Cortisol as a mineralocorticoid in human disease

Differential effects of reduced mineralocorticoid receptor activation by unilateral adrenalectomy vs mineralocorticoid antagonist treatment in patients with primary aldosteronism - Implications for depression and anxiety

The mineralocorticoid receptor (MR) and its ligand aldosterone have been found to play a major role in the pathophysiology of depression. Both could be targets of therapeutic interventions. We analyzed laboratory data and questionnaires evaluating anxiety (using GAD-7 questionnaire) and depression (using PHQD questionnaire) of up to 210 patients with primary aldosteronism (PA) (82 females, 54.7 ± 12.0yrs; 128 males, 48.7 ± 12.8yrs) before and one year after initiation of specific treatment of PA by either adrenalectomy (ADX) or treatment with mineralocorticoid receptor antagonists (MRA). After ADX normalization of aldosterone excess was observed. This was associated with a significant reduction of depressive symptoms, but no significant change in GAD-7 score. MRA treatment was accompanied with persistent high aldosterone levels, but led to a significant improvement of anxiety, but no significant changes in PHQD scores. These data suggest different mechanistic pathways for depression and anxiety mediated via the MR. For treatment of depression a reduction of aldosterone levels might be relevant at CNS locations specific for aldosterone, whereas MRA targets MR more broadly, including areas, where cortisol is the main ligand. MRA may be useful in treatment of anxiety related behavior.

Bone phenotype in melanocortin 2 receptor-deficient mice

Considering that stress condition associated with osteoporosis, the hypothalamic-pituitary-adrenal (HPA) axis, which is essential for central stress response system, is implicated in regulating bone mass accrual. Melanocortin 2 receptor (MC2R), the receptor of adrenocorticotropic hormone is expressed in both adrenal gland cells and bone cells. To elucidate the role of HPA axis in bone metabolism, we assessed the skeletal phenotype of MC2R deficient mice (MC2R ^-/- mice). We first examined bone mineral density and cortical thickness of femur using dual x-ray absorptiometry and micro-computed tomography. We then conducted histomorphometric analysis to calculate the static and dynamic parameters of vertebrae in MC2R ^-/- mice. The levels of osteoblastic marker genes were examined by quantitative PCR in primary osteoblasts derived from MC2R ^-/- mice. Based on these observations, bone mineral density of femur in MC2R ^-/- mice was increasing relative to litter controls. Meanwhile, the thickness of cortical bone of femur in MC2R ^-/- mice was remarkably elevated. Moreover, serum osteocalcin level was drastically raised in MC2R ^-/- mice. However, bone histomorphometry revealed that static and dynamic parameters reflecting bone formation and resorption were unchanged in vertebrae of MC2R ^-/- mice compared to the control, indicating that MC2R function may be specific to appendicular bone than axis bone. Taken together, the HPA axis due to deletion of MC2R is involved in bone metabolism.

Adjunct Therapy With Glycyrrhiza Glabra Rapidly Improves Outcome in Depression-A Pilot Study to Support 11-Beta-Hydroxysteroid Dehydrogenase Type 2 Inhibition as a New Target

Mineralocorticoid-receptor (MR) dysfunction as expressed by low systolic blood pressure and a high salivary aldosterone/cortisol ratio predicts less favorable antidepressant treatment outcome. Inhibition of peripheral 11-beta-hydroxysteroid-dehydrogenase type 2 (11betaHSD2) reverses these markers. We therefore tested the hypothesis that the 11betaHSD2 inhibitor glycyrrhizin affects treatment outcome via this mechanism. We administered Glycyrrhiza glabra (GG) extract containing 7-8 % of glycyrrhizin at a dose of 2 × 700 mg daily adjunct to standard antidepressants in hospitalized patients with major depression. These subjects were compared in an open-label fashion with patients, who did not receive GG (treatment as usual, TAU). Assessments were done at baseline and approximately 2 weeks after. Twelve subjects were treated with GG and compared to 55 subjects with TAU. At week 2, the Hamilton Depression Rating Scale (HAMD-21) change from baseline as well as the CGI-S change showed a significant time × treatment interaction (p < 0.03), indicating a possible therapeutic benefit of GG. Clinical benefit seems to be more pronounced in subjects with lower systolic blood pressure and significantly correlated with reduced sleep duration in the GG group. Our preliminary data show that treatment with the 11betaHSD2 inhibitor glycyrrhizin may possess a beneficial effect on antidepressant response, which may be specific to a defined depression subtype.

