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Inicio Endocrinología, Diabetes y Nutrición 5-Alpha-reductase type 2 deficiency. A new case in the Spanish population
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Vol. 69. Núm. 5.
Páginas 384-386 (mayo 2022)
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Vol. 69. Núm. 5.
Páginas 384-386 (mayo 2022)
Scientific letter
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5-Alpha-reductase type 2 deficiency. A new case in the Spanish population
Déficit de la 5-alfa-reductasa tipo 2. Un nuevo caso en la población española
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Mikel González Fenándeza, Isabel Esteva de Antoniob, Idoia Martínez de la Piscina Martínc, Jorge Soler Martínezd, María Cruz Almaraz Almarazb,
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a Endocrinology and Nutrition Department of University Hospital Miguel Servet, Zaragoza, Spain
b Endocrinology and Nutrition Department, Gender Identity Unity, Regional University Hospital of Málaga, IBIMA, CIBERDEM, Málaga, Spain
c Biocruces Bizkaia Health Research Institute, Cruces University Hospital, UPV/EHU, CIBERER, CIBERDEM, ENDO-ERN, Plaza de Cruces 12, 48903 Barakaldo, Spain
d Urology Department, Regional University Hospital of Málaga, Málaga, Spain
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The 5-alpha-reductase type 2 deficiency (5α-RD2) is a rare autosomal recessive 46, XY disorder of sexual development (DSD), resulting in the inability to convert testosterone (T) to dihydrotestosterone (DHT), an NADPH dependent process catalysed by the membrane-bound steroid 5α-RD2.1 Individuals are usually identified as female in childhood but undergo virilisation at puberty. For this reason gender dysphoria in individuals raised as female is very prevalent, reaching 63% according to Cohen et al.2

Although the disease is rare among Caucasians, there is a high prevalence in the population of Dominican Republic due to consanguineous marriages. It is also prevalent in other regions like Papua New Guinea.3

Clinical presentations are much broader than the original phenotype. Many people with 5α-RD2 deficiency are usually identified in the neonatal period because of ambiguous genitalia and some are misdiagnosed with androgen insensitivity syndrome. During puberty, an increase in male sex hormones leads to the development of some secondary sex characteristics.

We report a 16-year-old woman from Almeria (Spain), born and raised as a female, suffering from 5α-RD2 deficiency, and who presented with tall size and primary amenorrhoea. There was no history of personal or familiar significant medical illness. There was no history of consanguinity between her parents. On examination, blood pressure was 123/69mmHg. She weighed 91.5kg, height was 184cm (body mass index of 27kg/m2). General physical examination was within normal limits (no features suggestive of hypothyroidism, Cushing's syndrome or acromegaly). External genitalia examination revealed clitoromegaly. Gonads were palpable in the inguinal canal bilaterally, there was neither breast development (Tanner stage I) nor signs of hirsutism. She underwent a gynaecological ultrasound examination which showed a 1cm blind vaginal pouch. Magnetic resonance shows no remnants of female genital organs or prostatic organs, a suggestive image of small cavernous sinuses with a hypoplasic penis and an image of both rounded inguinal undescended testicles.

Laboratory investigations showed normal hemogram, glucose, renal and liver function tests, and serum electrolytes. In view of tall size and primary amenorrhoea, we measured; serum total testosterone 4.5ng/ml (raised considering female reference intervals (FRI) 0.1–0.8) (male RI (MRI) 2.8–8), estradiol 51pg/ml (MRI 7.63–42.6), LH 6.22mUI/ml (MRI 1.4–7.7), FSH 3.95mUI/ml (RI 1.5–14). 17-OH progesterone, DHEAS, thyroid profile, ACTH, cortisol, IGF-1 and prolactin were all normal. Chromosomal study revealed a 46 XY karyotype. The diagnosis of 5α-RD2 deficiency was suspected based on clinical and biochemical findings. DSD targeted gene panel sequencing identified a homozygous T to G change at c.271 in exon 1 of the coding SRD5A2 sequence, which is predicted to result in a p.Tyr91Asp alteration. Parents were both carriers of the same heterozygous variant. This pathogenic mutation has been previously described by Wilson et al.4

After the diagnosis treatment was initiated with cutaneous estradiol and GnRH analogues. The gonads were recently removed and nowadays only needs cutaneous estradiol and vaginoplasty is pending.

The diagnosis of DSD in a 46 XY individual is a complex process due to the broad spectrum of phenotypic manifestations and the vast number of causes that can originate them. From the first case reported of a 5α-RD2 deficiency in 1961 by Nowkowski and Lenz5 to date, the number of gender role changes is higher than in other intersex conditions. There are several factors that may determine whether these individuals, who were raised as girls, change to a male social sex after puberty.

