Disorders of aldosterone synthesis, secretion, and cellular function.

PURPOSE OF REVIEW: The purpose of this review is to describe the renin-angiotensin-aldosterone system and its regulatory control of sodium, potassium, chloride, hydrogen ion, and water homeostasis through its effects on the expression and activity of distal renal tubular cotransporter proteins and to discuss the gene mutations encoding these structures that disturb the function of this system. RECENT FINDINGS: Primary hypoaldosteronism may be the result of acquired or congenital errors in renal juxtaglomerular function (the source of renin), angiotensin generation or activity, or aldosterone synthesis. Secondary hypoaldosteronism (pseudohypoaldosteronism) occurs as a consequence of mutations in genes encoding the mineralocorticoid receptor (MR), the three subunits of the aldosterone-responsive, amiloride-sensitive nonvoltage-gated sodium channel encoded by SCNN1A, SCNN1B, and SCNN1G, the gene that regulates posttranslational phosphorylation (encoded by WNK4) of the thiazide-sensitive sodium chloride cotransporter encoded by SLC12A3, and those that regulate phosphorylation and ubiquitination of cofactors encoded by WNK1, KLH3, and CUL3 that affect WNK4 function. SUMMARY: Acquired disorders of renal function as well as mutations in many genes may adversely affect aldosterone-mediated mineral homeostasis.

One half-century of advances in the evaluation and management of disorders of bone and mineral metabolism in children and adolescents.

The past 50 years of research in pediatric bone and mineral metabolism have led to remarkable progress in the identification and characterization of disorders that affect the developing skeleton. Progress has been facilitated through advances in both technology and biology and this paper provides a brief description of some but not all of the key findings, including identification of the calcium sensing receptor and the polypeptides parathyroid hormone and parathyroid hormone-related protein as well as their shared receptor and signal generating pathways; the elucidation of vitamin D metabolism and actions; discovery of fibroblast growth factor 23 (FGF23), the sodium-phosphate co-transporters and the other components that regulate phosphate metabolism. Moreover, the past half-century of research has led to the delineation of the molecular bases for genetic forms of hypoparathyroidism, pseudohypoparathyroidism, and primary hyperparathyroidism as well as the determination of the genetic causes of osteogenesis imperfecta, osteopetrosis, hypophosphatasia, and other disorders of mineral/bone homeostasis. During the next decade we expect that many of these fundamental discoveries will lead to the development of innovative treatments that will improve the lives of children with these disorders.

GNA11 Variants Identified in Patients with Hypercalcemia or Hypocalcemia.

Familial hypocalciuric hypercalcemia type 2 (FHH2) and autosomal dominant hypocalcemia type 2 (ADH2) are due to loss- and gain-of-function mutations, respectively, of the GNA11 gene that encodes the G protein subunit Gα11, a signaling partner of the calcium-sensing receptor (CaSR). To date, four probands with FHH2-associated Gα11 mutations and eight probands with ADH2-associated Gα11 mutations have been reported. In a 10-year period, we identified 37 different germline GNA11 variants in >1200 probands referred for investigation of genetic causes for hypercalcemia or hypocalcemia, comprising 14 synonymous, 12 noncoding, and 11 nonsynonymous variants. The synonymous and noncoding variants were predicted to be benign or likely benign by in silico analysis, with 5 and 3, respectively, occurring in both hypercalcemic and hypocalcemic individuals. Nine of the nonsynonymous variants (Thr54Met, Arg60His, Arg60Leu, Gly66Ser, Arg149His, Arg181Gln, Phe220Ser, Val340Met, Phe341Leu) identified in 13 probands have been reported to be FHH2- or ADH2-causing. Of the remaining nonsynonymous variants, Ala65Thr was predicted to be benign, and Met87Val, identified in a hypercalcemic individual, was predicted to be of uncertain significance. Three-dimensional homology modeling of the Val87 variant suggested it was likely benign, and expression of Val87 variant and wild-type Met87 Gα11 in CaSR-expressing HEK293 cells revealed no differences in intracellular calcium responses to alterations in extracellular calcium concentrations, consistent with Val87 being a benign polymorphism. Two noncoding region variants, a 40bp-5'UTR deletion and a 15bp-intronic deletion, identified only in hypercalcemic individuals, were associated with decreased luciferase expression in vitro but no alterations in GNA11 mRNA or Gα11 protein levels in cells from the patient and no abnormality in splicing of the GNA11 mRNA, respectively, confirming them to be benign polymorphisms. Thus, this study identified likely disease-causing GNA11 variants in <1% of probands with hypercalcemia or hypocalcemia and highlights the occurrence of GNA11 rare variants that are benign polymorphisms. © 2023 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research (ASBMR).

