Mechanism for the development of ovarian cysts in patients with congenital lipoid adrenal hyperplasia

Two Girls With Adrenal Insufficiency and Failing Gonads

Congenital lipoid adrenal hyperplasia (CLAH) is a rare cause of adrenal insufficiency caused by mutations in the steroidogenic acute regulatory (StAR) gene. Patients classically present with adrenal crisis in early infancy and female external genitalia irrespective of chromosomal sex. We report 2 Chinese patients with normal female external genitalia presenting with salt wasting in the neonatal period. However, the diagnosis of CLAH was made only during pubertal years when they developed hypergonadotropic hypogonadism. One of them was subsequently found to have a 46XY karyotype and gonadectomy was performed at age 15 years. The other patient developed gonadal insufficiency and polycystic ovaries after menarche with hemorrhage into ovarian cysts requiring cystectomy. These 2 cases illustrate the importance of recognizing atypical features in neonates presenting with adrenal crisis. In managing the newborn with adrenal insufficiency and female-appearing external genitalia, the possibility of sex reversal and diagnosis of CLAH should be considered. Accurate delineation of internal pelvic organs using reliable imaging modalities or even laparoscopy, together with careful interpretation of clinical and laboratory findings, are crucial to accurate diagnosis and subsequent management.

Identification of five novel STAR variants in ten Chinese patients with congenital lipoid adrenal hyperplasia

Congenital lipoid adrenal hyperplasia (CLAH) is a rare autosomal recessive disorder caused by defective synthesis of all steroids. This disorder is characterized by 46,XY sex reversal, skin hyperpigmentation, early-onset adrenal crisis and enlarged adrenal with fatty accumulation. CLAH is caused by mutations in the STAR gene. The clinical features and STAR gene mutation spectrum of a large cohort of Chinese patients with CLAH were not reported previously. We performed clinical retrospective review and genetic analysis of the STAR gene in ten unrelated Chinese phenotypic female patients who were clinically diagnosed with CLAH and followed up in our hospital from 2006 to 2015. All ten patients, including two 46,XY females and eight 46,XX females, presented skin hyperpigmentation and early salt-wasting episode, and showed normal growth and development after steroid replacement treatment. Totally 20 mutant alleles containing 11 different STAR gene mutations were identified in these ten patients, including five novel variants (two missense and three null variants), all predicted to be pathogenic in bioinformatics analysis, and six mutations described in previous literature. Among these 11 mutations, a reported mutation c.772C>T and a novel variant c.707_708delinsCTT were most frequent, accounting for 35% and 15% of the total mutant alleles, respectively. This is the first report of a large Chinese cohort with CLAH, presenting the mutation spectrum of the STAR gene and two possible founder mutations in the Chinese population, which may contribute to better genetic counseling and prenatal diagnosis.

Role of the steroidogenic acute regulatory protein in health and disease

Steroid hormones are an important class of regulatory molecules that are synthesized in steroidogenic cells of the adrenal, ovary, testis, placenta, brain, and skin, and influence a spectrum of developmental and physiological processes. The steroidogenic acute regulatory protein (STAR) predominantly mediates the rate-limiting step in steroid biosynthesis, i.e., the transport of the substrate of all steroid hormones, cholesterol, from the outer to the inner mitochondrial membrane. At the inner membrane, cytochrome P450 cholesterol side chain cleavage enzyme cleaves the cholesterol side chain to form the first steroid, pregnenolone, which is converted by a series of enzymes to various steroid hormones in specific tissues. Both basic and clinical evidence have demonstrated the crucial involvement of the STAR protein in the regulation of steroid biosynthesis. Multiple levels of regulation impinge on STAR action. Recent findings demonstrate that hormone-sensitive lipase, through its action on the hydrolysis of cholesteryl esters, plays an important role in regulating STAR expression and steroidogenesis which involve the liver X receptor pathway. Activation of the latter influences macrophage cholesterol efflux that is a key process in the prevention of atherosclerotic cardiovascular disease. Appropriate regulation of steroid hormones is vital for proper functioning of many important biological activities, which are also paramount for geriatric populations to live longer and healthier. This review summarizes the current level of understanding on tissue-specific and hormone-induced regulation of STAR expression and steroidogenesis, and provides insights into a number of cholesterol and/or steroid coupled physiological and pathophysiological consequences.