The tendency to the male gender identity and role can be explained by the prenatal exposure of the brain to androgens, coupled with postnatal and puberty virilisation. It is possible that androgen exposure is more important than sex of rearing or sociocultural influences.4 However cultural advantages of the male role, family desire and genital appearance might be other factors in the decision. In three cohorts including 136 affected individuals the predominant sex of rearing was female and the rate of social sex change differs. In Sao Paulo and in Dallas cohorts the prevalence of social sex change was around 50%.4–6 In the French cohort,7 the percentage was 12%. These differences are possibly due to differences in the age of diagnosis.

This case is a novelty because there are only two cases reported in the Spanish population (Sanlucar, Cadiz) and there was no data about the genetics. Although the age of the diagnosis was very similar, there are several differences between the cases. In Aguilar-Diosdado8 there were ambiguous genitalia, and the diagnosis was made biochemically with elevated ratios of serum T to DHT. In contrast, in our case there was female genitalia and the diagnosis was made locating the mutation. The final difference is that in the case we report, female identity was maintained, whereas in the other cases they change to male identity.

Nowadays the mutational analysis of the SRD5A2 gene is indicated as the first approach9 because the biochemical diagnosis is not reliable enough. The 5α-RD2 gene is located on the short arm of chromosome 2p23. It contains four introns and five exons and encodes a 254 aminoacid protein.9 Mutations have been found in all five exons of the coding regions. To date, around 90 mutations have been described. Although correlation between the type of mutation and change to male social sex in adulthood was not established, mutations result in a variability of enzymatic disfunctions and phenotype.10 The Tyr91Asp mutation causes impaired 5α-RD2 activity in genital skin fibroblasts.4 A correlation between the severity of the clinical manifestations and the degree of the impairment of enzyme activity has been described10 though, the same mutation can result in phenotype variability ranging from female phenotype to partially virilised external genitalia. Indeed, phenotype variability has been described in siblings with the same compound heterozygous mutation.9 This may indicate that other factors, such as environmental elements contribute to the varying clinical manifestations of the disease.10

References
[1]
P.E. Belchetz.
The testis.
Clinical endocrinology, 1st ed., pp. 1-18
[2]
P.T. Cohen-Kettenis.
Gender change in 46, XY persons with 5a-reductase-2 deficiency and 17beta-hydroxysteroid dehydrogenase-3 deficiency.
Arch Sex Behav, 34 (2005), pp. 399-410
[3]
C.K. Cheon.
Practical approach to steroid 5 alpha-reductase type 2 deficiency.
Eur J Pediatr, 170 (2011), pp. 1-8
[4]
J.D. Wilson, J.E. Griffin, D.W. Russell.
Steroid 5 alpha-reductase 2 deficiency.
Endocr Rev, 14 (1993), pp. 577-593
[5]
H. Nowakowski, W. Lenz.
Genetic aspects of male hypogonadism.
Rec Prog Horm Res, 17 (1961), pp. 53-89
[6]
J. Griffin, M. McPhaul, D. Russell, J. Wilson.
The androgen resistance syndrome: steroid 5a-reductase 2 deficiency, testicular feminization, and related disordes.
The metabolic and molecular bases of inherited disease, 7th ed., pp. 2967
[7]
E.M. Costa, S. Domenice, M.H. Sircili, M. Inacio, B.B. Mendonca.
DSD due to 5 alpha-reductase 2 deficiency—from diagnosis to long term outcome.
Semin Reprod Med, 30 (2012), pp. 427-431
[8]
M. Aguilar-Diosdado, I. Gavilán-Villarejo, L. Escobar-Jimenez, J. Beitrán, J.A. Giron.
Male pseudohermaphroditism with 5-α-reductase deficiency: Report of two new familial cases. The importance of early diagnosis.
J Pediatr Endocrinol Metab, 8 (1995), pp. 67-71
[9]
L. Maimoun, P. Philibert, B. Cammas, F. Audran, P. Bouchard, P. Fenichel, et al.
Phenotypical, biological, and molecular heterogeneity of 5alpha-reductase deficiency: an extensive international experience of 55 patients.
J Clin Endocrinol Metab, 96 (2011), pp. 296-307
[10]
W.C. Wigley, J.S. Prihosa, I. Mowszowicz, B.B. Mendonca, M.I. New, J.D. Wilson, et al.
Natural mutagenesis study of the human steroid 5 alphareductase 2 isozyme.
Biochemistry, 33 (1994), pp. 1265-1270
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