Gender related differences in glucocorticoid therapy and growth outcomes among pubertal children with 21-hydroxylase deficiency congenital adrenal hyperplasia (CAH).

Twenty-one-hydroxylase deficient congenital adrenal hyperplasia (CAH) causes glucocorticoid and mineralocorticoid deficiency, hyperandrogenism and short stature. Management of the pubertal CAH patient is particularly challenging. The purpose of this retrospective chart review study was to determine if pubertal males and females with simple virilizing CAH (SVCAH) required different glucocorticoid dosages at progressive Tanner stages. The relationship between hydrocortisone dose and height was also assessed. Twenty females and seventeen males with SVCAH were identified and followed throughout all stages of pubertal development. Males received an average hydrocortisone dose of 16.4±4.8 mg/m2/day and for females, 13.7±4.6 mg/m2/day. The glucocorticoid dosage in males was significantly higher than in females at Tanner stages 3 through 5. Higher doses were associated with a shorter (9.6 cm) achieved than anticipated adult height.

Empty sella syndrome.

An empty sella (ES) develops when cerebrospinal fluid (CSF) fills the sella turcica and compresses pituitary tissue until it lines the sellar floor and walls. Primary ES occurs when CSF enters the sella through a rent in the sellar diaphragm that may or may not be associated with increased intracranial pressure. Secondary ES is a result of an injury to the pituitary itself (e.g., pituitary apoplexy) or the consequence of surgical or radiation treatment. In adults, ES is most commonly found in older, obese, hypertensive, multiparous women and may be asymptomatic. In children, however, ES is more likely to be associated with clinical symptoms and endocrinopathies, particularly growth hormone deficiency, hypogonadotropism, or multiple pituitary hormone deficiencies. The incidence of ES in children varies greatly depending on the population surveyed, ranging from 1.2% (children without endocrine symptoms) to 68% (children with known endocrinopathy). Children with a finding of ES require endocrinologic and ophthalmologic evaluation. Treatment of ES includes replacement of hormone deficiencies and occasionally surgical measures to relieve obstructive intracranial lesions.

Congenital absence of norepinephrine due to CYB561 mutations.

OBJECTIVE: Cytochrome b561 (CYB561) generates ascorbic acid, a cofactor in the enzymatic conversion of dopamine to norepinephrine by dopamine ß-hydroxylase. We propose that the clinical relevance of this pathway can be revealed by characterizing the autonomic and biochemical characteristics of patients with CYB561 mutations. METHODS: We performed autonomic evaluations in 4 patients with lifelong orthostatic hypotension in whom CYB561 mutations were determined by genomic sequencing. RESULTS: Patients had disabling lifelong orthostatic hypotension (OH) and impaired blood pressure response to the Valsalva maneuver (VM), with exaggerated hypotension during phase 2 and lack of overshoot during phase 4. Heart rate ratios for sinus arrhythmia and the VM were normal. Plasma norepinephrine and metabolites were undetectable, and plasma dopamine and metabolites were normal. Droxidopa restored norepinephrine levels and improved OH. Patients 1 and 2 were sisters and homozygous for a nonsense mutation in exon 2, c.131G>A, p.Trp44 (Circ Res 2018). Their brother (patient 3) died at age 16 and his DNA was not available. Patient 4 was compound heterozygous; one allele had a missense mutation in exon 2, c157C>T, p.His.53Tyr, and the other had an exon 2 deletion. CONCLUSION: CYB561 deficiency is characterized by selective sympathetic noradrenergic failure with lifelong, disabling OH but with normal sympathetic cholinergic (sweating) and parasympathetic (heart rate regulation) functions. We report a novel case of CYB561 deficiency due to an exon 2 deletion in one allele and a missense mutation in the other. These patients highlight the critical role CYB561 plays in sympathetic function and cardiovascular regulation.

