Generation of the human induced pluripotent stem cell line PUMCi005-A from a patient with Perrault syndrome.

We generated PUMCi005-A, an induced pluripotent stem cell (iPSC) line, from dermal fibroblasts of a 32-year-old female Perrault syndrome patient with double heterozygous (794 G > A and 1181 G > A) mutations in the TWNK gene using Sendai viral delivery of OCT4, SOX2, KLF4, and c-MYC. The PUMCi005-A iPSC line carried the TWNK mutations, displayed typical iPSC morphology, expressed pluripotent stem cell markers, did not have integration of Sendai virus, and exhibited a normal karyotype and differentiation into three germ layers.

Expanding the Clinical and Molecular Spectrum of HARS2-Perrault Syndrome: Identification of a Novel Homozygous Missense Variant in the HARS2 gene.

Background: Variants in the HARS2 gene have been reported to be associated with nonsyndromic hearing loss (HL) and Perrault syndrome (PS), a rare recessive disorder marked by bilateral sensorineural HL and ovarian dysgenesis. Given the low number of pathogenic variants described in the HARS2 gene, no genotype/phenotype correlations have been established between variants in this gene and the clinical data. Materials and Methods: Whole blood was collected from four members of a Lebanese family with PS. An affected woman was evaluated for HL by clinical examination and audiological tests. Primary ovarian failure was analyzed according to age of primary or secondary amenorrhea, follicle stimulating hormone levels, and pelvic ultrasound. The existence of neurological symptoms and other associated conditions was checked. To identify the causative variant, we used a custom HaloPlexHS panel for next-generation sequencing of the coding sequences of six genes implicated in this syndrome. Results: We identified a novel homozygous HARS2 missense variant (c.260G>A; p.Arg87His), which is only the second homozygous variant in the HARS2 gene identified to date worldwide. This variant is predicted to be deleterious by multiple in silico analysis tools, moreover the Arg87 amino acid nearly is invariant among eight species. Based on molecular modeling analysis, this variation is predicted to disturb the proper folding of HARS2, which may reduce its aminoacylation efficiency. Clinical data are compared with the other cases recorded in the literature to help gain further knowledge with regard to the phenotype. Conclusion: Our results provide strong evidence corroborating the etiological association of this mutation with the HARS2-PS phenotype. HARS2 variants need to be searched for in patients with early-onset bilateral sensorineural HL and ovarian dysfunction in women so as to guarantee accurate endocrinological surveillance and management to minimize secondary complications.

Perrault syndrome type 3 caused by diverse molecular defects in CLPP.

The maintenance of mitochondrial protein homeostasis (proteostasis) is crucial for correct cellular function. Recently, several mutations in the mitochondrial protease CLPP have been identified in patients with Perrault syndrome 3 (PRLTS3). These mutations can be arranged into two groups, those that cluster near the docking site (hydrophobic pocket, Hp) for the cognate unfoldase CLPX (i.e. T145P and C147S) and those that are adjacent to the active site of the peptidase (i.e. Y229D). Here we report the biochemical consequence of mutations in both regions. The Y229D mutant not only inhibited CLPP-peptidase activity, but unexpectedly also prevented CLPX-docking, thereby blocking the turnover of both peptide and protein substrates. In contrast, Hp mutations cause a range of biochemical defects in CLPP, from no observable change to CLPP activity for the C147S mutant, to dramatic disruption of most activities for the "gain-of-function" mutant T145P - including loss of oligomeric assembly and enhanced peptidase activity.

A homozygous missense mutation in ERAL1, encoding a mitochondrial rRNA chaperone, causes Perrault syndrome.

Perrault syndrome (PS) is a rare recessive disorder characterized by ovarian dysgenesis and sensorineural deafness. It is clinically and genetically heterogeneous, and previously mutations have been described in different genes, mostly related to mitochondrial proteostasis. We diagnosed three unrelated females with PS and set out to identify the underlying genetic cause using exome sequencing. We excluded mutations in the known PS genes, but identified a single homozygous mutation in the ERAL1 gene (c.707A > T; p.Asn236Ile). Since ERAL1 protein binds to the mitochondrial 12S rRNA and is involved in the assembly of the small mitochondrial ribosomal subunit, the identified variant represented a likely candidate. In silico analysis of a 3D model for ERAL1 suggested that the mutated residue hinders protein-substrate interactions, potentially affecting its function. On a molecular basis, PS skin fibroblasts had reduced ERAL1 protein levels. Complexome profiling of the cells showed an overall decrease in the levels of assembled small ribosomal subunit, indicating that the ERAL1 variant affects mitochondrial ribosome assembly. Moreover, levels of the 12S rRNA were reduced in the patients, and were rescued by lentiviral expression of wild type ERAL1. At the physiological level, mitochondrial respiration was markedly decreased in PS fibroblasts, confirming disturbed mitochondrial function. Finally, knockdown of the C. elegans ERAL1 homologue E02H1.2 almost completely blocked egg production in worms, mimicking the compromised fertility in PS-affected women. Our cross-species data in patient cells and worms support the hypothesis that mutations in ERAL1 can cause PS and are associated with changes in mitochondrial metabolism.

46,XX DSD: the masculinised female.

The 46,XX disorders of sex development (DSDs) cause virilisation or masculinisation of the female foetus. The final common pathway of all 46,XX DSDs is excess dihydrotestosterone (DHT) or potent foreign androgen in the genital tissue during the critical period of sexual differentiation. Whereas the foetal testis is source of androgen in the male, it is the foetal adrenal that produces the DHT precursors in the female. By understanding the principles of human steroid biosynthesis, the pathogenesis of each disorder may be logically deduced, and treatment strategies are rationally constructed. In practice, however, therapies for many of these diseases are fraught with complications and caveats, and current approaches leave much room for improvement. This review discusses these diseases, their pathogenesis and approaches to therapy. We emphasise areas where improved treatments are sorely needed.

