MODULATING A MODULATOR - BIOGENIC-AMINES AT SUBTHRESHOLD LEVELS POTENTIATE PEPTIDE-MEDIATED CARDIOEXCITATION OF THE HEART OF THE TOBACCO HAWKMOTH MANDUCA-SEXTA
Kr. Prier et al., MODULATING A MODULATOR - BIOGENIC-AMINES AT SUBTHRESHOLD LEVELS POTENTIATE PEPTIDE-MEDIATED CARDIOEXCITATION OF THE HEART OF THE TOBACCO HAWKMOTH MANDUCA-SEXTA, Journal of Experimental Biology, 197, 1994, pp. 377-391
The central nervous system of the moth Manduca sexta contains a group
of myoregulatory neuropeptides, the CAPs (Cardioacceleratory Peptides)
, which cause a physiologically important, dose-dependent increase in
heart rate during wing inflation and flight in adult moths. We report
here that the response of the adult heart to a subset of the CAPs, the
CAP(2)s, is potentiated nearly twofold in the chronic presence of sub
threshold levels of the biogenic amine octopamine or near-threshold le
vels of the biogenic amine serotonin. Subthreshold levels of the CAP(2
)s fail to alter the response of the heart to octopamine. We have begu
n to investigate the molecular mechanisms underlying this potentiation
. Previous work on the adult heart has shown that the CAP(2)s act thro
ugh an inositol-1,4,5-trisphosphate second-messenger system. Here, we
demonstrate that the cardioexcitatory effects of the two amines, in co
ntrast to those of the CAP(2)s, are both mediated by cyclic AMP. Appli
cation to the heart of either 10(-5) mol l(-1) octopamine or 10(-6) mo
l l(-1) serotonin elicits a threefold increase in intracellular cyclic
AMP levels. The CAP(2)s have no effect on cyclic AMP levels in the he
art. These results illustrate a mechanism by which the effectiveness o
f a neurohormone can be increased with minimal cost to the animal. In
Manduca sexta, subthreshold levels of octopamine are found in the haem
olymph during wing inflation and flight. Thus, it is possible that oct
opamine up-regulates the effects of CAP(2) via a cyclic-AMP-dependent
mechanism during these activities.