STUDY OBJECTIVES: We hypothesized that 2 important neurotransmitters related to behavioral state control, serotonin and noradrenaline, could also be modulators of pedunculopontine tegmental nucleus (PPT)-induced respiratory dysrhythmia. DESIGN: We examined the impact of serotonin and noradrenaline at respiratory control sites in the PPT functionally identified by immediate apnea of 2.5- to 10-second duration, followed by increased variability of breath time (CVT(T)) (P < .04) after locally injecting glutamate in anesthetized rats. SETTING: Basic sleep and respiratory neurobiology laboratory. PARTICIPANTS: Sixteen adult, male Sprague-Dawley rats. MEASUREMENTS AND RESULTS: Glutamate-induced respiratory responses, including increases of total apnea duration and CVT(T), were not different between groups of rats in which we further tested monoaminergic modulatory effects (for CVT(T) P = .98, and for total apnea duration, P = .80). Serotonin or noradrenaline injected at the same sites as glutamate had equal impact on CVT(T) (P = .34) and on mean total apnea duration (P = .80), but pretreatment of PPT sites with serotonin blocked (remained equal to preinjection; P = .11), whereas pretreatment with noradrenaline potentiated (P = .04) the increment of respiratory-timing variability induced by glutamate. The serotonergic-blocking effect on glutamate-induced respiratory dysrhythmia was specific to the PPT: the respiratory responses induced by glutamate injection outside the PPT were not modulated by serotonin (for CVT(T), P = .46, and for mean apnea duration, P = .99). CONCLUSIONS: The opposed impact of serotonin and noradrenaline on PPT-induced respiratory dysrhythmia, in contrast to their convergent regulatory role in behavioral state control, suggests a functionally distinct role for the PPT in respiratory-pattern control independent of rapid eye movement sleep control.
STUDY OBJECTIVES: We hypothesized that 2 important neurotransmitters related to behavioral state control, serotonin and noradrenaline, could also be modulators of pedunculopontine tegmental nucleus (PPT)-induced respiratory dysrhythmia. DESIGN: We examined the impact of serotonin and noradrenaline at respiratory control sites in the PPT functionally identified by immediate apnea of 2.5- to 10-second duration, followed by increased variability of breath time (CVT(T)) (P < .04) after locally injecting glutamate in anesthetized rats. SETTING: Basic sleep and respiratory neurobiology laboratory. PARTICIPANTS: Sixteen adult, male Sprague-Dawley rats. MEASUREMENTS AND RESULTS:Glutamate-induced respiratory responses, including increases of total apnea duration and CVT(T), were not different between groups of rats in which we further tested monoaminergic modulatory effects (for CVT(T) P = .98, and for total apnea duration, P = .80). Serotonin or noradrenaline injected at the same sites as glutamate had equal impact on CVT(T) (P = .34) and on mean total apnea duration (P = .80), but pretreatment of PPT sites with serotonin blocked (remained equal to preinjection; P = .11), whereas pretreatment with noradrenaline potentiated (P = .04) the increment of respiratory-timing variability induced by glutamate. The serotonergic-blocking effect on glutamate-induced respiratory dysrhythmia was specific to the PPT: the respiratory responses induced by glutamate injection outside the PPT were not modulated by serotonin (for CVT(T), P = .46, and for mean apnea duration, P = .99). CONCLUSIONS: The opposed impact of serotonin and noradrenaline on PPT-induced respiratory dysrhythmia, in contrast to their convergent regulatory role in behavioral state control, suggests a functionally distinct role for the PPT in respiratory-pattern control independent of rapid eye movement sleep control.
Authors: Mindy R Waite; Kaia Skaggs; Parisa Kaviany; Jennifer M Skidmore; Frédéric Causeret; James F Martin; Donna M Martin Journal: Mol Cell Neurosci Date: 2011-09-10 Impact factor: 4.314
Authors: Ningren Cui; Xiaoli Zhang; Jyothirmayee S Tadepalli; Lei Yu; Hongyu Gai; James Petit; Ravi T Pamulapati; Xin Jin; Chun Jiang Journal: J Neurophysiol Date: 2011-03-23 Impact factor: 2.714