Sustained inhibitory effect of Agouti Related Protein on the ACTH-induced cortisol production by bovine cultured adrenal cells.

The adrenal gland is the second tissue after hypothalamus exhibiting high expression level of Agouti Related Protein (Agrp) mRNA, which suggests that this peptide may control adrenal cell functions. However, its role in this tissue remained to be determined. In this report, we studied the effects of a long-term treatment (24 h) of cultured bovine adrenal cells by Agrp on the (Nle4, d-Phe7)-alphaMSH (NDP-alphaMSH)- or ACTH-induced cortisol release. We showed that Agrp inhibited, in a dose-dependent manner, the 10(-9) M NDP-alphaMSH-induced cortisol production through its antagonistic properties towards MSH at the level of MC4-R. Surprisingly, we found that Agrp in the same conditions of cell treatment also induced a strong inhibition of the ACTH-induced cortisol release. These effects were stronger using low concentrations of Agrp and disappeared for higher concentrations resulting in U-shaped curve data. There was no effect of SHU9119 in the same conditions of stimulation of the cells. Our data confirmed that Agrp is not an antagonist of ACTH at the level of MC2-R and that its sustained effect on ACTH-induced steroidogenesis did not involve its antagonistic properties at the level of MC4-R. The hypothesis would be that Agrp is acting on adrenal steroidogenesis through an alternate mechanism.

Agouti-related protein antagonizes glucocorticoid production induced through melanocortin 4 receptor activation in bovine adrenal cells: a possible autocrine control.

Agouti-related protein (Agrp), primarily expressed in the hypothalamus, is an endogenous antagonist of alphaMSH at the level of melanocortin 3 receptor (MC3-R) and MC4-R, but the adrenal gland represents the second major Agrp-expressing tissue. In adrenal fasciculata cells, the glucocorticoid secretion is under the control of ACTH, which binds specifically MC2-R, the only functional melanocortin receptor described in these cells to date. Nevertheless, using cultured bovine fasciculata adrenal cells, we report that Agrp has no antagonistic properties against ACTH at the level of MC2-R. In our studies, (Nle4, d-Phe7)-alphaMSH (NDP-alphaMSH) stimulated the production of cortisol in a dose-dependent manner, and these effects were abolished by Agrp or SHU9119, a synthetic antagonist of MC3-R and MC4-R. Using a more specific antagonist (JKC-363) and RT-PCR analysis, we can postulate that the effects of NDP-alphaMSH were mediated via MC4-R. These results are suggestive that adrenal glucocorticoid production could be regulated through MC4-R that may have some relevance in the physiology of adrenal cells. Moreover, Agrp might exert an autocrine control on adrenal cells because a protein with biological Agrp-like activity is secreted by these cells. This peptide could then modulate locally the functions of some peripheral tissues such as adrenals.