the first time patients from the Greek Cypriot population, describe their clinical characteristics, and identify the genetic mutations of the SRD5A2 gene. PATIENTS AND METHODS: Three unrelated patients with 46,XY karyotype born with ambiguous genitalia were examined. Patient 1 was raised as a girl and was diagnosed with partial androgen insensitivity syndrome, based on the clinical picture and incomplete laboratory investigation at the age of 4 years, and underwent gonadectomy. For this patient sequencing analysis of all five exons of the SRD5A2 gene and exons 2 to 8 of the androgen receptor (AR) gene was performed. Patients 2 and 3 were also born with ambiguous genitalia. The hCG test for these two patients was informative of 5alphaSRD, as it showed elevated T/DHT ratio after stimulation. Despite genetic counseling, both families decided to raise their infants as females because of severe under-virilization. Sequencing of the SRD5A2 gene was also completed for both patients. RESULTS: No mutations were found in the AR sequence for patient 1. Patients 1 and 3 were found homozygous for the mutation A/G at splice junction intron 1/exon 2 and patient 2 was found heterozygous for the same A/G substitution and also heterozygous for an additional mutation, Pro181Leu, in exon 3. CONCLUSIONS: The same mutation in the SRD5A2 gene was identified in three unrelated patients, in both homozygous and heterozygous form. This splice mutation was previously reported in Turkish patients. This underlying genetic abnormality may be characteristic for the Eastern Mediterranean region and is likely due to an ancestor effect.     

Mutational analysis of Hungarian patients with androgen insensitivity syndrome

OBJECTIVE: To support the clinical diagnosis of androgen insensitivity syndrome (AIS), we performed mutational analysis of the androgen receptor gene. DESIGN: Clinical, hormonal and molecular genetic data of ten undervirilized genetic male patients living in Hungary were recorded. METHODS: PCR-based single strand conformation polymorphism (SSCP) analysis was used to study the whole coding region of the androgen receptor gene. Direct fluorescent sequencing was applied when aberrant migration was detected by SSCP. RESULTS: Five different mutations were identified in five unrelated genetic male patients with abnormal sexual differentiation. One of these mutations was novel, while the other four mutations have been described previously in the literature. One of the mutations identified earlier in individuals with sporadic AIS showed a familial inheritance pattern in our study group. No abnormality of the androgen receptor gene was identified in three patients clinically suspected to have partial AIS. CONCLUSION: Application of molecular techniques helped to clarify the diagnosis in patients with disorders of male sexual differentiation.     

Clinical and molecular spectrum of somatic mosaicism in androgen insensitivity syndrome

We recently found that postzygotic de novo mutations occur at the expected high rate of an X-linked recessive mutation in androgen insensitivity syndrome. The resulting somatic mosaicism can be an important molecular determinant of in vivo androgen action caused by expression of the wild-type androgen receptor (AR). However, the clinical relevance of this previously underestimated genetic condition in androgen insensitivity syndrome has not been investigated in detail as yet. Here, we present the clinical and molecular spectrum of somatic mosaicism considering all five patients with mosaic androgen insensitivity syndrome, whom we have identified since 1993: Patient 1 (predominantly female, clitoromegaly), 172 TTA(Leu)/TGA(Stop); patient 2 (ambiguous), 596 GCC(Ala)/ACC(Thr); patient 3 (ambiguous), 733 CAG(Gln)/ CAT(His); patient 4 (completely female), 774 CGC(Arg)/TGC (Cys); and patient 5 (ambiguous), 866 GTG(Val)/ATG(Met). Serum sex hormone binding globulin response to stanozolol, usually correlating well with in vivo AR function, was inconclusive for assessment of the phenotypes in all tested mosaic individuals. An unexpectedly strong virilization occurred in patients 1, 3, and 5 compared with phenotypes as published with corresponding inherited mutations and compared with the markedly impaired transactivation caused by the mutant ARs in cotransfection experiments. Only the prepubertal virilization of patients 2 and 4 matched appropriately with transactivation studies (patient 4) or the literature (patients 2 and 4). However, partial pubertal virilization in patient 4 caused by increasing serum androgens and subsequent activation of the wild-type AR could not be excluded. We conclude that somatic mosaicism is of particular clinical relevance in androgen insensitivity syndrome. The possibility of functionally relevant expression of the wild-type AR needs to be considered in all mosaic individuals, and treatment should be adjusted accordingly.     

Novel mutation involving the translation initiation codon of the growth hormone receptor gene (GHR) in a patient with Laron syndrome

Laron syndrome (LS) or growth hormone (GH) insensitivity syndrome (GHIS) is an autosomal recessive disease due to molecular defects in the GH receptor gene (GHR). Most of the identified mutations are located on the extracelular domain of the receptor. We studied the GHR gene in a patient with LS and found a homozygous missense mutation in exon 2. The novel mutation is an A-->T transversion (ATG -->TTG) that abolishes the translation initiation codon of the GHR gene. This mutation is expected to prevent the translation of the protein. We present clinical, biochemical and molecular evidence of Laron syndrome as the result of a mutation (ATG-->TTG) in the codon for the initial methionine of the GHR gene.     