Urinary cysteinyl progestogens: Occurrence and origin

The presence of two cysteinyl progestogens, 16-cysteinyl-progesterone (16-Cys-Prog) and 16-cysteinyl-pregnenolone (16-Cys-Preg), in human urine is described for the first time. Their occurrence was unequivocally confirmed by comparison with synthesized material by using mass spectrometric detectors. Several experiments were performed in order to clarify their origin. The adrenal origin of both 16-Cys-Prog and 16-Cys-Preg can be inferred from the increase in their concentrations after ACTH stimulatory test, together with their circadian variation similar to the one observed for cortisol. Moreover, the notable increase in excretions of 16-Cys-Prog during the luteal phase of the menstrual cycle points towards an ovarian production for this progestogen. However, the analysis of samples during the course of two pregnancies revealed that, in spite of the large amounts of progesterone produced during gestation, the human placenta lacks the capacity to make 16-Cys-Prog. The adrenal and ovarian origin has been further indicated by the absence of both metabolites in samples collected from a subject with bilateral adrenalectomy and hypogonadotrophyic hypogonadism. Regarding liver action, in vitro studies with hepatocytes and progesterone indicate that, although the liver is able to metabolize progesterone to 6-dehydroprogesterone, it has not the enzymatic machinery for the generation of 16-dehydroprogesterone. Taken together, these results open the possibility for a noninvasive test for the simultaneous evaluation of progesterone biosynthesis in different organs.

Epigenetics and arterial hypertension: the challenge of emerging evidence

Epigenetic phenomena include DNA methylation, post-translational histone modifications, and noncoding RNAs, as major marks. Although similar to genetic features of DNA for their heritability, epigenetic mechanisms differ for their potential reversibility by environmental and nutritional factors, which make them potentially crucial for their role in complex and multifactorial diseases. The function of these mechanisms is indeed gaining interest in relation to arterial hypertension (AH) with emerging evidence from cell culture and animal models as well as human studies showing that epigenetic modifications have major functions within pathways related to AH. Among epigenetic marks, the role of DNA methylation is mostly highlighted given the primary role of this epigenetic feature in mammalian cells. A lower global methylation was observed in DNA of peripheral blood mononuclear cells of hypertensive patients. Moreover, DNA hydroxymethylation appears modifiable by salt intake in a Dahl salt-sensitive rat model. The specific function of DNA methylation in regulating the expression of AH-related genes at promoter site was described for hydroxysteroid (11-beta) dehydrogenase 2 (HSD11B2), somatic angiotensin converting enzyme (sACE), Na+/K+/2Cl- cotransporter 1 (NKCC1), angiotensinogen (AGT), α-adducin (ADD1), and for other crucial genes in endocrine hypertension. Post-translational histone methylation at different histone 3 lysine residues was also observed to control the expression of genes related to AH as lysine-specific demethylase-1(LSD1), HSD11B2, and epithelial sodium channel subunit α (SCNN1A). Noncoding RNAs including several microRNAs influence genes involved in steroidogenesis and the renin-angiotensin-aldosterone pathway. In the present review, the current knowledge on the relationship between the main epigenetic marks and AH will be presented, considering the challenge of epigenetic patterns being modifiable by environmental factors that may lead toward novel implications in AH preventive and therapeutic strategies.

The multifaceted mineralocorticoid receptor

The primary adrenal cortical steroid hormones, aldosterone, and the glucocorticoids cortisol and corticosterone, act through the structurally similar mineralocorticoid (MR) and glucocorticoid receptors (GRs). Aldosterone is crucial for fluid, electrolyte, and hemodynamic homeostasis and tissue repair; the significantly more abundant glucocorticoids are indispensable for energy homeostasis, appropriate responses to stress, and limiting inflammation. Steroid receptors initiate gene transcription for proteins that effect their actions as well as rapid non-genomic effects through classical cell signaling pathways. GR and MR are expressed in many tissues types, often in the same cells, where they interact at molecular and functional levels, at times in synergy, others in opposition. Thus the appropriate balance of MR and GR activation is crucial for homeostasis. MR has the same binding affinity for aldosterone, cortisol, and corticosterone. Glucocorticoids activate MR in most tissues at basal levels and GR at stress levels. Inactivation of cortisol and corticosterone by 11β-HSD2 allows aldosterone to activate MR within aldosterone target cells and limits activation of the GR. Under most conditions, 11β-HSD1 acts as a reductase and activates cortisol/corticosterone, amplifying circulating levels. 11β-HSD1 and MR antagonists mitigate inappropriate activation of MR under conditions of oxidative stress that contributes to the pathophysiology of the cardiometabolic syndrome; however, MR antagonists decrease normal MR/GR functional interactions, a particular concern for neurons mediating cognition, memory, and affect.