STAR splicing mutations cause the severe phenotype of lipoid congenital adrenal hyperplasia: insights from a novel splice mutation and review of reported cases

OBJECTIVE

The steroidogenic acute regulatory protein (StAR) transports cholesterol to the mitochondria for steroidogenesis. Loss of StAR function causes lipoid congenital adrenal hyperplasia (LCAH) which is characterized by impaired synthesis of adrenal and gonadal steroids causing adrenal insufficiency, 46,XY disorder of sex development (DSD) and failure of pubertal development. Partial loss of StAR activity may cause adrenal insufficiency only.

PATIENT

A newborn girl was admitted for mild dehydration, hyponatremia, hyperkalemia and hypoglycaemia and had normal external female genitalia without hyperpigmentation. Plasma cortisol, 17OH-progesterone, DHEA-S, androstendione and aldosterone were low, while ACTH and plasma renin activity were elevated, consistent with the diagnosis of primary adrenal insufficiency. Imaging showed normal adrenals, and cytogenetics revealed a 46,XX karyotype. She was treated with fluids, hydrocortisone and fludrocortisone.

DESIGN, METHODS AND RESULTS

Genetic studies revealed a novel homozygous STAR mutation in the 3' acceptor splice site of intron 4, c.466-1G>A (IVS4-1G>A). To test whether this mutation would affect splicing, we performed a minigene experiment with a plasmid construct containing wild-type or mutant StAR gDNA of exons-introns 4-6 in COS-1 cells. The splicing was assessed on total RNA using RT-PCR for STAR cDNAs. The mutant STAR minigene skipped exon 5 completely and changed the reading frame. Thus, it is predicted to produce an aberrant and shorter protein (p.V156GfsX19). Computational analysis revealed that this mutant protein lacks wild-type exons 5-7 which are essential for StAR-cholesterol interaction.

CONCLUSIONS

STAR c.466-1A skips exon 5 and causes a dramatic change in the C-terminal sequence of the protein, which is essential for StAR-cholesterol interaction. This splicing mutation is a loss-of-function mutation explaining the severe phenotype of our patient. Thus far, all reported splicing mutations of STAR cause a severe impairment of protein function and phenotype.

Long-term clinical data and molecular defects in the STAR gene in five Greek patients

CONTEXT

Steroidogenic acute regulatory (STAR) gene mutations lead to adrenal and gonadal failure. Interesting, though as yet unexplained, features are the formation of ovarian cysts and the potential presence of CNS findings.

OBJECTIVE

To report biochemical, genetic, and long-term clinical data in five Greek patients from four different families with STAR gene defects (three 46,XX and two 46,XY).

METHODS AND RESULTS

All patients presented in early infancy with adrenal insufficiency. The STAR gene mutation c.834del11bp, detected in three of our patients, completely alters the carboxyl end of the STAR protein and has not thus far been described in other population groups. These three patients belong to three separate families, possibly genetically related, as they live in different villages located in a small region of a Greek island. However, their interrelationship has not been proven. A second mutation, p.W250X, detected in our fourth family, was previously described only in two Serbian patients. Ovarian cysts were detected ultrasonographically in our 46,XX patients and seemed to respond to a low dose of a contraceptive. The histology of an excised ovarian cyst was diagnosed as a corpus luteum (CL) cyst. In two out of the four patients who had undergone brain magnetic resonance imaging, asymptomatic Chiari-1 malformation was observed.

CONCLUSIONS

The occurrence of STAR gene mutation c.834del11bp in three families living in a restricted geographic region could indicate either a founder effect or simply reflect a spread of this defect in a highly related population. The ovarian histological findings suggest that ovarian cysts detected ultrasonographically in 46,XX individuals with STAR gene defects may be CL cysts. The Chiari-1 malformation in two of our patients may be part of the STAR gene mutation phenotype. Nevertheless, more data are needed to confirm or disprove the existence of specific CNS pathology in patients with STAR gene mutations.

