Opioid Suppression of an Excitatory Pontomedullary Respiratory Circuit by Convergent Mechanisms

Abstract: Opioids depress breathing by inhibition of inter-connected respiratory nuclei in the pons and medulla. Mu opioid receptor (MOR) agonists directly hyperpolarize a population of neurons in the dorsolateral pons, particularly the Kölliker-Fuse (KF) nucleus, that are key mediators of opioid-induced respiratory depression. However, the projection target and synaptic connections of MOR-expressing KF neurons is unknown. Here, we used retrograde labeling and brain slice electrophysiology to determine that MOR-expressi… Show more

“…μ-Opioid receptor expression in the lateral parabrachial area is extremely abundant ( 13 , 41 , 42 ). Lateral parabrachial and KF neurons are hyperpolarized by μ-opioid receptor activation of G protein-coupled potassium conductance ( 11 , 43 ), including neurons that project to the preBötC and rostral ventral respiratory group (rVRG) ( 44 ). Thus, we suspect that inspiratory and a subset of IEPS neurons that are completely silent during fentanyl-induced apnea could be hyperpolarized by activation of postsynaptic μ-opioid receptors but cannot rule out presynaptic mechanisms.…”

“…The dorsolateral pons contains segregated populations of glutamatergic and GABAergic neurons ( 47 ). Glutamatergic dorsolateral pontine neurons project to respiratory-related areas of the ventrolateral medulla ( 47 ) and express μ-opioid receptors ( 41 , 44 ). We predict that the opioid-sensitive inspiratory neurons are glutamatergic, but this remains to be determined.…”

“…First, medullary propriobulbar inspiratory neurons are inhibited by fentanyl ( 22 ). Second, opioids inhibit dorsolateral pontine neurons ( 11 ) that provide excitatory input on preBötC and rVRG neurons ( 44 ). Finally, activation of opioid receptors in the dorsolateral pons eliminates the ramping phrenic output pattern and causes apneusis ( 11 ).…”

Fentanyl effects on respiratory neuron activity in the dorsolateral pons

“…μ-Opioid receptor expression in the lateral parabrachial area is extremely abundant ( 13 , 41 , 42 ). Lateral parabrachial and KF neurons are hyperpolarized by μ-opioid receptor activation of G protein-coupled potassium conductance ( 11 , 43 ), including neurons that project to the preBötC and rostral ventral respiratory group (rVRG) ( 44 ). Thus, we suspect that inspiratory and a subset of IEPS neurons that are completely silent during fentanyl-induced apnea could be hyperpolarized by activation of postsynaptic μ-opioid receptors but cannot rule out presynaptic mechanisms.…”

“…The dorsolateral pons contains segregated populations of glutamatergic and GABAergic neurons ( 47 ). Glutamatergic dorsolateral pontine neurons project to respiratory-related areas of the ventrolateral medulla ( 47 ) and express μ-opioid receptors ( 41 , 44 ). We predict that the opioid-sensitive inspiratory neurons are glutamatergic, but this remains to be determined.…”

“…First, medullary propriobulbar inspiratory neurons are inhibited by fentanyl ( 22 ). Second, opioids inhibit dorsolateral pontine neurons ( 11 ) that provide excitatory input on preBötC and rVRG neurons ( 44 ). Finally, activation of opioid receptors in the dorsolateral pons eliminates the ramping phrenic output pattern and causes apneusis ( 11 ).…”

Fentanyl effects on respiratory neuron activity in the dorsolateral pons