Neurologic complications of electrolyte disturbances and acid-base balance

Electrolyte and acid-base disturbances are common occurrences in daily clinical practice. Although these abnormalities can be readily ascertained from routine laboratory findings, only specific clinical correlates may attest as to their significance. Among a wide phenotypic spectrum, acute electrolyte and acid-base disturbances may affect the peripheral nervous system as arreflexic weakness (hypermagnesemia, hyperkalemia, and hypophosphatemia), the central nervous system as epileptic encephalopathies (hypomagnesemia, dysnatremias, and hypocalcemia), or both as a mixture of encephalopathy and weakness or paresthesias (hypocalcemia, alkalosis). Disabling complications may develop not only when these derangements are overlooked and left untreated (e.g., visual loss from intracranial hypertension in respiratory or metabolic acidosis; quadriplegia with respiratory insufficiency in hypermagnesemia) but also when they are inappropriately managed (e.g., central pontine myelinolisis when rapidly correcting hyponatremia; cardiac arrhythmias when aggressively correcting hypo- or hyperkalemia). Therefore prompt identification of the specific neurometabolic syndromes is critical to correct the causative electrolyte or acid-base disturbances and prevent permanent central or peripheral nervous system injury. This chapter reviews the pathophysiology, clinical investigations, clinical phenotypes, and current management strategies in disorders resulting from alterations in the plasma concentration of sodium, potassium, calcium, magnesium, and phosphorus as well as from acidemia and alkalemia.

Age-related changes in 11β-hydroxysteroid dehydrogenase type 2 activity in normotensive subjects

BACKGROUND

Impairment in 11β-hydroxysteroid dehydrogenase type 2 (11β-HSD2) activity results in inefficient inactivation of cortisol to cortisone, and it can trigger hypertension through activation of the mineralocorticoid receptor. Information about age-related changes in 11β-HSD2 activity and its physiological consequences is scarce. Our aim was to investigate whether 11β-HSD2 activity is age dependent in normotensive subjects.

METHODS

We recruited 196 healthy, normotensive subjects. Of these, 93 were children (Group 1: aged 5-15 years), and 103 were adults who were divided according to their ages: Group 2: aged 30-41 years (n = 10); Group 3: aged 42-53 years (n = 72); and Group 4: aged 54-65 years (n = 21). Fasting serum cortisol, cortisone, aldosterone, and plasma renin activity (PRA) were measured. The 11β-HSD2 activity was estimated by the cortisol/cortisone ratio. The results were expressed as median (interquartile range (IQR)) values and compared using Kruskal-Wallis and Dunn's multiple-comparison tests.

RESULTS

As subject age increased, cortisol concentrations increased (Group 1 median = 8.6, IQR = 6.3-10.8 µg/dl; Group 4 median = 12.4, IQR = 10.7-14.7 µg/dl; P < 0.001), and cortisone concentrations showed a gradual decrease (Group 2 median = 4.0, IQR = 3.3-4.2 µg/dl; Group 4 median =2.8, IQR = 2.6-3.3 µg/dl; P < 0.01). As a consequence, the cortisol/cortisone ratio was higher in the oldest subjects (Group 4) than in the subjects from the other 3 groups; the ratios from Group 4 to Group 1 were 4.4 (IQR = 3.7-5.1) µg/dl, 3.3 (IQR = 2.7-3.8) µg/dl, 2.5 (IQR = 2.3-3.8) µg/dl, and 2.7 (IQR = 2.1-3.4) µg/dl, respectively (P < 0.01). The PRA decreased with age. Blood pressure levels increased with age but stayed within the normal range.

CONCLUSIONS

Cortisol and the cortisol/cortisone ratio increased with age, but cortisone decreased, suggesting a decrease in 11β-HSD2 activity. These results suggest that the cortisol-mediated activation of the mineralocorticoid receptor may explain the blood pressure increase in elderly subjects.

Regulation of cortisol bioavailability--effects on hormone measurement and action

Routine assessment of the hypothalamic-pituitary-adrenal axis relies on the measurement of total serum cortisol levels. However, most cortisol in serum is bound to corticosteroid-binding globulin (CBG) and albumin, and changes in the structure or circulating levels of binding proteins markedly affect measured total serum cortisol levels. Furthermore, high-affinity binding to CBG is predicted to affect the availability of cortisol for the glucocorticoid receptor. CBG is a substrate for activated neutrophil elastase, which cleaves the binding protein and results in the release of cortisol at sites of inflammation, enhancing its tissue-specific anti-inflammatory effects. Further tissue-specific modulation of cortisol availability is conferred by corticosteroid 11β-dehydrogenase. Direct assessment of tissue levels of bioavailable cortisol is not clinically practicable and measurement of total serum cortisol levels is of limited value in clinical conditions that alter prereceptor glucocorticoid bioavailability. Bioavailable cortisol can, however, be measured indirectly at systemic, extracellular tissue and cell levels, using novel techniques that have provided new insight into the transport, metabolism and biological action of glucocorticoids. A more physiologically informative approach is, therefore, now possible in the assessment of the hypothalamic-pituitary-adrenal axis, which could prove useful in clinical practice.

