Anne Marie Lefrançois-Martinez scite author profile

Adrenocortical carcinoma is a rare but aggressive cancer with unknown aetiology. Constitutive activation of beta-catenin is the most frequent alteration in benign and malignant adrenocortical tumours in patients. Here, we show that constitutive activation of beta-catenin in the adrenal cortex of transgenic mice resulted in progressive steroidogenic and undifferentiated spindle-shaped cells hyperplasia as well as dysplasia of the cortex and medulla. Over a 17 months time course, transgenic adrenals developed malignant characteristics such as uncontrolled neovascularization and loco-regional metastatic invasion. These oncogenic events were accompanied by ectopic differentiation of glomerulosa at the expense of fasciculata cells, which caused primary hyperaldosteronism. Altogether these observations demonstrate that constitutively active beta-catenin is an adrenal oncogene which triggers benign aldosterone-secreting tumour development and promotes malignancy.

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Liver X receptors regulate adrenal cholesterol balance

Cummins

Volle

Zhang³

et al. 2006

Journal of Clinical Investigation

151

122

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Cholesterol is the obligate precursor to adrenal steroids but is cytotoxic at high concentrations. Here, we show the role of the liver X receptors (LXRα and LXRβ) in preventing accumulation of free cholesterol in mouse adrenal glands by controlling expression of genes involved in all aspects of cholesterol utilization, including the steroidogenic acute regulatory protein, StAR, a novel LXR target. Under chronic dietary stress, adrenal glands from Lxrαβ −/− mice accumulated free cholesterol. In contrast, wild-type animals maintained cholesterol homeostasis through basal expression of genes involved in cholesterol efflux and storage (ABC transporter A1 [ABCA1], apoE, SREBP-1c) while preventing steroidogenic gene (StAR) expression. Upon treatment with an LXR agonist that mimics activation by oxysterols, expression of these target genes was increased. Basally, Lxrαβ -/-mice exhibited a marked decrease in ABCA1 and a derepression of StAR expression, causing a net decrease in cholesterol efflux and an increase in steroidogenesis. These changes occurred under conditions that prevented the acute stress response and resulted in a phenotype more specific to the loss of LXRα, including hypercorticosteronemia, cholesterol ester accumulation, and adrenomegaly. These results imply LXRα provides a safety valve to limit free cholesterol levels as a basal protective mechanism in the adrenal gland, where cholesterol is under constant flux. IntroductionThe adrenal cortex is responsible for synthesizing glucocorticoid hormones that are essential for survival under stress. This endocrine pathway is acutely regulated by the hypothalamicpituitary-adrenal axis in response to stress through the release of ACTH from the anterior pituitary. ACTH signals the adrenal gland to increase the expression of a cascade of enzymes required for the conversion of cholesterol into biologically active glucocorticoids. The initial and rate-limiting step in this cascade is mediated by the steroidogenic acute regulatory protein (StAR) that transfers cholesterol from the outer to the inner mitochondrial membrane (1, 2). Inside the mitochondria, cytochrome P450 11A1 (CYP11A1) cleaves the cholesterol side chain to form pregnenolone (3), which can be further converted by a series of enzymes (e.g., type I 3β-hydroxysteroid dehydrogenase/D 5 -D 4 -isomerase) to all steroid hormones produced by the adrenal cortex. Because the stress response is intended to be of limited duration, tight regulation of this system is maintained by the negative feedback of circulating glucocorticoids on the hypothalamus and pituitary that decreases ACTH secretion and ultimately turn off glucocorticoid production (4, 5).

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PKA signaling drives reticularis differentiation and sexually dimorphic adrenal cortex renewal

Dumontet¹,

Sahut‐Barnola²,

Septier³

et al. 2018

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