Esther M. Nitsche scite author profile

The SHBG test provides functional information about the severity of the receptor defect in vivo and hence adds to the structural information provided by DNA analysis. It detects receptor defects due to mutations within the entire gene, including the DNA-binding domain, and is a rapid, simple, and cost effective procedure. It may provide useful information for the diagnosis and management of affected children.

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Inherited and de novo androgen receptor gene mutations: Investigation of single-case families

Hiort¹,

Sinnecker²,

Holterhus³

et al. 1998

The Journal of Pediatrics

102

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The clinical and molecular spectrum of androgen insensitivity syndromes

et al. 1996

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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.

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Differential display RT PCR of total RNA from human foreskin fibroblasts for investigation of androgen-dependent gene expression

et al. 1996

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Male sexual differentiation is a process that involves androgen action via the androgen receptor. Defects in the androgen receptor, many resulting from point mutations in the androgen receptor gene, lead to varying degrees of impaired masculinization in chromosomally male individuals. To date no specific androgen regulated morphogens involved in this process have been identified and no marker genes are known that would help to predict further virilization in infants with partial androgen insensitivity. In the present study we first show data on androgen regulated gene expression investigated by differential display reverse transcription PCR (dd RT PCR) on total RNA from human neonatal genital skin fibroblasts cultured in the presence or absence of 100 nM testosterone. Using three different primer combinations, 54 cDNAs appeared to be regulated by androgens. Most of these sequences show the characteristics of expressed mRNAs but showed no homology to sequences in the database. However 15 clones with significant homology to previously cloned sequence were identified. Seven cDNAs appear to be induced by androgen withdrawal. Of these, five are similar to ETS (expression tagged sequences) from unknown genes; the other two show significant homology to the cDNAs of ubiquitin and human guanylate binding protein 2 (GBP‐2). In addition, we have identified 8 cDNA clones which show homologies to other sequences in the database and appear to be upregulated in the presence of testosterone. Four of these clones again are similar to ETS from unknown genes. Three differential expressed sequences that appear to be upregulated in the presence of testosterone show significant homology to the cDNAs of L‐plastin and one to the cDNA of testican. This latter gene codes for a proteoglycan involved in cell social behavior and therefore of special interest in this context. The results of this study are of interest in further investigation of normal and disturbed androgen‐dependent gene expression. © 1996 Wiley‐Liss, Inc.

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The Molecular Basis of Androgen Insensitivity

Nitsche

Hiort²

2000

Horm Res Paediatr

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Androgen action is mediated in the peripheral target cell via the androgen receptor (AR). The AR is a nuclear transcription factor, combining a DNA-binding and a hormone-binding domain with a large transactivation unit. Androgen insensitivity syndrome (AIS) as the clinical entity of defective androgen action with variable phenotypes in 46,XY patients is caused by mutations of the X-chromosomal AR gene. Most variations in the AR gene are point mutations inhibiting either hormone or DNA binding. However, even within the same family, the phenotype for a given mutation can vary widely. Only few influential factors have been identified for the phenotypic diversity. For mutations affecting hormone binding, ligand concentration variability during fetal life may be an important influence on residual androgen action. A second factor is the occurrence of postzygotic de novo mutations, which are present at a high rate in single-case families. These somatic mutations lead to expression of both mutant and wild-type AR in a single patient and thus allow androgen action despite a deleterious mutation of the AR gene. Third, residual androgen response may be mediated by additional transcripts of the AR gene which are present in several cell types and can be affected in a different pattern by splice-site mutations. Whether differential expression of AR-interacting proteins has an influence on phenotype has not yet been proven. Moreover, little is known about the regulation of AR-dependent genes. Their identification is needed to understand post-AR action and, hence, androgenic control of sexual differentiation and maturation.

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Esther M. Nitsche

Functional assessment and clinical classification of androgen sensitivity in patients with mutations of the androgen receptor gene

Inherited and de novo androgen receptor gene mutations: Investigation of single-case families

The clinical and molecular spectrum of androgen insensitivity syndromes

Differential display RT PCR of total RNA from human foreskin fibroblasts for investigation of androgen-dependent gene expression

The Molecular Basis of Androgen Insensitivity

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