Mylène Côté

Association of the G Proteinα q/α11-Subunit with Cytoskeleton in Adrenal Glomerulosa Cells: Role in Receptor-Effector Coupling1

In 3-day primary cultures of rat glomerulosa cells, a 30-min preincubation with either 10 μm colchicine (a microtubule-disrupting agent) or 10 μm cytochalasin B (a microfilament-disrupting agent) decreased angiotensin II (Ang II)-induced inositol phosphate accumulation by 50%. Moreover, both drugs decreased inositol phosphate production induced by fluoroaluminate (a nonspecific activator of all G proteins), indicating that both microtubules and microfilaments are essential for phospholipase C activation. Analysis of microfilament- and microtubule-enriched fractions and immunoprecipitation of actin and tubulin revealed that the αq/α11-subunit of the Gq/11 protein was associated with both structures. Ang II stimulation induced a rapid translocation ofα q/α11, microfilaments, and microtubules to the membrane and induced a time-dependent increase in the level ofα q/α11 associated with both microfilaments and microtubules. Moreover, double immunofluorescence staining clearly showed a colocalization of theα q/α...

Association of αs-subunit of the Gs protein with microfilaments and microtubules : Implication during adrenocorticotropin stimulation in rat adrenal glomerulosa cells

The aim of the present study was to investigate if and how microfilaments and microtubules could be involved in the early events of ACTH action. In primary cultures of rat glomerulosa cells, a 30-min preincubation with either 10 μm colchicine (a microtubule-disrupting agent) or 10 μm cytochalasin B (a microfilament-disrupting agent) decreased ACTH-induced cAMP production. Moreover, colchicine decreased cAMP production induced by fluoroaluminate (a nonspecific activator of all G proteins), but not of forskolin (which directly activates adenylyl cyclase). These results indicate that microtubules appear to be essential for the Gs protein activation. In contrast, cytochalasin B decreased the stimulating effect of both fluoroaluminate and forskolin, indicating that microfilaments may be involved in both Gs and adenylyl cyclase activations. Analyses of microfilament- and microtubule-enriched fractions and immunoprecipitation of actin and tubulin indicated that the αs-subunit of the Gs protein was associated wit...

Cyclic AMP-independent effects of ACTH on glomerulosa cells of the rat adrenal cortex.

The aim of the present paper is to point out the complexity of ACTH action in glomerulosa cells of the adrenal cortex. We demonstrate that the increase in cAMP production induced by ACTH is the result of a balance between activation of adenylyl cyclase and direct modulation of a PDE2 phosphodiestease activity, an effect mediated by inhibition of cGMP content. Moreover, Ca2+ is essential for cAMP production and aldosterone secretion, but its exact primary action is not clearly determined. We recently described that ACTH activated a chloride channel, via the Ras protein, which can be involved in steroidogenesis. ACTH also increases tyrosine phosphorylation of several proteins. These data, together with those of phospholipase C activation, indicate that ACTH action in the adrenal is complex, and most certainly not limited to cAMP production, in particular for the low concentrations of the hormone. Some years ago, cAMP was considered to be the unique second messenger of ACTH action; now it becomes more and more evident that ACTH triggers complex signaling pathways using several second messengers in a closely interacting way. The most predominant point is that these signals are observed for low concentrations of ACTH.

Comparative Involvement of Cyclic Nucleotide Phosphodiesterases and Adenylyl Cyclase on Adrenocorticotropin-Induced Increase of Cyclic Adenosine Monophosphate in Rat and Human Glomerulosa Cells1

The present study investigated the role and identity of cyclic nucleotide phosphodiesterases (PDEs) in the regulation of basal and ACTH-stimulated levels of intracellular cAMP in human and rat adrenal glomerulosa cells. Comparative dose-response curves indicated that maximal hormone-stimulated cAMP accumulation was 11- and 24-fold higher in human and rat cells, compared with cAMP production obtained in corresponding membranes, respectively. Similarly to 3-isobutyl-1-methyl-xanthine, 25 microM erythro-9-[2-hydroxy-3-nonyl]adenine (EHNA, a specific PDE2 inhibitor), caused a large increase in ACTH-stimulated cAMP accumulation; by contrast, it did not change cAMP production in membranes. Moreover, in membrane fractions, addition of 10 microM cGMP inhibited ACTH-induced cAMP production, an effect completely reversed by addition of 25 microM EHNA. These results indicate that PDE2 activity is involved in the regulation of cAMP accumulation induced by ACTH, and suggest that ACTH inhibits this activity. Indeed, time-course studies indicated that ACTH induced a rapid decrease in cGMP production, resulting in PDE2 inhibition, which in turn, contributed [with adenylyl cyclase (AC) activation] to an accumulation in cAMP for 15 min. Thereafter, cAMP content decreased, because of cAMP-stimulated PDE2, as confirmed by measurement of PDE activity that was activated by ACTH, but only after a 10-min incubation. Hence, we demonstrate that the ACTH-induced increase in intracellular cAMP is the result of a balance between activation of AC and direct modulation of PDE2 activity, an effect mediated by cGMP content. Although similar results were observed in both models, PDE2 involvement is more important in rat than in human adrenal glomerulosa cells, whereas AC is more stimulated in human than in rat glomerulosa cells.

Involvement of tyrosine phosphorylation and mapk activation in the mechanism of action of acth, angiotensin II and vasopressin

ACTH, Angiotensin II (Ang II) and Vasopressin (AVP) are among the well known regulators of aldosterone secretion and also have a trophic action on the adrenal gland. According to classic studies, Ang II and AVP activate phospholipase C (PLC), diacylglycerol (DAG) and inositol phosphate (InsPs) production whereas ACTH activates cAMP production. However, our data indicate that the three peptides are able to induce a time-dependent increase in the level of Tyr-phosphorylation of several proteins. Western Blot analysis indicates a biphasic activation of Tyr-phosphorylation by AVP, with a peak at 30 s and a second one at 15 min incubation. Ang II induced a rapid (2 min) and sustained activation of Tyr-phosphorylation, while ACTH induced a progressive time course with a plateau reached at 15 min. Ang II and AVP also increased phosphorylation of p42mapk and p44mapk, while ACTH did not affect MAPK activity. Moreover, pre-incubation of the cells with genistein (Tyr-kinase inhibitor) and PD 098059 (a MAPK inhibitor) did not affect InsPs production or aldosterone secretion induced by Ang II or AVP. These results suggest that the MAPK pathway is involved in the control of cell growth rather than aldosterone secretion.