Identification of an <i>AR</i> Mutation-Negative Class of Androgen Insensitivity by Determining Endogenous AR Activity

Hornig, Nadine; Ukat, Martin; Schweikert, Hans-Udo; Hiort, Olaf; Werner, Ralf; Drop, Stenvert L. S.; Cools, Martine; Hughes, Ieuan A.; Audí, Laura; Ahmed, S Faisal; Demiri, Jeta; Rodens, Pascal; Worch, Lisa; Wehner, G. R.; Kulle, Alexandra; Dunstheimer, Desirée; Müller-Rossberg, Elke; Reinehr, Thomas; Hadidi, Ahmed T; Eckstein, Anne Katrin; Horst, Christof van der; Seif, C.; Siebert, Reiner; Ammerpohl, Ole; Holterhus, Paul‐Martin

doi:10.1210/jc.2016-1990

Cited by 68 publications

(53 citation statements)

References 35 publications

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“…In men and women with partial AIS (PAIS), the phenotype is highly variable, depending on the degree of residual androgen activity and other modifying factors [1]. Whereas a likely pathogenic variant in AR can be identified in 85% of women who have CAIS, this is only the case in less than 30% of individuals who have clinical features suggestive of PAIS, suggesting that other mechanisms affect androgen signalling [2]. Providing care for individuals with AIS is best performed in a multidisciplinary setting and may be challenging [3-6].…”

Section: Introductionmentioning

confidence: 99%

Management of Gonads in Adults with Androgen Insensitivity: An International Survey

et al. 2018

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Background: Complete and partial androgen insensitivity syndrome (CAIS, PAIS) are associated with an increased risk of gonadal germ cell cancer (GGCC). Recent guidelines recommend gonadectomy in women with CAIS in late adolescence. Nevertheless, many adult women prefer to retain their gonads. Aims: This study aims to explore attitudes towards gonadectomy in AIS in centres around the world, estimate the proportion of adults with retained gonads and/or who developed GGCC, and explore reasons for declining gonadectomy. Methods: A survey was performed among health care professionals who use the International DSD Registry (I-DSD). Results: Data were provided from 22 centres in 16 countries on 166 women (CAIS) and 26 men (PAIS). In CAIS, gonadectomy was recommended in early adulthood in 67% of centres; 19/166 (11.4%) women refused gonadectomy. Among 142 women who had gonadectomy, evidence of germ cell neoplasm in situ (GCNIS), the precursor of GGCC, was reported in 2 (1.4%) out of 8 from whom pathology results were formally provided. Nine out of 26 men with PAIS (34.6%) had retained gonads; 11% of centres recommended routine gonadectomy in PAIS. Conclusion: Although development of GGCC seems rare, gonadectomy after puberty is broadly recommended in CAIS; in PAIS this is more variable. Overall, our data reflect the need for evidence-based guidelines regarding prophylactic gonadectomy in AIS.

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Section: Introductionmentioning

confidence: 99%

Management of Gonads in Adults with Androgen Insensitivity: An International Survey

et al. 2018

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“…A firm diagnosis of AIS requires the confirmation of a mutation in the androgen receptor gene (AR). However, recent studies suggest that the molecular genetic abnormality in AR may not necessarily reside in the conventional coding region within the gene (38). Whilst there is a school of thought that molecular genetic investigations can be performed in parallel with biochemical evaluation, the current study suggests that the utility of conventional biochemical investigations such as the hCG stimulation test, itself, can include a molecular genetic component that aids the diagnosis of androgen deficiency and perhaps, androgen resistance.…”

Section: Figurementioning

confidence: 87%

“…Although androgen-responsive circulating proteins such as SHBG have been measured previously (6), this test has not been considered to be sufficiently reliable to become common practice. More recently, another androgenresponsive protein in the genital skin fibroblasts has been reported to have a greater discriminant value for androgen sensitivity (38). Genital skin fibroblast studies have also previously reported an androgen-dependent transcriptome, which could differentiate between people with and without androgen sensitivity (3).…”

Section: Figurementioning

confidence: 95%

Androgen-responsive non-coding small RNAs extend the potential of HCG stimulation to act as a bioassay of androgen sufficiency

Rodie

Mudaliar²,

Herzyk

et al. 2017

European Journal of Endocrinology

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Background: It is unclear whether a short-term change in circulating androgens is associated with changes in the transcriptome of the peripheral blood mononuclear cells (PBMC). Aims and methods:To explore the effect of hCG stimulation on the PBMC transcriptome, 12 boys with a median age (range) of 0.7 years (0.3, 11.2) who received intramuscular hCG 1500u on 3 consecutive days as part of their investigations underwent transcriptomic array analysis on RNA extracted from peripheral blood mononuclear cells before and after hCG stimulation. Results: Median pre-and post-hCG testosterone for the overall group was 0.7 nmol/L (<0.5, 6) and 7.9 nmol/L (<0.5, 31.5), respectively. Of the 12 boys, 3 (25%) did not respond to hCG stimulation with a pre and post median serum testosterone of <0.5 nmol/L and <0.5 nmol/L, respectively. When corrected for gene expression changes in the nonresponders to exclude hCG effects, all 9 of the hCG responders consistently demonstrated a 20% or greater increase in the expression of piR-37153 and piR-39248, non-coding PIWI-interacting RNAs (piRNAs). In addition, of the 9 responders, 8, 6 and 4 demonstrated a 30, 40 and 50% rise, respectively, in a total of 2 further piRNAs. In addition, 3 of the responders showed a 50% or greater rise in the expression of another small RNA, SNORD5. On comparing fold-change in serum testosterone with fold-change in the above transcripts, a positive correlation was detected for SNORD5 (P = 0.01). Conclusions: The identification of a dynamic and androgen-responsive PBMC transcriptome extends the potential value of the hCG test for the assessment of androgen sufficiency.

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“…An example is the assay that uses DHT-dependent transcriptional induction of the androgen receptor (AR) target gene apolipoprotein D in genital skin fibroblasts to assess androgen action [Hornig et al, 2016]. This assay is able to discriminate between individuals with androgen insensitivity caused by an AR mutation and unaffected individuals.…”

Section: Novel Testsmentioning

confidence: 99%

Improving Laboratory Assessment in Disorders of Sex Development through a Multidisciplinary Network

Hannema¹,

Rijke²

2018

Sex Dev

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The aim of the European Reference Network for Rare Endocrine Disorders (Endo-ERN) is to ensure equal access to high-quality care for all those affected by a rare endocrine condition across Europe, such as a disorder/difference of sex development (DSD), both for children and adults. Although differences in resources, health care systems, and health insurances between the European countries are challenging and require political action, a European laboratory network within Endo-ERN could improve the diagnostic process in individuals with DSD, building on the work done by previous European collaborations such as the COST action DSDnet. In close collaboration, clinicians and laboratory specialists must make every effort to standardize diagnostic protocols, achieve necessary harmonization of various laboratory tests, e.g., the hCG stimulation test, and implement an external quality control system. This should ideally result in comparable quality across the network centers allowing the sharing of reference values. This would not only improve patient care but also greatly facilitate research.

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Identification of an AR Mutation-Negative Class of Androgen Insensitivity by Determining Endogenous AR Activity

Cited by 68 publications

References 35 publications

Management of Gonads in Adults with Androgen Insensitivity: An International Survey

Management of Gonads in Adults with Androgen Insensitivity: An International Survey

Androgen-responsive non-coding small RNAs extend the potential of HCG stimulation to act as a bioassay of androgen sufficiency

Improving Laboratory Assessment in Disorders of Sex Development through a Multidisciplinary Network

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