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  • Title: Modulation by C2 ceramide of the nicotinic transmission within the coeliac ganglion in the rabbit.
    Author: Fasano C, Miolan JP, Niel JP.
    Journal: Neuroscience; 2003; 116(3):753-9. PubMed ID: 12573717.
    Abstract:
    We have investigated the modulation by ceramide of the nicotinic activation of the prevertebral sympathetic neurons. Our study was performed in vitro in rabbit isolated coeliac ganglion, using intracellular recording techniques. We have used C(2) ceramide, a permeant analog of ceramide. The effects of C(2) ceramide were first assessed when nicotinic activation was elicited without modulatory mechanisms (fast excitatory postsynaptic potentials triggered by stimulation of the thoracic splanchnic nerves with a single pulse). In all the neurons tested, C(2) ceramide triggered an increase in the amplitude of the fast excitatory postsynaptic potentials demonstrating a direct facilitatory effect on the nicotinic activation. We then investigated the effects of C(2) ceramide on modulatory mechanisms of this activation. These mechanisms occur when a train of pulses of supramaximum intensity is applied on the splanchnic nerves. During the train, a gradual depression of fast nicotinic activation occurred: the pulses failed to systematically elicit action potentials. We have previously demonstrated that this regulatory phenomenon is partly modulated by nitric oxide which exerts a dual effect: facilitation or inhibition of the nicotinic activation. In all the neurons tested, C(2) ceramide decreased the number of action potentials fired during a train of pulses, demonstrating an indirect inhibitory effect on the nicotinic activation. The use of 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (nitric oxide scavenger) suppressed the inhibitory effect of C(2) ceramide, demonstrating that this effect is mediated through the nitric oxide pathway. C(2) dihydro-ceramide, an inactive analog of ceramide, was without effect on the nicotinic activation of the ganglionic neurons. These results demonstrate that ceramide exerts a complex modulation of the nicotinic activation of the prevertebral neurons: direct facilitation and indirect inhibition involving the nitric oxide pathway. In fact, C(2) ceramide plays a key gating role in the dual effect of the nitric oxide pathway by activating the inhibitory effect. The existence of this gating mechanism involving ceramide and nitric oxide opens new perspectives in terms of our understanding of the modulation of synaptic transmission within the prevertebral ganglia. Our study demonstrates that sphingolipids are involved in complex modulations of the synaptic activation within the prevertebral ganglia, and thus contribute to their integrative properties.
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