Three out of four: a case discussion on ambiguous genitalia.

Disorders of sex development (DSD) include a heterogeneous group of heritable disorders of sex determination and differentiation. This includes chromosomal as well as monogenic disorders, which inhibit or change primarily genetic or endocrine pathways of normal sex development. However, in many patients affected, no definitive cause for the disorder can be found. Therefore, the birth of a child with ambiguous genitalia still represents an enormous challenge. For the structuring of diagnostic procedures, decision making and also therapeutic interventions, a highly specialised team of physicians of different subspecialties and experts for psychosocial care is needed to counsel parents and patients accordingly. This article presents a case with 46,XX DSD and androgen excess. After making the diagnosis on clinical and biochemical grounds, the family refused further genetic testing. The outcome of subsequent pregnancies confirmed the working diagnosis of an autosomal form of 46,XX DSD. However, the family still refused prenatal testing and treatment on religious grounds. The case discussion further illuminates the possible influence of religion in prenatal testing and concludes with the approach to the parents for comprehensive counselling in decision making for their child.

Follicle-stimulating hormone does not directly regulate bone mass in human beings: evidence from nature.

OBJECTIVE: To evaluate the effect of FSH levels in the development of human osteoporosis. DESIGN: Case-series study. SETTING: Gynecology department in a teaching hospital. PATIENT(S): A total of 8 women diagnosed with Kallman syndrome (KS) were compared with 11 with Turner syndrome and 11 with pure gonadal dysgenesia (GD, karyotype 46,XX). INTERVENTION(S): We assessed the pituitary-gonadal axis, bone turnover markers, bone mass, and patient characteristics. MAIN OUTCOME MEASURE(S): Bone mineral density as assessed by dual-energy X-ray absorptiometry, plasma FSH, LH, E(2), osteocalcin (BGP), and urinary type I collagen cross-linked N-telopeptide. Other biochemical markers included 25-hydroxyvitamin D, as well as parathyroid hormone and urine concentration of calcium and creatinine. RESULT(S): In girls with Turner syndrome and GD, FSH (64.03 +/- 29.2 and 90.08 +/- 22.41 mIU/mL, respectively) and LH (45.29 +/- 11.90 and 48.83 +/- 12.44 mIU/mL, respectively) levels were significantly higher compared with those observed in girls with KS (FSH: 1.87 +/- 0.64 and LH: 1.02 +/- 0.57), whereas no differences were detected in E(2) or bone marker levels. Bone mineral density correlated positively with FSH levels but not with E(2); however, after adjusting for previous growth-hormone therapy, these differences were not found. In addition, bone mineral density in spine and total hip was significantly lower in patients with KS. CONCLUSION(S): Follicle-stimulating hormone does not appear to have a major role in the development of bone loss in young women with primary amenorrhea.

Age-specific changes in sex steroid biosynthesis and sex development.

Normal male sex development requires the SRY gene on the Y chromosome, the regression of Müllerian structures via anti-Müllerian hormone (AMH) signalling, the development of the Wolffian duct system into normal male internal genital structures consequent to testosterone secretion by the testicular Leydig cells, and finally, sufficient activation of testosterone to dihydrotestosterone by 5alpha-reductase. All these events take place during weeks 8-12 of gestation, a narrow window of sexual differentiation. Recent studies in human fetal development have demonstrated the early fetal expression of the adrenocorticotrophic hormone (ACTH) receptor and all steroidogenic components necessary for the biosynthesis of cortisol. These findings provide compelling evidence for the assumed pathogenesis of congenital adrenal hyperplasia (CAH) due to 21-hydroxylase deficiency, diminished feedback to the pituitary due to glucocorticoid deficiency, subsequent ACTH excess, and up-regulation of adrenal androgen production with subsequent virilization. Another CAH variant, P450 oxidoreductase deficiency, manifests with 46,XX disorder of sex development (DSD), i.e., virilized female genitalia, despite concurrently low circulating androgens. This CAH variant illustrates the existence of an alternative pathway toward the biosynthesis of active androgens in humans which is active in human fetal life only. Thus CAH teaches important lessons from nature, providing privileged insights into the window of human sexual differentiation, and particularly highlighting the importance of steroidogenesis in the process of human sexual differentiation.

Factors associated with the reduction of bone density in patients with gonadal dysgenesis.

OBJECTIVE: To correlate bone mineral density (BMD) in women with primary hypoestrogenism caused by 46,XX pure gonadal dysgenesis or Turner's syndrome with age, age at estrogen therapy initiation, length of estrogen use, and body mass index (BMI). DESIGN: Cross-sectional study. SETTING: Academic tertiary-care hospital. PATIENT(S): Thirty-eight women, aged 16 to 35 years (mean, 24.6 years), affected by these genetic disorders. INTERVENTION(S): Measurement of lumbar spine and femoral neck BMD using double x-ray absorptiometry. The results were correlated with the control variables by using Pearson's coefficient of correlation. Variables associated with BMD were evaluated by multiple linear regression analysis. MAIN OUTCOME MEASURE(S): Bone mineral density. RESULT(S): Bone mineral density of the lumbar spine showed that 90% of the women presented osteopenia or osteoporosis. The femoral neck was affected in 55% of these women. The length of estrogen therapy and the BMI showed a positive association with BMD at the lumbar spine and femoral neck, respectively. CONCLUSION(S): Women affected by pure gonadal dysgenesis or Turner's syndrome presented a marked decrease in BMD of the lumbar spine and femoral neck. Medical attention for their diagnosis and early hormone replacement therapy are advised.