11β-hydroxystéroïde déshydrogénases. Avancées récentes

11beta-hydroxysteroide dehydrogenase (11beta-OHSD) enzymes exhibit a regulating action upon cortisol metabolism before access to its receptors. Two types of isoenzymes have been described, type 2 being the most anciently known. Type 2 11beta-OHSD, which changes cortisol into cortisone, is a unidirectional dehydrogenase mainly located in kidney, that protects mineralocorticoid receptors from illicit activation by glucocorticoids. Mutations of the gene coding for this enzyme has been demonstrated in apparent mineralocorticoid excess, which induces hypertension and hypokalemia with low renin and aldosterone levels. Polymorphisms of this gene could modulate essential hypertension and also be responsible for certain forms of acquired apparent mineralocorticoid excess especially after liquorice intoxication, in hypothyroidism, Cushing syndrome, and chronic renal insufficiency. Type 1 11beta-OHSD, which changes cortisone into cortisol, is a reductase, mainly located in liver and adipose tissue. Functional defects of this enzyme have been shown in polycystic ovaries and cortisone reductase deficiency. By contrast, metabolic syndrome, corticoid-induced osteoporosis, and glaucoma are linked to a local over-activity of this enzyme. The understanding of action mechanisms of these two enzymes currently leads to 11beta-OHSD inhibitors development, therefore opening new therapeutic strategies, especially in metabolic syndrome.

Discovery of orally active butyrolactam 11β-HSD1 inhibitors

A series of metabolically stable butyrolactam 11beta-HSD1 inhibitors have been synthesized and biologically evaluated. These compounds exhibit excellent HSD1 potency and HSD2 selectivity, pharmacokinetic, and pharmacodynamic profiles.

Synthesis and biological evaluation of heterocycle containing adamantane 11β-HSD1 inhibitors

A series of metabolically stable adamantane amide 11beta-HSD1 inhibitors have been synthesized and biologically evaluated. These compounds exhibit excellent HSD1 potency and HSD2 selectivity and good pharmacokinetic and pharmacodynamic profiles.

Hypertension in Cushing's syndrome

Cushing's syndrome can be exogenous, resulting from the administration of glucocorticoids or adrenocorticotrophic hormone (ACTH), or endogenous, secondary to increased secretion of cortisol or ACTH. Hypertension is one of the most distinguishing features of endogenous Cushing's syndrome, as it is present in about 80% of adult patients and in almost half of children and adolescents patients. Hypertension results from the interplay of several pathophysiological mechanisms regulating plasma volume, peripheral vascular resistance and cardiac output, all of which may be increased. The therapeutic goal is to find and remove the cause of excess glucocorticoids, which, in most cases of endogenous Cushing's syndrome, is achieved surgically. Treatment of Cushing's syndrome usually results in resolution or amelioration of hypertension. However, some patients may not achieve normotension or may require a prolonged period of time for the correction of hypercortisolism. Therefore, therapeutic strategies for Cushing's-specific hypertension (to normalise blood pressure and decrease the duration of hypertension) are necessary to decrease the morbidity and mortality associated with this disorder. The various pathogenetic mechanisms that have been proposed for the development of glucocorticoid-induced hypertension in Cushing's syndrome and its management are discussed.

Arginine vasopressin stimulates 11beta-hydroxysteroid dehydrogenase type 2 expression in the mineralocorticosteroid target cells

11Beta-hydroxysteroid dehydrogenase type 2 (11beta-HSD2) deficiency causes sodium retention and severe hypertension by allowing glucocorticoids access to the non-selective mineralocorticosteroid receptor. Understanding regulation of the HSD11B2 gene is thus of fundamental importance in hypertension research. A number of studies have suggested that second messenger pathways may be important in this regard. In the present study we show that HSD11B2 expression in human renal epithelial P58 cells is regulated at the mRNA and protein level, and that protein kinases A (PKA) and C (PKC) are involved in this process. PKA stimulation resulted in almost two-fold increase while PKC activation in almost two-fold decrease in the HSD11B2 mRNA and protein level. Western blot analysis revealed a dimeric form of 11beta-HSD2 of about 80kDa. Arginine vasopressin (AVP), acting through the AVP2 receptor, as well as 11beta-HSD2 substrates, corticosterone and dexamethasone, up-regulate HSD11B2 expression, suggesting their role as possible factors affecting blood pressure. We show that the activators of the PKA pathway induce, while activators of PKC pathway repress the expression of HSD11B2 in human renal epithelial cells. AVP, acting via the PKA pathway, might be a physiological stimulator of the HSD11B2 expression. The 11beta-HSD2 substrates, both natural (corticosterone) and synthetic (dexamethasone), might protect the mineralocorticosteroid-target cells against cortisol excess.