Salutary effects of combining early very low-dose systemic estradiol with growth hormone therapy in girls with Turner syndrome.

CONTEXT: Optimizing pubertal estrogen replacement in girls with Turner syndrome is important. OBJECTIVE: The study objective was to test the hypotheses that physiological estradiol replacement administered early with GH will preserve height potential as much as if administered late and that it will bring about a greater height gain than standard oral estrogen therapy combined with GH. DESIGN: The study was randomized to early or late estrogen treatment; follow-up was at 3.5 yr or later. SETTING: This was a multicenter outpatient study. PATIENTS: Turner syndrome girls 12.0-12.9 yr (n = 7) or 14.0-14.9 yr (n = 7) of age who began GH before age 12.0 yr were the patients. The girls were matched to National Cooperative Growth Study registry patients who began GH and oral conjugated estrogen at similar ages and were similarly followed to adult or near-adult height. INTERVENTIONS: Depot estradiol, 0.2 mg/month i.m., was given initially and gradually increased; GH was 0.05 mg/kg daily. MAIN OUTCOME VARIABLE: Adult or near-adult height was the main outcome variable. RESULTS: Depot estradiol treatment resulted in height significantly taller than predicted at 12 yr of age (P < 0.02). All height potential was gained in the first 2 yr of the study, during which the early group grew 3.5 cm more than the late group, which was receiving GH alone (P < 0.01). The early depot estradiol group also gained 5.9 cm more height after starting estrogen than did the early National Cooperative Growth Study group (P < 0.05). Although feminization proceeded slowly on the lowest dose of estradiol, it advanced normally thereafter. CONCLUSIONS: These results suggest that very low-dose parenteral estradiol permits relatively age-appropriate feminization without interfering with the effect of GH on the enhancement of height potential.

Effects of one year of recombinant human growth hormone (GH) therapy on cardiac mass and function in children with classical GH deficiency.

Cardiac mass and function were evaluated in 10 children with classical GH deficiency. Echocardiograms were performed at baseline, 3, 6, and 12 months after initiation of recombinant human (rh) GH therapy (0.3 mg/kg.wk). Before treatment, left ventricular (LV) mass indexed to body surface area (BSA) was low or low normal (<50 g/m(2)) in five children compared with reference control data. Height SD score (-3.2 +/- 0.9 vs. -1.8 +/- 1.3 yr; P < 0.01), growth velocity SD score (-2.7 +/- 1.6 vs. 5.8 +/- 3.1; P < 0.01), LV mass (36 +/- 9 vs. 60 +/- 30 g; P < 0.02), LV mass/BSA (51 +/- 12 vs. 72 +/- 11 g/m(2); P < 0.01), LV mass/height (36 +/- 9 vs. 54 +/- 15 g/m; P < 0.02), and LV mass/m(2.7) (36 +/- 12 vs. 45 +/- 8; P < 0.05) increased significantly with rhGH therapy. Pretreatment LV mass/BSA correlated inversely with fold increase in LV mass/BSA over the year (r = -0.83; P < 0.01). Load-dependent indices of diastolic performance were normal at baseline and did not change with rhGH therapy. Percentage increase of mean velocity of circumferential shortening, an index of systolic function, correlated with fold increase in LV mass/BSA (r = 0.88; P < 0.02) over the year of rhGH administration. LV mass can be lower than predicted for body size in some children with severe GH deficiency but is responsive to rhGH replacement. LV mass/BSA increases into the normal range during the first year of rhGH therapy. The rate of increase of LV mass is greater than the increase in BSA during rhGH treatment, suggesting that GH could also be a trophic factor for the heart.

Clinical pharmacology of human growth hormone and its secretagogues.

