Chemogenetic activation of glutamatergic preBötzinger Complex neurons increases breathing in mice

Abstract

ObjectiveRespiratory rhythm is generated by complex neural circuits in the medulla. At the core of these circuits is the preBötzinger Complex (preBötC), a collection of cells generating respiratory rhythm in the ventral part of the medulla. In addition to its role in generating respiratory rhythm, the preBötC also plays a significant role in opioid‐induced respiratory depression. The preBötC is made up of a heterogenous group of neurons, with a large portion being glutamatergic and expressing µ‐opioid receptors. A marker for these glutamatergic neurons is vesicular glutamate transporter 2 (vGLUT2). Here we propose that targeting vGLUT2‐expressing preBötC neurons using chemogenetics can stimulate respiratory rhythm and potentially alleviate opioid‐induced respiratory depression.HypothesisActivation of vGLUT2 preBötC neurons stimulates breathing and alleviates respiratory depression by fentanyl in mice.MethodsUsing a cre‐lox recombination approach, we expressed the excitatory hM3Dq (a modified version of the excitatory M3 muscarinic receptor) into vGLUT2 preBötC neurons. To this aim, we injected into the preBötC recombinant adeno‐associated virus transcriptionally activated by Cre‐recombinase containing hM3Dq and mCherry DNA flanked by lox sites in vglut2‐IRES‐Cre male mice (Jackson Labs). Four weeks after adeno‐associated virus, mice were anesthetized with isoflurane and respiratory activity was measured through electrodes implanted into the diaphragm and the genioglossus muscle. Mice were given consecutive intramuscular injections of saline and the hM3Dq ligand, clozapine‐N‐oxide (CNO; 0.5 and 1 mg/kg), while respiratory responses were monitored. Brains were collected for histological analysis with expression of hM3Dq determined by expression of mCherry.ResultsInjection of 0.5mg/kg CNO elicited a 24.55% increase in respiratory rate 8 minutes following CNO injection. Injection of 1mg/kg CNO destabilized breathing within 6‐25 minutes following injection. Histology confirmed expression of mCherry in the region of the preBötC. Further studies will determine whether stimulation of vGLUT2 preBötC neurons can prevent or reverse respiratory rate depression elicited by fentanyl.ConclusionsOur preliminary data showed that stimulation of glutamatergic preBötC neurons can increase respiratory rate in anesthetized conditions. Further studies will determine whether stimulation of glutamatergic preBötC cells also increases respiratory rate in freely‐behaving mice and whether the glutamatergic preBötC neurons are viable targets for the development of preventive drug therapies for respiratory depression during opioid overdose.