IMPACT OF CORTISOL ON alpha-ACTIN CONTENT IN VASCULAR SMOOTH MUSCLE CELLS OF FETAL SHEEP

The effects of gestation on a-actin levels in vascular smooth muscle aortae were studied in 31 fetal sheep, aged 66-144 days (term=150 days). Aortae were collected post-mortem. 2. Aortae, carotid and femoral arteries from two groups of chronically catheterized fetal sheep (110-114 days) were also examined. One group was infused with cortisol (n=6; hydrocortisone sodium succinate, total dose 16.8 mg in 48 h) and the control group received saline (0.15 mol/L, 0.33 mL/h, n=7). 3. Vascular homogenate protein was separated by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and western transfer. a-Actin was identified using a monoclonal mouse anti-a actin antibody and standardized against tissue protein and DNA content. 4. Between 60 and 144 days gestation, there was an exponential increase in the a-actin content of vascular smooth muscle cells from fetal sheep aorta (P<0.0001). a-Actin concentration (densitometry units (U) relative to DNA 260 nm absorbance (Abs)) was significantly (P<0.05) higher in the aortae of cortisol-infused (12,601+/- 2,499 U/Abs) fetal sheep compared with those that were saline-infused (4,514+/-670 U/Abs). a-Actin (relative to DNA absorbance) of carotid and femoral vessels in cortisol-infused animals (20,659+/- 4,812 U/Abs) compared with those that were saline-infused (14,461+/- 2,645 U/Abs) was increased, but the difference was not significant. 5. Therefore, the a-actin concentration of the vascular smooth muscle of the aorta increases throughout gestation. Cortisol treatment is associated with further increases in a-actin concentration in the fetal aorta, indicating that the development of large conduit vessels can be altered by this glucocorticoid.

[62 year-old patient with rapid progressive edema, low potassium and hypertension]

A 62 year-old patient was admitted to hospital with rapid progressive edema, low potassium and hypertension. This symptoms are caused by Cushing's syndrome through ectopic paraneoplastic ACTH-production. Primary neoplasm is a small cell cancer. A Sertoli-cell-tumor of the testis was diagnosed as an additional carcinoma. Palliative chemotherapy and adrenostatic agents did not improve the clinical findings and the patient died eight weeks after admission.

Validation of the plasma half-life of 11alpha-deuterium cortisol as a sensitive index for the analysis of human 11beta-HSD2 activity in vivo

This study is concerned with validating the measurement of the plasma half-life of 11alpha-(2)H cortisol in an attempt to accurately assess the in vivo activity of 11beta-HSD2 in man. Oral administration of 5mg of cortisol-(13)C(4),(2)H(1) to a human subject after repeated ingestions of 130mg/day of glycyrrhetinic acid for 5 days resulted in a decrease in the rate constant of the cortisol-(13)C(4),(2)H(1) to cortisone-(13)C(4) conversion, a direct index reflecting 11beta-HSD2 activity. The reduced 11beta-HSD2 activity led to an increase in the elimination half-life of cortisol-(13)C(4),(2)H(1), indicating that the loss of 11alpha-(2)H is a sensitive in vivo means of assessing 11beta-HSD2 activity. A simultaneous oral administration of 3mg each of [1,2,4,19-(13)C(4),11alpha-(2)H]cortisol (cortisol-(13)C(4),(2)H(1)) and 11alpha-(2)H cortisol to another human subject confirmed the bioequivalency of the two labeled cortisols. The information obtained from the kinetic analysis of the 11beta-HSD2-catalyzed conversion of cortisol-(13)C(4),(2)H(1) to cortisone-(13)C(4) indicated that the elimination half-life of 11alpha-(2)H cortisol was a sensitive index of renal 11beta-HSD2 activity. The use of 11alpha-(2)H cortisol as a tracer appears to offer a significant advance in evaluating human 11beta-HSD2 activity in vivo.

Perhydroquinolylbenzamides as Novel Inhibitors of 11β-Hydroxysteroid Dehydrogenase Type 1

High-throughput screening identified 5 as a weak inhibitor of 11beta-HSD1. Optimization of the structure led to a series of perhydroquinolylbenzamides, some with low nanomolar inhibitory potency. A tertiary benzamide is required for biological activity and substitution of the terminal benzamide with either electron-donating or -withdrawing groups is tolerated. The majority of the compounds show selectivity of >20 to >700-fold over 11beta-HSD2. Analogues which showed >50% inhibition of 11beta-HSD1 at 1 muM in an cellular assay were screened in an ADX mouse model. A maximal response of >70% reduction of liver corticosterone levels was observed for three compounds; 9m, 25 and 49.

Serum cortisol and cortisone levels in newborns with congenital adrenal hyperplasia before the start of therapy

Sodium loss in infants with salt wasting (SW) congenital adrenal hyperplasia (CAH) does usually not occur within the first week of life. We hypothesized that sufficient mineralocorticoid activity might by temporarily maintained by still appropriate concentrations of cortisol. Plasma samples were obtained from 15 infants with SW-CAH before the onset of sodium loss, 17 patients with simple virilizing (SV)-CAH and 28 healthy infants under 14 days of age. Plasma aldosterone concentrations were significantly lower in SW-CAH infants than in SV-CAH patients and in healthy neonates. Plasma cortisol levels and cortisol/cortisone (F/E) ratios in SW-CAH patients were almost the same as in the SV-CAH and control group. While declining plasma aldosterone levels precede the onset of SW in CAH patients, plasma cortisol concentrations are kept normal in SW-CAH infants, temporarily maintaining sufficient mineralocorticoid activity.

