| First Author | de Sousa Abreu RP | Year | 2022 |
| Journal | J Physiol | Volume | 600 |
| Issue | 1 | Pages | 143-165 |
| PubMed ID | 34783033 | Mgi Jnum | J:359604 |
| Mgi Id | MGI:7788552 | Doi | 10.1113/JP282002 |
| Citation | de Sousa Abreu RP, et al. (2022) Phase- and state-dependent modulation of breathing pattern by preBotzinger complex somatostatin expressing neurons. J Physiol 600(1):143-165 |
| abstractText | As neuronal subtypes are increasingly categorized, delineating their functional role is paramount. The preBotzinger complex (preBotC) subpopulation expressing the neuropeptide somatostatin (SST) is classified as mostly excitatory, inspiratory-modulated and not rhythmogenic. We further characterized their phenotypic identity: 87% were glutamatergic and the balance were glycinergic and/or GABAergic. We then used optogenetics to investigate their modulatory role in both anaesthetized and freely moving mice. In anaesthetized mice, short photostimulation (100 ms) of preBotC SST(+) neurons modulated breathing-related variables in a combinatory phase- and state-dependent manner; changes in inspiratory duration, inspiratory peak amplitude (Amp), and phase were different at higher (>/=2.5 Hz) vs. lower (<2.5 Hz) breathing frequency (f). Moreover, we observed a biphasic effect of photostimulation during expiration that is probabilistic, that is photostimulation given at the same phase in consecutive cycles can evoke opposite responses (lengthening vs. shortening of the phase). These unexpected probabilistic state- and phase-dependent responses to photostimulation exposed properties of the preBotC that were not predicted and cannot be readily accounted for in current models of preBotC pattern generation. In freely moving mice, prolonged photostimulation decreased f in normoxia, hypoxia or hypercapnia, and increased Amp and produced a phase advance, which was similar to the results in anaesthetized mice when f >/= 2.5 Hz. We conclude that preBotC SST(+) neurons are a key mediator of the extraordinary and essential lability of breathing pattern. KEY POINTS: PreBotzinger complex (preBotC) SST(+) neurons, which modulate respiratory pattern but are not rhythmogenic, were transfected with channelrhodopsin to investigate phase- and state-dependent modulation of breathing pattern in anaesthetized and freely behaving mice in normoxia, hypoxia and hypercapnia. In anaesthetized mice, photostimulation during inspiration increased inspiratory duration and amplitude regardless of baseline f, yet the effects were more robust at higher f. In anaesthetized mice with low f (<2.5 Hz), photostimulation during expiration evoked either phase advance or phase delay, whereas in anaesthetized mice with high f (>/=2.5 Hz) and in freely behaving mice in normoxia, hypoxia or hypercapnia, photostimulation always evoked phase advance. Phase- and state-dependency is a function of overall breathing network excitability. The f-dependent probabilistic modulation of breathing pattern by preBotC SST(+) neurons was unexpected, requiring reconsideration of current models of preBotC function, which neither predict nor can readily account for such responses. |