46,XX DSD and Antley-Bixler syndrome due to novel mutations in the cytochrome P450 oxidoreductase gene

Deficiency of the enzyme P450 oxidoreductase is a rare form of congenital adrenal hyperplasia with characteristics of combined and partial impairments in steroidogenic enzyme activities, as P450 oxidoreductase transfers electrons to CYP21A2, CYP17A1, and CYP19A1. It results in disorders of sex development and skeletal malformations similar to Antley-Bixley syndrome. We report the case of a 9-year-old girl who was born with virilized genitalia (Prader stage V), absence of palpable gonads, 46,XX karyotype, and hypergonadotropic hypogonadism. During the first year of life, ovarian cyst, partial adrenal insufficiency, and osteoarticular changes, such as mild craniosynostosis, carpal and tarsal synostosis, and limited forearm pronosupination were observed. Her mother presented severe virilization during pregnancy. The molecular analysis of P450 oxidoreductase gene revealed compound heterozygosis for the nonsense p.Arg223*, and the novel missense p.Met408Lys, inherited from the father and the mother, respectively. Arq Bras Endocrinol Metab. 2012;56(8):578-85

A giant ovarian cyst in a neonate with classical 21-hydroxylase deficiency with very high testosterone levels demonstrating a high-dose hook effect

Congenital adrenal hyperplasia (CAH) is a group of disorders affecting the adrenal steroid synthesis. The most common form, 21-hydroxylase deficiency (21-OHD), leads to decreased production of cortisol and aldosterone with increased androgen secretion. In classic CAH, glucocorticoid treatment can be life-saving and serves to bring the symptoms under control. However, the treatment challenge is to effectively control the excess androgen effect by using the lowest possible glucocorticoid dose. Previous studies suggested a relationship between ovarian cyst formation and adrenal androgen excess, but neonatal large ovarian cysts have been very rarely reported in newborns with CAH. Here, we present the unique case of a neonate with classical 21-OHD who underwent surgery for a giant (10x8x7 cm) unilateral solitary ovarian follicular cyst on the 2nd postnatal day. Hormonal evaluation of the patient revealed high-dose hook effect for serum testosterone levels for the first time by a two-site immunoradiometric assay. Possible mechanisms by which androgen excess may cause ovarian cyst formation are discussed.

Ovarian cyst torsion in a patient with congenital lipoid adrenal hyperplasia

Congenital lipoid adrenal hyperplasia (CLAH) is the most severe form of congenital adrenal hyperplasia, characterized by lack of synthesis of all gonadal and adrenal steroid hormones. Ovarian cysts can develop as complications of CLAH. However, the precise mechanism of development and natural history of such cysts in patients with CLAH have not yet been determined. We recently treated a 14-year-old female patient with CLAH and ovarian cyst torsion. As a neonate, she presented with vomiting, skin pigmentation, and electrolyte imbalance. At that time, her serum adrenocorticotropic hormone concentration was elevated, while 17-hydroxypregnenolone level was normal, as were her normal female external genitalia. Mutation analysis showed that she was homozygous for p.Q258X in the StAR gene. She underwent spontaneous puberty and menstruation. At 14 years of age, she received salpingo-oophorectomy because of ovarian cyst torsion presenting as acute pelvic pain. Ovarian cysts are important clinical manifestations in 46,XX patients with CLAH, although onset time and severity can vary depending on individuals. Thus, patients with CLAH should be carefully monitored for ovarian complications to preserve as much ovarian function as possible.

Pubertal presentation in seven patients with congenital adrenal hyperplasia due to P450 oxidoreductase deficiency

CONTEXT

P450 oxidoreductase (POR) is a crucial electron donor to all microsomal P450 cytochrome (CYP) enzymes including 17α-hydroxylase (CYP17A1), 21-hydroxylase (CYP21A2) and P450 aromatase. Mutant POR causes congenital adrenal hyperplasia with combined glucocorticoid and sex steroid deficiency. P450 oxidoreductase deficiency (ORD) commonly presents neonatally, with disordered sex development in both sexes, skeletal malformations, and glucocorticoid deficiency.