Links between dietary salt intake, renal salt handling, blood pressure, and cardiovascular diseases

Epidemiological, migration, intervention, and genetic studies in humans and animals provide very strong evidence of a causal link between high salt intake and high blood pressure. The mechanisms by which dietary salt increases arterial pressure are not fully understood, but they seem related to the inability of the kidneys to excrete large amounts of salt. From an evolutionary viewpoint, the human species is adapted to ingest and excrete <1 g of salt per day, at least 10 times less than the average values currently observed in industrialized and urbanized countries. Independent of the rise in blood pressure, dietary salt also increases cardiac left ventricular mass, arterial thickness and stiffness, the incidence of strokes, and the severity of cardiac failure. Thus chronic exposure to a high-salt diet appears to be a major factor involved in the frequent occurrence of hypertension and cardiovascular diseases in human populations.

Use of 11alpha-deuterium labeled cortisol as a tracer for assessing reduced 11beta-HSD2 activity in vivo following glycyrrhetinic acid ingestion in a human subject

This study describes an oral administration of 5 mg of [1,2,4,19-13C4,11alpha-2H]cortisol (cortisol-13C4,2H1) to a human subject performed on two separate occasions, one with cortisol-13C4,2H1 alone and the other with cortisol-13C4,2H1 plus 130 mg per day of glycyrrhetinic acid for 6 days. The stable isotope methodology employed allowed for the evaluation of the individual in vivo activities of the two isozymes of 11beta-hydroxysteroid dehydrogenase (11beta-HSD), 11beta-HSD1 and 11beta-HSD2, and to demonstrate the sensitivity of changes in cortisol elimination half-life for detecting inhibition of 11beta-HSD2 activity induced with glycyrrhetinic acid. The kinetic analysis associated with the loss of 11alpha-2H during the conversion of cortisol-13C4,2H1 to cortisone-13C4 by 11beta-HSD2 clearly indicated reduced 11beta-HSD2 activity with glycyrrhetinic acid ingestion, as observed by an increase in the elimination half-life of cortisol-13C4,2H1. The elimination half-life of cortisol-13C4,2H1 provided sensitive in vivo measures of 11beta-HSD2 activity and was more sensitive for detecting changes in renal 11beta-HSD2 activity than the measurement of the urinary ratio of free cortisol and free cortisone (UFF/UFE). The 2H-labeling in the 11alpha-position of cortisol served as an appropriate tracer for assessing the reduced 11beta-HSD2 activity in vivo induced by glycyrrhetinic acid.

Plasma cortisol and cortisone concentrations in normal subjects and patients with adrenocortical disorders

Two isozymes of the 11beta-hydroxysteroid dehydrogenase (11-HSD) are responsible for the interconversion of cortisol (F) and cortisone (E). The type 1 isozyme, 11-HSD1, acts mainly as a reductase in vivo, activating E to F, whereas the type 2, 11-HSD2, acts as a dehydrogenase, inactivating F to E. 11-HSD1 is the most abundant in the liver and 11-HSD2 in the kidney. In this study, we attempted to determine which isozyme and organs primarily contribute to equilibrium of plasma F and E concentrations in the peripheral circulation and to clarify differences in 11-HSD activities among adrenocortical disorders. Upon selective catheterizations for adrenocortical and renovascular disorders, plasma F and E concentrations in the femoral vein were closer to those in the renal vein than those in the hepatic vein. Values for mean plasma F/E ratios in the peripheral vein were in-between those of the adrenal and renal veins. A double reciprocal plot between peripheral plasma F and E concentrations in patients with various adrenocortical tumors was almost identical to that in normal subjects. Mean plasma F/E ratio in peripheral blood was higher in patients with Cushing's syndrome and was lower in patients with primary aldosteronism and nonfunctioning adrenocortical adenoma than that in normal subjects. These results suggest that renal 11-HSD2 is a main factor controlling the equilibrium of plasma F and E concentrations in the periphery and that cortisol and aldosterone excess do not change the equilibrium of plasma F and E concentrations in the peripheral circulation, but may alter expression of 11-HSD2. Alternation of 11-HSD2 activities as well as corticosteroid levels may be important in the pathophysiology of adrenocortical disorders.

Pseudohyperaldosteronism: pathogenetic mechanisms

Pseudohyperaldosteronism is characterized by a clinical picture of hyperaldosteronism with suppression of plasma renin activity and aldosterone. Pseudohyperaldosteronism can be due to a direct mineralocorticoid effect, as with desoxycorticosterone, fluorohydrocortisone, fluoroprednisolone, estrogens, and the ingestion of high amounts of glycyrrhetinic acid. A block of 11-hydroxysteroid-dehydrogenase type 2 (11HSD2), the enzyme that converts cortisol into cortisone, at the level of epithelial target tissues of aldosterone, is involved in other cases. This mechanism is related either to a mutation of the gene, which encodes 11HSD2 (apparent mineralocorticoid excess syndrome and some cases of low renin hypertension) or to an acquired reduction of the activity of the enzyme due to glycyrrhetinic acid, carbenoxolone, and grapefruit juice. In other cases saturation of 11HSD2 may be involved as in severe Cushing's syndrome and chronic therapy with some corticosteroids. Recently, an activating mutation of the mineralocorticoid receptor gene has been described. Another genetic cause of pseudohyperaldosteronism is the syndrome of Liddle, which is due to a mutation of the gene encoding for beta and gamma subunits of the sodium channels.

