Downregulation of exosomal miR-192-5p and miR-204-5p in subjects with nonclassic apparent mineralocorticoid excess.

BACKGROUND: The "nonclassic" apparent mineralocorticoid excess (NC-AME) has been identified in approximately 7% of general population. This phenotype is characterized by low plasma renin activity (PRA), high serum cortisol (F) to cortisone (E) ratio, low cortisone, high Fractional Excretion of potassium (FEK) and normal-elevated systolic blood pressure (SBP). An early detection and/or identification of novel biomarkers of this phenotype could avoid the progression or future complications leading to arterial hypertension. Isolation of extracellular vesicles, such as exosomes, in specific biofluids support the identification of tissue-specific RNA and miRNA, which may be useful as novel biomarkers. Our aim was to identify miRNAs within urinary exosomes associated to the NC-AME phenotype. METHODS: We perform a cross-sectional study in a primary care cohort of 127 Chilean subjects. We measured BP, serum cortisol, cortisone, aldosterone, PRA. According to the previous reported, a subgroup of subjects was classified as NC-AME (n = 10). Urinary exosomes were isolated and miRNA cargo was sequenced by Illumina-NextSeq-500. RESULTS: We found that NC-AME subjects had lower cortisone (p < 0.0001), higher F/E ratio (p < 0.0001), lower serum potassium (p = 0.009) and higher FEK 24 h (p = 0.03) than controls. We found miR-204-5p (fold-change = 0.115; p 0.001) and miR-192-5p (fold-change = 0.246; p 0.03) are both significantly downregulated in NC-AME. miR-192-5p expression was correlated with PRA (r = 0.45; p 0.028) and miR-204-5p expression with SBP (r = - 0.48, p 0.027) and F/E ratio (r = - 0.48; p 0.026). CONCLUSIONS: These findings could support a potential role of these miRNAs as regulators and novel biomarkers of the NC-AME phenotype.

Clinical, Biochemical, and Genetic Characteristics of "Nonclassic" Apparent Mineralocorticoid Excess Syndrome.

Context: Classical apparent mineralocorticoid excess (AME) is a rare recessive disorder, caused by severe 11ß-hydroxysteroid dehydrogenase type 2 enzyme (11ß-HSD2) deficiency. AME manifests as low-renin pediatric hypertension, hypokalemia and high cortisol/cortisone (F/E) ratio. Objective: To evaluate nonclassic AME (NC-AME) due to partial 11ß-HSD2 insufficiency and its association with hypertension, mineralocorticoid receptor (MR) activation, and inflammatory parameters. Design: Cross-sectional study. Setting: Primary care cohort. Participants: We recruited 127 adolescents and adults. Subjects with secondary hypertension were excluded. We measured clinical, biochemical, renal, vascular, and inflammatory variables. Sequencing of HSD11B2 gene was performed in all subjects. Main Outcome Measure: NC-AME. Results: Serum F/E ratio was positively associated with systolic blood pressure (BP), microalbuminuria, and high-sensitivity C-reactive protein (hs-CRP). Serum cortisone correlated with MR activation parameters even when adjusted for age, body mass index, and sex: lower cortisone with higher potassium excretion (partial r = -0.29, P = 0.002) and with lower plasma renin activity (PRA) (partial r = 0.29, P = 0.001). Consistently, we identified 9 in 127 subjects (7.1%) with high F/E ratios (first quartile) and low cortisone (last quartile), suggestive of NC-AME. These subjects had higher systolic BP, 141.4 ± 25.7 mm Hg vs 127.3 ± 18.1 mm Hg, P = 0.03; lower PRA, 0.36 ± 0.19 ng/L*s vs 0.64 ± 0.47 ng/L*s, P < 0.0001; and greater potassium excretion, microalbuminuria, hs-CRP, and plasminogen activator inhibitor. We only found in 2 out of 9 subjects with NC-AME heterozygous mutations in the HSD11B2 gene. Conclusions: These findings suggest a spectrum of partial 11ß-HSD2 insufficiency in a primary care cohort without the classic phenotype and genotype of AME. NC-AME may represent a phenotype of MR activation and cardiovascular risk, suggesting that these subjects could be treated with MR antagonists.

Serum Cortisol and Cortisone as Potential Biomarkers of Partial 11ß-Hydroxysteroid Dehydrogenase Type 2 Deficiency.

