A pharmacokinetic and pharmacodynamic study of delayed- and extended-release hydrocortisone (Chronocort) vs. conventional hydrocortisone (Cortef) in the treatment of congenital adrenal hyperplasia.

OBJECTIVE: Existing glucocorticoid treatment for congenital adrenal hyperplasia (CAH) is suboptimal and nonphysiological. We compared hormonal profiles during therapy with a new modified-release hydrocortisone (MR-HC), Chronocort, to conventional hydrocortisone (HC), Cortef, in patients with CAH. DESIGN AND PATIENTS: We conducted a Phase 2, open-label, crossover pharmacokinetic and pharmacodynamic study in 14 patients (out of whom seven were male subjects, age ranging from 17 to 55) with classic 21-hydroxylase deficiency. One week of thrice daily HC (10, 5 and 15 mg) was followed by 1 month of once daily MR-HC (30 mg at 22:00 hours). Twenty four-hour sampling of cortisol, 17-hydroxyprogesterone (17-OHP), androstenedione, and ACTH was performed at steady state. MEASUREMENTS: The primary outcome measures were 8- and 24-h area under the curve (AUC) hormones and 08:00 hours 17-OHP. RESULTS: Hydrocortisone therapy resulted in three cortisol peaks. A single cortisol peak occurred at approximately 06:00 hours on MR-HC. MR-HC resulted in significantly (P < 0.001) lower 24-h afternoon (12:00 to 20:00 hours), and night-time (20:00 to 04:00 hours) cortisol as compared with HC. From 04:00 to 12:00 hours, when physiological cortisol is highest, cortisol was higher on MR-HC than HC (P < 0.001). Patients on MR-HC had significantly (P < 0.05) higher afternoon (12:00 to 20:00 hours) 17-OHP, androstenedione and ACTH, but significantly (P = 0.025) lower 08:00 hours 17-OHP. No serious adverse events occurred. CONCLUSIONS: Modified-release hydrocortisone represents a promising new treatment for CAH. Overnight adrenal androgens were well-controlled, but rose in the afternoon with once-daily dosing suggesting that a morning dose of glucocorticoid is needed. Further studies are needed to determine the optimal dosing regimen and long-term clinical outcome.

Clinical and genetic heterogeneity, overlap with other tumor syndromes, and atypical glucocorticoid hormone secretion in adrenocorticotropin-independent macronodular adrenal hyperplasia compared with other adrenocortical tumors.

OBJECTIVE: ACTH-independent macronodular adrenal hyperplasia (AIMAH) is often associated with subclinical cortisol secretion or atypical Cushing's syndrome (CS). We characterized a large series of patients of AIMAH and compared them with patients with other adrenocortical tumors. DESIGN AND PATIENTS: We recruited 82 subjects with: 1) AIMAH (n = 16); 2) adrenocortical cortisol-producing adenoma with CS (n = 15); 3) aldosterone-producing adenoma (n = 19); and 4) single adenomas with clinically nonsignificant cortisol secretion (n = 32). METHODS: Urinary free cortisol (UFC) and 17-hydroxycorticosteroid (17OHS) were collected at baseline and during dexamethasone testing; aberrant receptor responses was also sought by clinical testing and confirmed molecularly. Peripheral and/or tumor DNA was sequenced for candidate genes. RESULTS: AIMAH patients had the highest 17OHS excretion, even when UFCs were within or close to the normal range. Aberrant receptor expression was highly prevalent. Histology showed at least two subtypes of AIMAH. For three patients with AIMAH, there was family history of CS; germline mutations were identified in three other patients in the genes for menin (one), fumarate hydratase (one), and adenomatosis polyposis coli (APC) (one); a PDE11A gene variant was found in another. One patient had a GNAS mutation in adrenal nodules only. There were no mutations in any of the tested genes in the patients of the other groups. CONCLUSIONS: AIMAH is a clinically and genetically heterogeneous disorder that can be associated with various genetic defects and aberrant hormone receptors. It is frequently associated with atypical CS and increased 17OHS; UFCs and other measures of adrenocortical activity can be misleadingly normal.

Blood pressure in pediatric patients with Cushing syndrome.

CONTEXT: Hypertension (HTN) has been reported in up to 60% of children with Cushing syndrome (CS), but its course, side effects, and potential differences among various causes of CS have not been adequately studied. OBJECTIVE: The objective of the study was to measure blood pressure in pediatric patients with CS before and after transphenoidal surgery or adrenalectomy and identify side effects and rates of residual HTN. DESIGN: Data from 86 children with corticotropinomas [Cushing disease (CD)] and 27 children with ACTH-independent CS (AICS) were analyzed. RESULTS: Patients with CD and AICS had significant HTN before surgery; more patients with AICS had systolic HTN (SHTN) than with CD (74 vs. 44%, P = 0.0077), but the rate of diastolic HTN (DHTN) was similar. Both groups experienced significant decreases in SHTN immediately after transphenoidal surgery and adrenalectomy. One year postoperatively, both SHTN and DHTN were lower than the preoperative values in all patients, but as many as 16 and 4% of the patients with CD and 21 and 5% of the patients with AICS still had SHTN and DHTN, respectively. Higher blood pressure preoperatively correlated with cortisol levels. Two patients suffered serious side effects: one with multiple infarcts and another with hypertensive encephalopathy. CONCLUSIONS: Children with CS are at risk for residual HTN despite a significant improvement after surgical cure. HTN appears to correlate with the degree of hypercortisolemia. Serious HTN-related side effects, although rare, may occur during the perioperative period.

Large deletions of the PRKAR1A gene in Carney complex.

PURPOSE: Since the identification of PRKAR1A mutations in Carney complex, substitutions and small insertions/deletions have been found in approximately 70% of the patients. To date, no germ-line PRKAR1A deletion and/or insertion exceeded a few base pairs (up to 15). Although a few families map to chromosome 2, it is possible that current sequencing techniques do not detect larger gene changes in PRKAR1A -- mutation-negative individuals with Carney complex. EXPERIMENTAL DESIGN: To screen for gross alterations of the PRKAR1A gene, we applied Southern hybridization analysis on 36 unrelated Carney complex patients who did not have small intragenic mutations or large aberrations in PRKAR1A, including the probands from two kindreds mapping to chromosome 2. RESULTS: We found large PRKAR1A deletions in the germ-line of two patients with Carney complex, both sporadic cases; no changes were identified in the remaining patients, including the two chromosome-2-mapping families. In the first patient, the deletion is expected to lead to decreased PRKAR1A mRNA levels but no other effects on the protein; the molecular phenotype is predicted to be PRKAR1A haploinsufficiency, consistent with the majority of PRKAR1A mutations causing Carney complex. In the second patient, the deletion led to in-frame elimination of exon 3 and the expression of a shorter protein, lacking the primary site for interaction with the catalytic protein kinase A subunit. In vitro transfection studies of the mutant PRKAR1A showed impaired ability to bind cyclic AMP and activation of the protein kinase A enzyme. The patient bearing this mutation had a more-severe-than-average Carney complex phenotype that included the relatively rare psammomatous melanotic schwannoma. CONCLUSIONS: Large PRKAR1A deletions may be responsible for Carney complex in patients that do not have PRKAR1A gene defects identifiable by sequencing. Preliminary data indicate that these patients may have a different phenotype especially if their defect results in an expressed, abnormal version of the PRKAR1A protein.