Relationship between phenotype and genotype in growth hormone insensitivity syndrome

Woods KA, Clark AJL, Amselem S, Savage MO. Relationship between phenotype and genotype in growth hormone insensitivity syndrome. Acta Pædiatr 1999; Suppl 428: 158–62. Stockholm. ISSN 0803–5326
Growth hormone insensitivity syndrome (GHIS) of genetic origin is associated with many different mutations of the growth hormone receptor (GHR) gene and a recently described genetic defect of the insulin-like growth factor I (IGF-I) gene. Phenotypic and biochemical features were examined in a cohort of 82 patients with GHIS from 23 countries. The mean age of these patients was 8.3 years, their mean height SDS was -6.09 and their median IGF-binding protein-3 (IGFBP-3) SDS was -8.5. In total, 19 of the 82 patients (23%) were growth hormone-binding protein (GHBP)-positive (> 10%). The mean heights in GHBP-negative and GHBP-positive patients were -6.45 SDS and -4.89 SDS, respectively ( p < 0.001). Sixteen different GHR gene mutations were identified in 27 patients with GHIS. All of these patients had homozygous mutations, except one who had a compound heterozygous mutation. There was no relationship between the type or site within the GHR gene of the mutation and the height SDS or IGFBP-3 SDS of the patients. GHIS is associated with a wide variation in the severity of clinical and biochemical phenotypes. This variation cannot clearly be accounted for by defects in the GHR gene alone. Other genes or environmental factors must contribute to the control of growth in patients with GHIS. □ Growth hormone, growth hormone insensitivity, growth hormone receptor gene     

Allgrove syndrome with features of familial dysautonomia: a novel mutation in the AAAS gene

Allgrove syndrome (or triple-A syndrome) is a rare autosomal recessive disorder characterized by alacrima, achalasia, adrenal insufficiency (glucocorticoid in the majority of cases) and autonomic/neurological abnormalities. This disease is now known to be caused by mutation in the AAAS gene located on chromosome 12q13. Diagnosis should be readily available when the full-blown features are there, but it becomes less apparent when presentation is atypical or in the evolving process. We present a brother and sister (12 and 19 y old, respectively) born to consanguineous parents of Palestinian origin with Allgrove syndrome. The index patient was erroneously diagnosed to be a case of familial dysautonomia before the diagnosis of adrenal insufficiency was made at the age of 7.5 y, while his elder sister had only alacrima from birth and developed achalasia at the age of 15 y. She started to develop early evidence of adrenal disease at the age of 19 y. Both of them had neuroautonomic dysfunction. The diagnosis of Allgrove syndrome was confirmed in these two patients by studying the gene mutation in the family. The sequencing of the AAAS gene in the two patients identified a novel homozygous mutation within intron 5 (IVS5+1G-->A). Both parents as well as all three other children were heterozygous for the same mutation. CONCLUSION: These two cases illustrate the heterogenous nature and the intrafamilial phenotypic variability of Allgrove syndrome.     

Feminising surgery in male pseudohermaphrodites

In the framework of the international project between the paediatric surgery clinics of Kaunas Medical University and Copenhagen University Hospital, 34 patients raised as females were examined and treated. Eighteen patients were affected by androgen insensitivity syndrome, and16 patients by mixed gonadal dysgenesis. All patients had a Y chromosome, although external genitalia was either typically female or had mixed features of both sexes. The particulars of diagnostics and treatment are discussed, focusing on surgical complications.     

A novel mutation of the growth hormone receptor gene (GHR) in a Chinese girl with Laron syndrome

Laron syndrome, also known as growth hormone insensitivity syndrome (GHIS), is an autosomal recessive genetic disorder associated with severe postnatal growth failure, and normal and/or elevated growth hormone. This disease is frequently caused by a point mutation in the growth hormone receptor gene (GHR). Here, we identified a novel homozygous substitution mutation (E42K: GAG-->AAG at codon 42 cDNA) of the GHR gene in a Chinese girl with Laron syndrome. This mutation was predicted to impair the GHR binding affinity to human growth hormone (hGH), and was responsible for low levels of insulin-like growth factor (IGF)-I, IGF binding protein (IGFBP)-3, and GH binding protein (GHBP) in serum.     

A novel mutation of the 5alpha-reductase type 2 gene in two unrelated Egyptian children with ambiguous genitalia

OBJECTIVE: To establish an etiological diagnosis in two unrelated Egyptian children with ambiguous genitalia through biochemical and molecular analyses. PATIENTS AND METHODs: Two XY patients were referred: one at the age of 14 years presenting with delayed puberty and menarche and the second at the age of 4 months with ambiguous genitalia. Basal and post-HCG stimulation plasma levels of testosterone (T) and dihydrotestosterone (DHT) were determined. Direct sequencing of the five exons of the 5alphaR type 2 gene and exons 2 to 8 of the androgen receptor gene was carried out. RESULTS: The high T/DHT value indicated 5alphaR deficiency in the first patient while the absence of parental consanguinity along with normal T/DHT value in the second patient suggested androgen insensitivity. In both patients, we identified a homozygous A --> G mutation in exon 3 that replaced the asparagine residue at position 160 by an aspartic acid. The parents of both patients were all heterozygotes for the N160D substitution. CONCLUSIONS: 1) We report a new mutation that enlarges the spectrum of genetic defects in 5alphaR deficiency. 2) Although the two patients were referred at very different ages, the clinical presentations raise the possibility of phenotypic variability for the same mutation. 3) These reports underline the difficulty of diagnosing 5alphaR deficiency based only on clinical and biochemical grounds. Molecular study remains the only definitive tool for diagnosis of ambiguous genitalia.