BACKGROUND: Pathogenic variations in HSD11B2 gene triggers the apparent mineralocorticoid excess syndrome (AME). There is scarce information regarding the phenotypes of subjects carrying heterozygous pathogenic variants in HSD11B2 gene. We investigated if serum cortisol/cortisone (F/E) ratio and cortisone are useful for identifying partial 11ßHSD2 deficiency in those heterozygous subjects. METHODS: We studied two patients diagnosed with AME and their families carrying either D223N or R213C mutation. We also evaluated 32 healthy control subjects (13 children and 19 adults) to obtain normal references ranges for all measured variables. Case 1: A boy carrying D223N mutation in HSD11B2 gene and Case 2: A girl carrying R213C mutation. We assessed serum F/E ratio and cortisone by HPLC-MS/MS, aldosterone, plasma-renin-activity(PRA), electrolytes, and HSD11B2 genetic analyses. RESULTS: The normal values (median [interquartile range]) in children for serum F/E and cortisone (µg/dl) were 2.56 [2.21-3.69] and 2.54 [2.35-2.88], and in adults were 4.42 [3.70-4.90] and 2.23 [1.92-2.57], respectively. Case 1 showed a very high serum F/E 28.8 and low cortisone 0.46 µg/dl. His mother and sister were normotensives and heterozygous for D223N mutation with high F/E (13.2 and 6.0, respectively) and low cortisone (2.0 and 2.2, respectively). Case 2 showed a very high serum F/E 175 and suppressed cortisone 0.11 µg/dl. Her parents and sister were heterozygous for the R213C mutation with normal phenotype, but high F/E and low cortisone. Heterozygous subjects showed normal aldosterone, PRA, but lower fractional excretion of sodium and urinary Na/K ratio than controls. CONCLUSION: Serum F/E ratio and cortisone allow to identify partial 11ßHSD2 deficiencies, as occurs in heterozygous subjects, who would be susceptible to develop arterial hypertension.

Apparent mineralocorticoid excess syndrome in a Brazilian boy caused by the homozygous missense mutation p. R186C in the HSD11B2 gene / Síndrome de excesso aparente de mineralocorticóide em um menino brasileiro causada pela mutação p. R186C em homozigose no gene HSD11B2

The apparent mineralocorticoid excess syndrome (AME) is a rare autosomal recessive disorder due to the deficiency of 11β-hydroxysteroid dehydrogenase type 2 enzyme (11beta-HSD2). The 11beta-HSD2 enzyme, encoded by HSD11B2 gene, metabolizes active cortisol in cortisone. Mutations on HSD11B2 gene affect the enzyme activity by leading to an excess of cortisol, which causes its inappropriate access to mineralocorticoid receptor. Therefore, cortisol will bind mineralocorticoid receptor. The human HSD11B2 gene maps to chromosome 16q22 and consists of five exons encoding a protein of 405 amino acids. We present here clinical and molecular studies on a Brazilian boy who was born pre-term after an oligodramnious pregnancy. He was diagnosed as having AME at the age of 26 months. His parents are second cousins. Molecular characterization of the HSD11B2 gene revealed the homozygous mutation p.R186C. The patient described here is the second case of HDS11B2 gene mutation reported in Brazilian patients with AME.

A síndrome de excesso aparente de mineralocorticóide (AME) é uma doença autossômica recessiva rara devido à deficiência da enzima 11β-hidroxiesterσide desidrogenase tipo 2 (11beta-HSD2). A enzima 11beta-HSD2 metaboliza o cortisol ativo a cortisona. As mutações no gene HSD11B2, que codifica a enzima, afetam sua atividade levando a um excesso de cortisol, que terá acesso inapropriado ao receptor de mineralocorticóide, competindo com a ligação da aldosterona. O gene HDS11B2 humano está localizado no cromossomo 16q22 e é formado por 5 éxons que codificam uma proteína de 405 aminoácidos. Este relato apresenta os estudos clínicos e moleculares de um paciente brasileiro do sexo masculino que nasceu prematuro depois de uma gestação sob oligodrâmnio. Recebeu o diagnóstico de AME com 26 meses de idade. Seus pais são primos em segundo grau. A caracterização molecular do gene HSD11B2 revelou a mutação p.R186C em homozigose. O paciente descrito é o segundo caso relatado de brasileiro com mutação no gene HSD11B2.

Apparent mineralocorticoid excess syndrome in a Brazilian boy caused by the homozygous missense mutation p.R186C in the HSD11B2 gene.

