- Congenital adrenal hyperplasia due to 3 beta-hydroxysteroid dehydrogenase deficiency
Congenital adrenal hyperplasia due to 3 beta-hydroxysteroid dehydrogenase deficiency Classification and external resources
ICD-10 E25.0 ICD-9 255.2 OMIM 201810 DiseasesDB 4 eMedicine ped/1051 MeSH D000312
3β-Hydroxysteroid dehydrogenase II deficient congenital adrenal hyperplasia (3βHSD CAH) is an uncommon form of CAH resulting from a mutation in the gene for one of the key enzymes in cortisol synthesis by the adrenal gland, 3β-hydroxysteroid dehydrogenase (3βHSD) type II (HSD3B2). As a result, higher levels of 17OH-pregnenolone appear in the blood with ACTH challenge, which stimulates adrenal corticosteroid synthesis.
There is a wide spectrum of clinical presentations of 3βHSD CAH, from mild to severe forms. The uncommon severe form results from a complete loss of enzymatic activity and manifests itself in infancy as salt wasting due to the loss of mineralocorticoids. Milder forms resulting from incomplete loss of 3βHSD type II function do not present with adrenal crisis, but can still produce virilization of genetically female infants and undervirilization of genetically male infants. As a result, this form of primary hypoadrenalism is the only form of CAH that can cause ambiguous genitalia in both genetic sexes.
3β-HSD II mediates three parallel dehydrogenase/isomerase reactions in the adrenals that convert Δ4 to Δ5 steroids: pregnenolone to progesterone, 17-Hydroxypregnenolone to 17-Hydroxyprogesterone, and DHEA to androstenedione. 3β-HSD II also mediates an alternate route of testosterone synthesis from androstenediol in the testes. 3β-HSD deficiency results in large elevations of pregnenolone, 17-hydroxypregnenolone, and DHEA.
However, complexity arises from the presence of a second 3β-HSD (3β-HSD I) coded by a different gene, expressed in the liver and placenta, and unaffected in 3β-HSD deficient CAH. The presence of this second enzyme has two clinical consequences. First, 3β-HSD II can convert enough of the excess 17-hydroxypregnenolone to 17OHP to produce 17OHP levels suggestive of common 21-hydroxylase deficient CAH. Measurement of the other affected steroids distinguishes the two. Second, 3β-HSD I can convert enough DHEA to testosterone to moderately virilize a genetically female fetus.
Mineralocorticoid aspects of 3β-HSD CAH
The mineralocorticoid aspect of severe 3β-HSD CAH is similar to those of 21-hydroxylase deficiency. Like other enzymes involved in early stages of both aldosterone and cortisol synthesis, the severe form of 3β-HSD deficiency can result in life-threatening salt-wasting in early infancy. Salt-wasting is managed acutely with saline and high-dose hydrocortisone, and long-term fludrocortisone.
Sex steroid aspects of 3β-HSD CAH
The sex steroid consequences of severe 3β-HSD CAH are unique among the congenital adrenal hyperplasias: it is the only form of CAH that can produce ambiguity in both sexes. As with 21-hydroxylase deficient CAH, the degree of severity can determine the magnitude of over- or undervirilization.
In an XX (genetically female) fetus, elevated amounts of DHEA can produce moderate virilization by conversion in the liver to testosterone. Virilization of genetic females is partial, often mild, and rarely raises assignment questions. The issues surrounding corrective surgery of the virilized female genitalia are the same as for moderate 21-hydroxylase deficiency but surgery is rarely considered desirable.
The extent to which mild 3β-HSD CAH can cause early appearance of pubic hair and other aspects of hyperandrogenism in later childhood or adolescence is unsettled. Early reports about 20 years ago suggesting that mild forms of 3β-HSD CAH comprised significant proportions of girls with premature pubic hair or older women with hirsutism have not been confirmed and it now appears that premature pubarche in childhood and hirsutism after adolescence are not common manifestations of 3β-HSD CAH.
Undervirilization of genetic males with 3β-HSD CAH occurs because synthesis of testosterone is impaired in both adrenals and testes. Although DHEA is elevated, it is a weak androgen and too little testosterone is produced in the liver to offset the deficiency of testicular testosterone. The degree of undervirilization is more variable, from mild to severe. Management issues are those of an undervirilized male with normal sensitivity to testosterone.
If the infant boy is only mildly undervirilized, the hypospadias can be surgically repaired, testes brought into the scrotum, and testosterone supplied at puberty.
Management decisions are more difficult for a moderately or severely undervirilized genetic male whose testes are in the abdomen and whose genitalia look at least as much female as male. Male sex can assigned and major reconstructive surgery done to close the midline of the perineum and move the testes into a constructed scrotum. Female sex can be assigned and the testes removed and vagina enlarged surgically. A recently advocated third choice would be to assign either sex and defer surgery to adolescence. Each approach carries its own disadvantages and risks. Children and their families are different enough that none of the courses is appropriate for all.
Like the other forms of CAH, suspicion of severe 3β-HSD CAH is usually raised by the appearance of the genitalia at birth or by development of a salt-wasting crisis in the first month of life. The diagnosis is usually confirmed by the distinctive pattern of adrenal steroids: elevated pregnenolone, 17-hydroxypregnenolone, DHEA, and renin. In clinical circumstances this form of CAH has sometimes been difficult to distinguish from the more common 21-hydroxylase deficient CAH because of the 17OHP elevation, or from simple premature adrenarche because of the DHEA elevation.
Management of 3β-HSD II deficient CAH after infancy
Some of the childhood management issues are similar those of 21-hydroxylase deficiency:
- replacing mineralocorticoid with fludrocortisone;
- suppressing DHEA and replacing cortisol with glucocorticoid;
- providing extra glucocorticoid for stress;
- close monitoring and perhaps other adjunctive measures to optimize growth.
- deciding whether surgical repair of virilized female genitalia is warranted
However, unlike 21-hydroxylase CAH, children with 3β-HSD CAH may be unable to produce adequate amounts of testosterone (boys) or estradiol (girls) to effect normal pubertal changes. Replacement testosterone or estrogen and progesterone can be initiated at adolescence and continued throughout adult life. Fertility may be impaired by the difficulty of providing appropriate sex hormone levels in the gonads even though the basic anatomy is present.
- ^ Simard J, Moisan AM, Morel Y (August 2002). "Congenital adrenal hyperplasia due to 3beta-hydroxysteroid dehydrogenase/Delta(5)-Delta(4) isomerase deficiency". Semin. Reprod. Med. 20 (3): 255–76. doi:10.1055/s-2002-35373. PMID 12428206.
- ^ Congenital Adrenal Hyperplasia, P Stewart, Chapter 14, Section IV, Williams Textbook of Endocrinology, 11th edition, Elsevier, 2008, p. 485-494.
Endocrine pathology: endocrine diseases (E00–E35, 240–259) Pancreas/
pituitary axesHypothalamusPituitaryThyroidEndemic goitre · Toxic nodular goitre · Toxic multinodular goiter
Height Multiple Inborn error of steroid metabolism Mevalonate pathway To cholesterol SteroidsTo androgensTo estrogensAromatase deficiencyOther
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