0148 Serotonergic Dorsal Raphe Neurons Regulate Hypercapnia Induced Arousal Through 5HT2A Receptors on the Parabrachial Neurons

Abstract

Abstract Introduction Serotoninergic dorsal raphe neurons (DRSert) are CO2 responsive, and mice lacking serotonin have impaired arousal to CO2. We showed that the neurons in external lateral parabrachial nucleus containing calcitonin gene related peptide (PBelCGRP), are required for CO2-arousal. PBelCGRP neurons also receive serotoninergic innervation from the DRSert. 5HT2A agonist restores CO2 responsiveness in mice lacking serotonin, suggesting that DRSert may modulate CO2 arousal by acting on 5HT2A receptors possibly on the PBel neurons. Methods We used serotonin transporter (Sert)-Cre mice to optogenetically inhibit DRSert neurons and their terminals in the PBel. We injected AAV-FLEX-ArchT into the DR and implanted an optical fiber just above it in one set of Sert-Cre mice and bilaterally in the PBel in another set. All mice were instrumented for sleep and optogenetics and were tested for EEG arousals to 10% CO2. Latencies of arousal were compared with optogenetic inhibition of either the DR neurons or their terminals in the PBel with a 593nm laser light. We further tested whether a 5HT2A agonist (TCB-2) can reverse blockade of CO2 arousal in mice where DRSert terminals in PBel were inhibited. Finally, TCB-2 was injected in mice with PBelCGRP deletions and arousal latency to CO2 was compared. Results Compared to the control (Laser-OFF) condition, arousal latency to CO2 was significantly increased by photoinhibition of either the DRSert neurons (n=6; latency- 40.9 ± 6.4 vs. 13.81± 0.69 sec; F3, 17= 11.5; P< 0.001) or their terminals in PBel (n=8; latency-34.9 ± 2.3 sec vs. 16.62 ± 0.97sec, F1, 14= 56.9; P< 0.001). This was reversed by the 5HT2A agonist TCB-2 (5mg/kg), as it reduced the latency to CO2 arousal in mice with photoinhibition of terminals in PBel from 35.48 ± 7.31 sec to 16.24 ± 1.06 sec (F3, 9= 8.05; P= 0.006), but had no effect in mice with PBelCGRP neurons deletions. Conclusion The serotonin system modulate CO2-arousals by the DRSert input to the PBel. TCB-2 reversed the effect of inhibition of DRSert terminals in the PBel, but not in mice with PBelCGRP deletions, suggests that DRSert modulate PBelCGRP neurons through 5HT2a receptors. Support NIH- 2P01 HL095491 and NS112175