Norepinephrine utilizes alpha 1- and beta-adrenoreceptors synergistically to maximally induce c-fos expression in brown adipocytes.

In order to examine how norepinephrine stimulates proliferation and differentiation in brown fat cells, we have investigated the ability of brown fat cells to respond to norepinephrine stimulation with an increase in the expression of the proto-oncogene c-fos. Stimulation of brown fat precursor cells (isolated from young mice and grown for 4 days in culture) with norepinephrine led to a marked but transient (maximal approximately 30 min) induction of c-fos expression. The magnitude of this induction was similar in pre- and postconfluent cells. The norepinephrine effect could be blocked by both alpha 1- and beta-adrenergic antagonists. Forskolin had a small inductive ability, as had the selective alpha 1-agonist cirazoline, but with both together a high induction was obtained. The phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) could in itself induce c-fos expression, but pretreatment with TPA did not abolish the ability of norepinephrine to induce c-fos expression, indicating that TPA-sensitive protein kinase C was not a primary mediator in this pathway. Also the Ca2+ ionophore A23187 had in itself an inductive ability, but A23187 in combination with forskolin led to a large increase in c-fos expression, indicating synergistic interaction between a cAMP pathway and a [Ca2+]i pathway. This interaction was not proximal, i.e. alpha 1 stimulation or increase in [Ca2+]i by A23187 did not augment forskolin-induced cAMP levels, and beta stimulation or forskolin did not affect [Ca2+]i levels; and it did not require protein synthesis. It was concluded that norepinephrine, in agreement with its fundamental role in the control of brown fat cell growth and development, was able to induce c-fos expression, that this induction was not exclusively linked to promotion of either proliferation or differentiation, and that the induction was mediated via a distal synergism between beta/cAMP and alpha 1/[Ca2+]i pathways, thus conferring to the alpha 1-adrenoreceptors on the cell a potentially significant role in the control of cell growth and development.