New mineralocorticoids and adrenocorticosteroids in hypertension

Peripheral precocious puberty in Li-Fraumeni syndrome: a case report and literature review of pure androgen-secreting adrenocortical tumors

INTRODUCTION

Pure androgen-secreting adrenocortical tumors are a rare but important cause of peripheral precocious puberty.

CASE PRESENTATION

Here, we report a pure androgen-secreting adrenocortical tumor in a 2.5-year-old boy presenting with penile enlargement, pubic hair, frequent erections, and rapid linear growth. We confirmed the diagnosis through laboratory tests, medical imaging, and histology. Furthermore, genetic testing detected a pathogenic germline variant in the TP53 gene, molecularly confirming underlying Li-Fraumeni syndrome.

DISCUSSION

Only 15 well-documented cases of pure androgen-secreting adrenocortical tumors have been reported so far. No clinical or imaging signs were identified to differentiate adenomas from carcinomas, and no other cases of Li-Fraumeni syndrome were diagnosed in the four patients that underwent genetic testing. However, diagnosing Li-Fraumeni syndrome is important as it implies a need for intensive tumor surveillance and avoidance of ionizing radiation.

CONCLUSION

In this article, we emphasize the need to screen for TP53 gene variants in children with androgen-producing adrenal adenomas and report an association with arterial hypertension.

Digoxin-like immunoreactivity, displacement of ouabain and inhibition of Na+/K+ ATPase by four steroids known to be increased in essential hypertension

An endogenous digoxin-like immunoreactive substance(s) (DLIS, "endoxin") may be of significance in the etiology of essential hypertension (EH). Progesterone, dehydroepiandrosterone sulphate (DHEA-S), 11-deoxycortisol and 18-hydroxy-11-deoxycorticosterone (18-OH-DOC), four steroids known to be increased in essential hypertension, were found to have digoxin-like immunoreactivity at levels 1,000 times higher than physiological concentrations. Of these steroids, progesterone and 18-OH-DOC were the most efficient in displacing 3H-ouabain from canine kidney Na+/K+ ATPase whereas progesterone and 11-deoxycortisol were the most potent inhibitors of this enzyme's activity. Although 18-OH-DOC and DHEA-S cross-reacted with digoxin-specific antibodies, their ability to inhibit Na+/K+ ATPase activity was minimal. Although it is concluded that these steroids may contribute to DLIS as isolated from hypertensive patients, it is unlikely that they would be of physiological significance in the etiology of EH unless they were to accumulate and act synergistically within vascular wall smooth muscle tissues.

Corticosteroid regulation of electrolytes

It is proposed that sodium and potassium are regulated by varying the amounts of aldosterone, DOC, 18 OH-DOC, and 16 alpha 18 dihydroxy 11 deoxycorticosterone secreted in response to the nutritional load. The first two steroid hormones are for high potassium and the second two for low potassium intake. The nutritional load acts on potassium regulators primarily through its affect on serum potassium. The first and third steroids are proposed for low sodium intake.

Analysis of natural corticosteroids in adrenal extracts and in biological fluids by high-performance liquid chromatography

A liquid chromatographic procedure is described for the analysis of the principal natural corticosteroids in extracts of adrenal glands. Microparticulate silicic acid columns and gradients of methanol in chloroform are used: conditions are described for the quantitative analysis of the single principal steroidal components of adrenal extracts for pharmaceutical use and of adrenal extracts of rats. In the last case, the use of a 5-micron silica column with the appropriate gradient allows the determination of corticosterone and of 18-hydroxydeoxycorticosterone, which were identified by means of mass spectrometry on their eluates. A single analysis can be performed on the extract of 15 mg of rat adrenal tissue. For the last type of analysis, isocratic conditions on a 10-micron LiChrosorb Diol column are also described. The application of the gradient elution procedure to the analysis of steroidal compounds in human plasma is also described.

Serum uric acid and the renin-angiotensin system in hypertension

To study whether the renin-angiotensin system is related to hyperuricemia in hypertension, the serum concentration of uric acid was determined in 96 patients with various types of hypertension and various degrees of plasma renin activity (PRA). In malignant hypertension, both PRA and the serum uric acid level were higher than in essential hypertension; but in primary aldosteronism or desoxycorticosterone-excess hypertension, they were lower than in the essential type. In renovascular hypertension, PRA was higher than in essential hypertension, but the serum uric acid levels were similar. There were no differences in PRA and serum uric acid concentration between Cushing's syndrome and essential hypertension. The serum uric acid level in high-renin essential hypertension was higher than in either the normal-renin or the low-renin type. There was a significant correlation between serum uric acid concentration and PRA in the basal state, and between the change in PRA and the change in serum uric acid induced by administration of furosemide. Apparently the close correlation between the renin-angiotensin system and the concentration of serum uric acid is related to changes in extracellular fluid volume, although an intrarenal effect of angiotensin II cannot be excluded.

Dexamethasone-responsive hypertension in young women with suppressed renin and aldosterone

Pronounced hypoaldosteronism was found in three young women with hypertension and symptoms of mineralocorticoid overproduction--i.e., hyporeninaemia, hypokalaemia, and a fall in blood-pressure after diuretic therapy. Plasma 11-deoxycorticosterone and 18-hydroxy-11-dooxycorticosterone concentrations were normal Treatment with dexamethasone induced a return to normal of blood-pressure and plasma-potassium and an increase in plasma-renin activity and urinary aldosterone excretion. The data suggest that hypertension in these patients is maintained by overproduction of an unknown adrenocorticotropindependent mineralocortocoid.

Subtraction potential difference: In-vivo assay for mineralocorticoid activity

Parallel fluctuations of potential difference (P.D.) across oral and rectal mucosa are probably related to the activity of autonomic nerves rather than adrenal steroids. Unlike rectal mucosa, oral mucosa does not respond to exogenous or endogenous aldosterone. Therefore subtraction of oral P.D. from rectal P.D. gives a closer indication of mineralocorticoid activity than does rectal P.D. alone. In normal subjects plasma-aldosterone correlated well with subtraction P.D. (r = 0.74; P is less than 0.001). A subtraction P.D. higher than 26 mV in subjects on a normal sodium intake indicated primary or secondary hyperaldosteronism; if the level was lower than 11 mV four hours after intramuscular injection of 0.25 mg tetracosactrin this suggested mineralocorticoid deficiency. Measurement of oral and rectal P.D. permits rapid and inexpensive diagnosis of aldosterone excess and deficiency. The method may also be used in study of the mineralocorticoid effect of other adrenal steroids: as assessed with this bioassay, the plasma 18-OH-deoxycorticosterone, which is raised in some patients with essential hypertension, lacked any in vivo mineralocorticoid activity.