Acute buprenorphine exposure depresses neonatal respiratory chemoreflexes in the presence or absence of naloxone

Perinatal opioid exposure is a prevalent clinical concern linked to respiratory instability and adverse infant outcomes. The opioid buprenorphine is prescribed as a medication for opioid use disorder during pregnancy and used to treat neonatal opioid withdrawal syndrome, yet its direct effects on neonatal control of breathing have not been examined. Here, we asked how acute buprenorphine exposure affects breathing at rest, and during chemoreceptor stimulation. Using dual-chamber head-out plethysmography, we measured pulmonary ventilation rate ([V]I) and metabolic rate in awake male and female Sprague-Dawley neonatal rats on postnatal days 4-5 (P4-5) during eupnea and a hypoxic-hypercapnic (HH) challenge. The effects of buprenorphine and two opioid receptor antagonists, naloxone hydrochloride, or peripherally restricted naloxone methiodide, were assessed using a repeated measures design. [V]I during eupnea and HH were markedly depressed following buprenorphine administration. Buprenorphine reduced [V]O2 and [V]CO2 and produced ventilatory equivalents for O2 and CO2 consistent with frank hypoventilation, driven by reduced breathing frequency and tidal volume (VT). When administered after buprenorphine, neither naloxone hydrochloride nor naloxone methiodide could rescue the buprenorphine-mediated hypoventilation in eupnea or during HH. In contrast, pre-treatment with either naloxone hydrochloride or naloxone methiodide attenuated buprenorphine-induced hypoventilation by preserving VT. These findings demonstrate that neonatal protective chemoreceptor reflexes are depressed by buprenorphine and suggest that pre-treatment with a peripheral opioid receptor antagonist could mitigate buprenorphine-induced hypoventilation without inducing opioid withdrawal. Key PointsO_LIAcute buprenorphine exposure significantly depressed pulmonary ventilation rate ([V]I) during eupnea and hypoxic hypercapnia (HH) in awake neonatal rats. C_LIO_LIBuprenorphine-induced hypoventilation was driven by reduced tidal volume (VT) and breathing frequency. C_LIO_LIBuprenorphine also reduced oxygen consumption ([V]O2) and carbon dioxide production ([V]CO2). C_LIO_LINaloxone given after buprenorphine failed to reverse hypoventilation. C_LIO_LIIn contrast, pre-treatment with either naloxone hydrochloride or peripherally restricted naloxone methiodide mitigated buprenorphine-induced hypoventilation by preserving VT. C_LI