Hyperpolarization‐activated current, Ih, in inspiratory brainstem neurons and its inhibition by hypoxia

Abstract

A hyperpolarization‐activated current, I_h, is often implied in pacemaker‐like depolarizations during rhythmic oscillatory activity. We describe I_h in the isolated respiratory centre of immature mice (P6–P11). I_h was recorded in 15% (22/146) of all inspiratory neurons examined. The mean half‐maximal I_h activation occurred at −78 mV and the reversal potential was −40 mV. I_h was inhibited by Cs⁺ (1–5 mm) and by organic blockers N‐ethyl‐1,6‐dihydro‐1,2‐dimethyl‐6‐(methylimino)‐N‐phenyl‐4‐pyrimidinamine (ZD 7288; 0.3–3 μm) and N,N′‐bis‐(3,4‐dimethylphenylethyl)‐N‐methylamine (YS 035, 3–30 μm), but not by Ba²⁺ (0.5 mm). The organic I_h blockers did not change the inspiratory bursts recorded from the XIIth nerve and synaptic drives in inspiratory neurons. Hypoxia reversibly inhibited I_h but, in the presence of organic blockers, the hypoxic reaction remained unchanged. We conclude that although I_h channels are functional in a minority of inspiratory neurons, I_h does not contribute to respiratory rhythm generation or its modulation by hypoxia.