OBJECTIVE

The aim of the study was to describe the clinical and biochemical characteristics of ORD during puberty.

DESIGN

Clinical, biochemical, and genetic assessment of seven ORD patients (five females, two males) presenting during puberty was conducted.

RESULTS

Predominant findings in females were incomplete pubertal development (four of five) and large ovarian cysts (five of five) prone to spontaneous rupture, in some only resolving after combined treatment with estrogen/progestin, GnRH superagonists, and glucocorticoids. Pubertal development in the two boys was more mildly affected, with some spontaneous progression. Urinary steroid profiling revealed combined CYP17A1 and CYP21A2 deficiencies indicative of ORD in all patients; all but one failed to mount an appropriate cortisol response to ACTH stimulation indicative of adrenal insufficiency. Diagnosis of ORD was confirmed by direct sequencing, demonstrating disease-causing POR mutations.

CONCLUSION

Delayed and disordered puberty can be the first sign leading to a diagnosis of ORD. Appropriate testosterone production during puberty in affected boys but manifest primary hypogonadism in girls with ORD may indicate that testicular steroidogenesis is less dependent on POR than adrenal and ovarian steroidogenesis. Ovarian cysts in pubertal girls may be driven not only by high gonadotropins but possibly also by impaired CYP51A1-mediated production of meiosis-activating sterols due to mutant POR.

Polycystic ovaries and adrenal insufficiency in a young pubescent female with lipoid congenital adrenal hyperplasia due to splice mutation of the StAR gene: a case report and review of the literature

We report a case of Lipoid Congenital Adrenal Hyperplasia (LCAH) secondary to Steroidogenic Acute Regulatory (StAR) gene mutation in an adolescent female with bilateral ovarian cysts. StAR gene defects follow an autosomal recessive mode of inheritance and typically present with severe adrenal insufficiency during infancy. Both sexes can be affected equally. XY males often present with sex reversal, while XX females may develop gonadal failure later in life due to premature loss of ovarian follicles. Recently there have been reported cases of successful fertility outcomes in women with LCAH. In our case report, we describe the clinical, biochemical and molecular analysis of a 16 year-old XX adolescent female who was suspected of having LCAH upon discovery of bilateral ovarian cysts in the context of adrenal insufficiency. Examination of the StAR gene revealed a homozygous splice site mutation. The patient is currently undergoing estradiol therapy to suppress ovarian cyst formation.

Ovarian histological findings in an adult patient with the steroidogenic acute regulatory protein (StAR) deficiency reveal the impairment of steroidogenesis by lipoid deposition

CONTEXT

The steroidogenic acute regulatory protein (StAR) is essential for the production of steroid hormones. The mutations in the StAR gene typically cause congenital lipoid adrenal hyperplasia (lipoid CAH), characterized by severe adrenal insufficiency in both sexes and complete female external genitalia in genetic males. Affected 46, XX females feminize at puberty and menstruate but have progressive hypergonadotropic hypogonadism. It has been hypothesized that the cholesterol accumulation in the steroidogenic cells destroys the residual steroidogenic capacity and progressive ovarian failure occurs (two-hit model). Additionally, ovulation and luteinization in the patients is supposed to be impaired. However, those hypotheses have not been confirmed histologically.

OBJECTIVE

We examined whether pathological findings of the ovary in a patient of lipoid CAH corresponded with two-hit model, and whether ovulation and luteinization occurred or not in the patient.

SUBJECT

The ovary in an adult 46, XX female with a homozygous nonsense mutation (Q258X) in the StAR gene was examined. When the patient was age 22 yr, the ovary was resected because of enlargement with polycysts and subsequent torsion.

RESULT

The affected ovary demonstrated remarkable lipoid deposition and changes of the mitochondrial ultrastructure. Immunohistochemical examination showed decrease of steroidogenic enzymes such as P450 cholesterol side-chain cleavage (P450scc). Additionally, we detected corpus albicans in the affected ovary.

