Central Hypoxia Elicits Long-Term Expression of the Lung Motor Pattern in Pre-metamorphic Lithobates Catesbeianus

During vertebrate development, the neural networks underlying air-breathing undergo changes in connectivity and functionality, allowing lung ventilation to emerge. Yet, the factors regulating development of these critical homeostatic networks remain unresolved. In amphibians, air-breathing occurs sporadically prior to metamorphosis. However, in tadpoles of Lithobates catesbeianus (American bullfrog), hypoxia stimulates gill and lung ventilation during early development. Because accelerated metamorphosis is a useful strategy to escape deterioration of the milieu, we hypothesized that central hypoxia would elicit long-term expression of the lung motor command for air breathing in pre-metamorphic tadpoles (TK stages VI-XIII). To do this, we recorded respiratory activity from cranial nerves V and VII in isolated brainstems before, during, and up to 2 h after exposure to 15 min of mild (PwO