Inhibitory effect of glucocorticoid on coronary artery endothelial function

Acute and chronic stresses are implicated in cardiovascular diseases including coronary artery disease. The present study was designed to examine the direct effects of the stress hormone cortisol on nitric oxide (NO) release and endothelial NO synthase (eNOS) expression in cultured bovine coronary artery endothelial cells (BCAEC). Nitrate, nitrite, and NO (NO(x)) were measured by the chemiluminescence method. At 24 h after treatment, cortisol (1 nM-10 microM) produced a dose-dependent decrease in NO(x) release, which was attenuated in the presence of the 11beta-hydroxysteroid dehydrogenase inhibitor carbenoxolone (3 microM). In accordance, eNOS protein levels were significantly decreased by cortisol in a dose-dependent manner. Cortisol pretreatment significantly increased the rate of eNOS protein degradation in the presence of cycloheximide. In addition, cortisol pretreatment decreased ATP-induced intracellular Ca(2+) elevation and NO(x) release in BCAEC. The presence of glucocorticoid receptors in BCAEC was demonstrated by Western blot. The results suggest that cortisol, through activation of glucocorticoid receptors, suppresses NO(x) release in BCAEC by downregulating eNOS proteins and inhibiting intracellular Ca(2+) mobilization. Decreased NO(x) is likely to result in an increase in contraction of coronary arteries, leading to a decrease in coronary blood flow.

Adrenocorticotropic hormone in the aetiology and regression of neuroblastoma

Neuroblastoma is predominantly a paediatric neoplasm of the sympathetic nervous system. Despite the aggressive nature of the disease, spontaneous regression is frequently observed in infants diagnosed under the age of 12 months; especially with a specific stage referred to as stage 4s. Discovering the conditions, the elements, the mechanism and the indices behind this regression phenomenon could have therapeutic potential for prevention and cure. A review of the literature has implicated adrenocorticotropin hormone in both the aetiology and spontaneous regression of neuroblastoma. Manipulation of adrenocorticotropin hormone may offer hope for prevention and cure. Ingestible products such as retinoic acid, glycyrrhizic acid, salsolinol and ketoconazole acting in concert, could represent instrumental tools in a therapeutic manipulation process.

Survey of oral hydrocortisone utilization in Madrid (Spain)

A progressive 69% increase in sales of hydrocortisone tablets was observed in Spain from 1988 to 1995. But there were no data suggesting an increase in the number of adrenal insufficiency cases. We aimed to assess the hydrocortisone prescription habits of physicians in 1996 in Madrid (Spain). An anonymous mail questionnaire was sent to 6130 randomly selected physicians (3345 generalists and 2785 specialists) of Madrid. Five hundred and forty-six questionnaires (8.8%) were returned. Three hundred and eighteen physicians (58.2%) sometimes prescribed oral hydrocortisone. 70.8% of these physicians prescribed hydrocortisone for chronic adrenal insufficiency, 17.3% for acute adrenal insufficiency, 7.9% for congenital adrenal hyperplasia, and 30.2% for inflammatory diseases (asthma, allergic diseases, urticaria, rheumatic diseases, ulcerative colitis). Prescription for inflammatory diseases was more frequent in male physicians, physicians older than 40 years, and general practitioners. We can conclude that the main indication for hydrocortisone prescription was chronic adrenal insufficiency but there was a significant number of physicians that used the drug in inflammatory diseases. As a drastic increase in prevalence of adrenal insufficiency seems unlikely, the augmentation in sales of hydrocortisone could be explained by its prescription for other pathologies.

Glucocorticoid regulation of human and ovine parturition: the relationship between fetal hypothalamic-pituitary-adrenal axis activation and intrauterine prostaglandin production

Birth in many animal species and in humans is associated with activation of hypothalamic-pituitary-adrenal function in the fetus and the increased influence of glucocorticoids on trophoblast cells of the placenta and fetal membranes. We suggest that in ovine pregnancy glucocorticoids directly increase fetal placental prostaglandin production, and indirectly increase prostaglandin production by maternal uterine tissues through the stimulation of placental estradiol synthesis. The events of ovine parturition are compared with those of human parturition. In the latter, we suggest similar direct effects of glucocorticoids on prostaglandin synthesis and metabolism in fetal membranes and similar indirect effects mediated by glucocorticoid-stimulated increases in intrauterine corticotropin-releasing hormone expression.