CONCLUSION

This is the first detailed report on ovarian histology in an adult 46, XX female with a null type mutation of the StAR gene (Q258X), which indicates the evidence of the impairment of ovarian StAR-independent steroidogenesis by lipoid deposition.

Mechanisms for cellular cholesterol transport: defects and human disease

This review summarizes the mechanisms of cellular cholesterol transport and monogenic human diseases caused by defects in intracellular cholesterol processing. In addition, selected mouse models of disturbed cholesterol trafficking are discussed. Current pharmacological strategies to prevent atherosclerosis are largely based on altering cellular cholesterol balance and are introduced in this context. Finally, because of the organizing potential of cholesterol in membranes, disturbances in cellular cholesterol transport have implications for a wide variety of human diseases, of which selected examples are given.

Clinical disorders associated with abnormal cholesterol transport: mutations in the steroidogenic acute regulatory protein

The transport of cholesterol to the inner mitochondrial membrane of steroidogenic cells constitutes the rate-limiting step in trophic hormone regulated steroid biosynthesis and requires de novo protein synthesis. Several years ago a candidate regulator protein was purified and its cDNA cloned from MA-10 mouse Leydig tumor cells. Expression of this protein resulted in an increase in steroidogenesis in unstimulated cells and it was named the Steroidogenic Acute Regulatory protein or StAR. Mutations in the StAR gene were found to be the cause of the potentially lethal disease in humans known as congenital lipoid adrenal hyperplasia (lipoid CAH), a condition characterized by an almost complete inability of the newborn to synthesize steroids. The defect in steroid synthesis in lipoid CAH is caused by the failure of affected individuals to transport cholesterol to the inner mitochondria membrane, thus proving the essential role of StAR in cholesterol transport. StAR null mice display a phenotype that is essentially identical to the human condition. In summary, both naturally occurring disorders in humans and genetic manipulation in mice have demonstrated that the StAR protein is an absolute requirement in the rate-limiting step in steroidogenesis, the transfer of cholesterol into the mitochondria.

Mutational analysis of StAR gene in adrenal tumors

Adrenal adenomas and carcinomas are mostly monoclonal, suggesting that a genetic alteration in a progenitor cell may contribute to their development. However, the molecular pathogenesis of these tumors still remains unclear. It has been already excluded that activating mutations of the ACTH receptor or of G protein stimulator alpha sub-units, affecting cAMP pathway, is involved in the tumorigenesis. Therefore, this work has been focused on post-transductional (ACTH) signal alterations and in particular on the mutational analysis of the Steroid Acute Regulatory protein (StAR) gene to verify whether somatic mutations or genomic polymorphisms of this gene may be correlated with adrenal tumorigenesis. Tissue DNA was extracted from 40 functional and non-functional adrenocortical tumors that were removed from patients aged between 17 and 72 years (mean 43 +/- 4). Blood DNA was obtained from 24 patients (aged between 26 and 70 years) affected by adrenal tumors and from 100 healthy subjects without radiological and clinical evidence of adrenal masses, aged between 25-35 years (90 Caucasians and 10 Africans). The DNA was used as the template for the amplification of the StAR gene using the polymerase chain reaction. The amplified DNA of each exon of the StAR gene was purified and sequenced in automatic sequenciator. With the exception of exon 5 showing in codon 203 an homozygous missense mutation, the sequence of the other exons of the StAR gene resulted normal in all tumors studied. The same homozygous mutation (Asp203Ala) was observed in the sequence of exon 5 performed on genomic DNA of the 24 affected patients and in the control subjects. The homozygosity of the mutation observed in all patients (either in tissue or blood samples) and in control subjects, independently of their ethnic origin, led us to suggest that the Asp203Ala cannot be considered as mutation or as polymorphism, but that it must be considered as a mistake in the sequence entered in the Genbank, which needs to be modified accordingly. These data, and those up to now reported in the literature, allow us to suggest that mutations of the gene coding for the protein involved in the initial step of the steroidogenesis could not be considered as a possible cause for the development of adrenal tumors.