Endothelins (ETs) play a pivotal role in the control of various endocrine and neuroendocrine
tissues. In this review, we discuss the involvement of ETs as possible regulators
of steroid secretion and we describe the mechanism of action of ETs on adrenocortical
cells. The occurrence of ETs has been demonstrated in the human, porcine and rat adrenal
gland. In humans, immunohistochemical and biochemical techniques have reported that
ETs are localized exclusively in the cortex but the presence of ETs has also been
detected in pheochromocytomas. In vitro studies have shown that ETs stimulate aldosterone secretion by adrenal tissues in
various mammalian and amphibian animal models. The receptor subtype involved in the
corticotropic action of ETs clearly differs among the various vertebrate species studied.
In rat, the effect of ETs is mediated through an ETB receptor subtype while, in frog, an ETA receptor is implicated in the stimulatory action of ETs. In human adrenocortical
cells, both ETA and ETB receptor subtypes are involved in the corticotropic effect of ETs. Activation of
adrenal receptors causes an elevation of inositol trisphosphates associated with an
increase in cytosolic calcium concentration. In addition, ETs induce an elevation
of prostaglandin E2 (PGE2 ) and prostacyclin PGI2 production in the adrenal tissue, indicating that prostanoids may act as second messengers
of ETs. It thus appears that ETs present in the adrenal gland may act as paracrine
factors to stimulate the secretory activity of adrenocortical cells.
Key words
Adrenal Gland - Endothelins - Endothelin Receptors - Steroids - Transduction Mechanism