Green fluorescent protein mutant as label in homogeneous assays for biomolecules

The green fluorescent protein (GFP) and its mutants have been extensively used to study various cellular processes and, more recently, as labels in binding assays. We have employed a mutant of GFP, an enhanced GFP (EGFP), in the development of homogeneous assays for biotin and cortisol. To demonstrate the feasibility of using EGFP as a label with different kinds of binders in the development of homogeneous assays, we employed the biotin-avidin and an antigen-antibody as the binding pairs. Biotin and cortisol were chemically conjugated to EGFP. A quenching of fluorescence intensity of EGFP was observed upon binding of avidin to the EGFP-biotin conjugate. The percentage fluorescence quenching observed decreased as the concentration of free biotin in the sample increased due to the fewer binding sites on avidin available for binding to the EGFP-biotin conjugate. A dose-response curve for biotin was generated by relating percentage fluorescence quenched with free biotin in the sample. To determine whether EGFP can undergo a similar type of homogeneous change when used as a label for antigen-antibody type of binding, cortisol was selected as a model analyte. In the presence of an anti-cortisol antibody the fluorescence signal of the EGFP-cortisol conjugate was quenched. A dose-response curve for cortisol was generated by relating the quenching in the fluorescence signal with varying amounts of free cortisol in the sample. This is the first time that GFP or one of its mutants has been employed as a label in homogeneous assays, thus enhancing the versatility of employing GFP or its mutants in a number of bioanalytical applications, such as clinical analysis and high-throughput screening systems.

A population physiologically based pharmacokinetic/pharmacodynamic model for the inhibition of 11-beta-hydroxysteroid dehydrogenase activity by glycyrrhetic acid

Glycyrrhizic acid is widely applied as a sweetener in food products and chewing tobacco. Habitual consumption of this compound may lead to hypertension and electrolyte disturbances due to inhibition of 11-beta-hydroxysteroid dehydrogenase by the metabolite glycyrrhetic acid. The effect of 130 mg glycyrrhetic acid/day for 5 days on 11-beta-hydroxysteroid dehydrogenase activity was studied by measuring the cortisol-cortisone ratio in 24-h urine. A twofold increase in this ratio was observed. It took 4 days for the elevated urinary cortisol-cortisone ratio to return to the baseline ratio after cessation of the treatment. The pharmacokinetics of glycyrrhetic acid were studied after the first and last dose. Using data from a previously performed single-dose study and present multiple-dose treatment, a physiologically based pharmacokinetic model for glycyrrhetic acid was developed. The variability of the pharmacokinetics of glycyrrhetic acid in the population studied could be explained for a considerable part by interindividual differences in gastrointestinal transit of glycyrrhetic acid metabolites. The relationship between glycyrrhetic acid exposure and changes in urinary cortisol-cortisone ratio was described by a pharmacodynamic model, using nonlinear mixed-effect modeling. Literature data on the inhibitory effect of glycyrrhetic acid on 11-beta-hydroxysteroid dehydrogenase activity under various exposure scenarios could be adequately described by the model. Due to the relationship between the pharmacokinetics of glycyrrhetic acid and its inhibitory effect on 11-beta-hydroxysteroid dehydrogenase activity, reflected by a change in the urinary cortisol-cortisone ratio, this ratio might serve as a noninvasive marker to identify individuals at risk for glycyrrhizic acid over-consumption.

Evidence for change of 11beta-hydroxysteroid dehydrogenase activity during infancy and childhood

The conversion of cortisol (F) to cortisone (E) is catalyzed by 11beta-hydroxysteroid dehydrogenase type 2. The present study was designed to investigate the changes of F and E plasma concentration as an indirect measurement of 11beta-hydroxysteroid dehydrogenase activity in infancy and childhood. Plasma samples were obtained from 262 healthy children and adolescents aged 1 d to 18 y. Plasma F and E were measured, using specific radioimmunoassays after extraction and automated Sephadex LH 20 chromatography. The F/E ratio was calculated to assess 11beta-hydroxysteroid dehydrogenase activity. During the first year of life, plasma F levels rose significantly (r(2) = 0,24; p = 0.01), and thereafter no further increase was seen until adulthood (r(2) = 0.01; p = 0.86). In contrast, plasma E significantly decreased during the first year of life (r(2) = -0.35; p<0.001) and stayed unchanged thereafter (r(2) = 0.02; p = 0.81). As a consequence, the F/E ratio rose significantly during the first year (r(2) = 0.67; p<0.001) but did not change afterward (r(2) = 0.001; p = 0.99). During the first year of life, there is a change from the predominance of E, with low mineralocorticoid receptor affinity, to F, with high mineralocorticoid receptor affinity. This shift corresponds to the declining plasma concentrations of aldosterone during infancy. The changes may indicate a not yet recognized, significant change of 11beta-hydroxysteroid dehydrogenase isoenzyme activity or alterations in the secretion of F and E, which may be of relevance for the development of arterial blood pressure in infancy.