The apparent mineralocorticoid excess syndrome (AME) is a rare autosomal recessive disorder due to the deficiency of 11beta-hydroxysteroid dehydrogenase type 2 enzyme (11beta-HSD2). The 11beta-HSD2 enzyme, encoded by HSD11B2 gene, metabolizes active cortisol in cortisone. Mutations on HSD11B2 gene affect the enzyme activity by leading to an excess of cortisol, which causes its inappropriate access to mineralocorticoid receptor. Therefore, cortisol will bind mineralocorticoid receptor. The human HSD11B2 gene maps to chromosome 16q22 and consists of five exons encoding a protein of 405 amino acids. We present here clinical and molecular studies on a Brazilian boy who was born pre-term after an oligodramnious pregnancy. He was diagnosed as having AME at the age of 26 months. His parents are second cousins. Molecular characterization of the HSD11B2 gene revealed the homozygous mutation p.R186C. The patient described here is the second case of HDS11B2 gene mutation reported in Brazilian patients with AME.

Apparent mineralocorticoid excess syndrome: an overview

A síndrome do excesso aparente de mineralocorticóides (SEAM) resulta de defeito na 11b-hidroxisteróide desidrogenase tipo 2 (11b-HSD2). Esta enzima é co-expressa com o receptor mineralocorticóide (RM) nos rins e converte cortisol (F) em cortisona (E), seu metabólito inativo. Deficiência desta enzima permite que o cortisol não metabolizado se ligue ao RM, induzindo retenção de sódio, hipocalemia, supressão da APR e hipertensão. Mutações no gene que codifica a 11b-HSD2 são responsáveis pela forma herdada, mas um quadro clínico semelhante de SEAM ocorre durante ingestão dos bioflavonóides, alcaçuz e carbenoxolona, que são inibidores competitivos da 11b-HSD2. Redução na atividade da 11b-HSD2 pode explicar o aumento da retenção de sódio na pré-eclâmpsia, na doença renal e na cirrose hepática. Deficiência relativa de atividade da 11b-HSD2 pode ocorrer na síndrome de Cushing devido à saturação da enzima e explicar o estado de excesso mineralocorticóide que caracteriza a síndrome do ACTH ectópico. Redução da expressão placentária da 11b-HSD2 poderia justificar a ligação entre baixo peso ao nascer e hipertensão no adulto. Variabilidade polimórfica no gene HSD11B2 determina, em parte, a sensibilidade ao sódio, um preditor do surgimento da hipertensão no adulto. A SEAM representa um espectro de hipertensão mineralocorticóide cuja severidade reflete o defeito genético de base na 11b-HSD2; embora a SEAM seja uma doença genética, vários compostos exógenos podem provocar os sintomas pela inibição da 11b-HSD2. O excesso de substrato, visto na síndrome de Cushing e na produção ectópica de ACTH, pode sobrepujar a capacidade da 11b-HSD2 de converter F em E, levando a uma forma adquirida de SEAM.

Apparent mineralocorticoid excess syndrome: an overview.

Apparent mineralocorticoid excess (AME) syndrome results from defective 11beta-hydroxysteroid dehydrogenase type 2 (11beta-HSD2). This enzyme is co-expressed with the mineralocorticoid receptor (MR) in the kidney and converts cortisol (F) to its inactive metabolite cortisone (E). Its deficiency allows the unmetabolized cortisol to bind to the MR inducing sodium retention, hypokalemia, suppression of PRA and hypertension. Mutations in the gene encoding 11beta-HSD2 account for the inherited form, but a similar clinical picture to AME occurs following the ingestion of bioflavonoids, licorice and carbenoxolone, which are competitive inhibitors of 11beta-HSD2. Reduced 11beta-HSD2 activity may explain the increased sodium retention in preeclampsia, renal disease and liver cirrhosis. Relative deficiency of 11beta-HSD2 activity can occur in Cushing's syndrome due to saturation of the enzyme and explains the mineralocorticoid excess state that characterizes ectopic ACTH syndrome. Reduced placental 11beta-HSD2 expression might explain the link between reduced birth weight and adult hypertension. Polymorphic variability in the HSD11B2 gene in part determines salt sensitivity, a forerunner for adult hypertension onset. AME represents a spectrum of mineralocorticoid hypertension with severity reflecting the underlying genetic defect in the 11beta-HSD2; although AME is a genetic disorder, several exogenous compounds can bring about the symptoms by inhibiting 11beta-HSD2 enzyme. Substrate excess as seen in Cushing's syndrome and ACTH ectopic production can overwhelm the capacity of 11beta-HSD2 to convert F to E, leading up to an acquired form of AME.