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Vol. 299, Issue 1, 178-186, October 2001
, Ionomycin, and
Thapsigargin in Cat Iris Sphincter Smooth Muscle: Inhibition by
PD98059, KN-93, and Isoproterenol
Department of Biochemistry and Molecular Biology, Medical College
of Georgia, Augusta, Georgia
In the present study we investigated the cross talk between the
Ca2+ mobilization pathway and the mitogen-activated protein
(MAP) kinase pathway and contraction in the cat iris sphincter smooth muscle. Three Ca2+-mobilizing agonists, namely,
prostaglandin F2
(PGF2), ionomycin, and
thapsigargin, and three specific inhibitors, PD98059, a p42/p44 MAP
kinase inhibitor; KN-93, a Ca2+-calmodulin-dependent
protein kinase II (CaMKII) blocker; and isoproterenol, a cAMP-elevating
agent, were used. Changes in tension in response to the agonists were
recorded isometrically and MAP kinase phosphorylation and activation
were monitored by Western blotting and by in situ myelin basic protein
phosphorylation, respectively. We found that 1) stimulation of the
sphincter muscle with PGF2, ionomycin, or thapsigargin
resulted in rapid phosphorylation and activation of p42/p44 MAP kinase
and contraction; and 2) treatment of the muscles with PD98059, KN-93,
or isoproterenol resulted in inhibition of the
Ca2+-mobilizing agonist-induced responses. The contractile
responses induced by PGF2, ionomycin, and thapsigargin
were (mg of tension/mg of wet weight tissue) 15.2, 15.4, and 16.2, respectively; the increases in MAP kinase phosphorylation by these
agonists were 228, 203, and 190%, respectively; and the increases in
MAP kinase activation by the agonists were 212, 191, and 162%,
respectively. The stimulatory effects of the agonists on contraction
and on MAP kinase phosphorylation and activation were blocked by
preincubation of the muscle with PD98059, KN-93, or isoproterenol.
These data demonstrate that in the iris sphincter phosphorylation and
activation of p42/p44 MAP kinases by PGF2, ionomycin, or
thapsigargin require intracellular Ca2+ either from
extracellular sources or from internal stores, that CaMKII plays an
important role in the regulation of contraction, that CaMKII acts
upstream of MAP kinase to control its activation, and that the MAP
kinase signaling pathway can play a significant role in mediating the
cellular effects of these Ca2+-mobilizing agonists.
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