The regulation of the synthesis and secretion of human growth hormone (hGH), its biologic activity, and its therapeutic use are reviewed. Both the production and secretion of GH are stimulated by hypothalamic GH-releasing hormone (GHRH) and by the endogenous GH secretagogue (GHS) ghrelin, a product of the oxyntic cells located within the fundus of the stomach. Ghrelin and GHRH act synergistically to stimulate GH secretion when administered in vivo, but they act additively when incubated with somatotrophs in vitro. Ghrelin is also found within the hypothalamic arcuate nucleus where it may enhance the release of GHRH and impair that of somatostatin (SRIH) thus contributing to its synergism with GHRH; ghrelin is an orexigenic peptide as well as a GHS and appears to play an important role in energy metabolism. SRIH inhibits the secretion but not the synthesis of GH and more effectively that stimulated by GHRH than that by ghrelin. The action of GH is mediated by the GH receptor, a straight chain protein of 620 amino acids with extracellular, transmembrane and cytoplasmic domains. GH has two specific receptor binding sites, (I, II) that bind sequentially to similar acceptor sequences of two GHRs. Activation of the GHR signal transduction pathway begins with attachment of two Janus kinase 2 (JAK2) molecules to the intracellular domains of the GHRs leading to phosphorylation of the tyrosine residues of JAK2 and the GHRs; thereafter the signal transduction and activators of transcription (STAT) and Ras mitogen-activated-protein kinase pathways are enhanced. GHRH, SRIH, and ghrelin act through G-protein coupled receptors (GPCR); GHRH activates adenylyl cyclase, cyclic AMP, and protein kinase A pathways, while ghrelin stimulates phospholipase C activity leading to production of inositol 1,4,5-trisphophate and diacylglycerol, increase in cytosolic calcium levels, and GH release; SRIH acts though an inhibitory GPCR to prevent depolarization of the somatotroph thus blocking GH secretion. GH has long been used to stimulate linear growth in children with GH deficiency (GHD); it has also been demonstrated to be effective in adults with GHD. The availability of large quantities of recombinant hGH has broadly increased the number of children with short stature being treated with this agent--not always with marked effectiveness. Synthesis of the GHR antagonist pegvisomant has provided another agent with which to treat patients with acromegaly. GHRH also enhances linear growth rate effectively in children with GHD but is less effective than hGH. The discovery of peptidyl and non-peptidyl GH secretagogues (that preceded and led to the identification of ghrelin itself) presents yet other agents for stimulation of endogenous GH secretion that have been useful in diagnostic studies for GHD and for its treatment in small groups of subjects. It is likely that hGH and its secretagoguess will become of increasing clinical usefulness in future decades.

A novel CASR mutation associated with neonatal severe hyperparathyroidism transmitted as an autosomal recessive disorder.

BACKGROUND: Neonatal severe primary hyperparathyroidism (NSHPT, MIM 239200) is most often an isolated disorder that is due to biallelic inactivating mutations in the CASR, the gene encoding the calcium sensing receptor; NSHPT is inherited from parents with familial hypocalciuric hypercalcemia, each of whom has one mutated CASR allele. OBJECTIVES: To report clinical and genetic findings in a brother and sister with NSHPT due to a novel mutation in the CASR transmitted as an autosomal recessive trait and to examine the functional effect of the mutation. SUBJECTS AND METHODS: A brother and sister with marked hypercalcemia due to NSHPT were identified; the boy also had craniosynostosis requiring surgical repair. The genotyping of the CASR in both children and their parents who were eucalcemic and normophosphatemic was undertaken. In order to examine the significance of the variant CASR identified, the CASR variant was expressed in vitro and examined by three computer computational programs [PolyPhen2, MutationTaster, Sorting Intolerant From Tolerant (SIFT)] designed to evaluate the effect of a nucleotide variant on the structure and likely functional consequence upon the protein product. RESULTS: A sequence variant in the CASR was identified [G>T point mutation at nucleotide c.2303 in exon 7 (c.2303G>T) resulting in the replacement of glycine by valine at codon 768 (p.Gly768Val)]. Two copies of this CASR variant were present in the genome of the siblings while a single copy of the CASR variant was present in both of the clinically and biochemically normal parents, a pattern of transmission consistent with autosomal recessive inheritance of NSHPT in this family. When expressed in HEK293 cells in vitro, the novel Gly768Val variant did not interfere with protein generation or migration to the cell membrane in vitro. The analysis of the functional effect of the Gly768Val CASR variant by the PolyPhen2, MutationTaster, and Sorting Intolerant From Tolerant computer programs revealed that this mutation was very likely to be deleterious. CONCLUSION: The NSHPT associated with biallelic Gly768Val mutations of the CASR in two siblings with severe hypercalcemia and hyperparathyroidism and their clinically and biochemically normal heterozygous parents was transmitted as an autosomal recessive disorder in this family.