Selective Peripheral Chemoreceptor Hyperreflexia Evoked after Sympathetic Stimulation

Abstract

Previous studies have demonstrated that the integrity of the carotid bodies is essential for the development and maintenance of hypertension. In this condition, both increased tonicity and hyperreflexia are displayed by chemosensitive neurons in the petrosal ganglia of spontaneous hypertensive rats (SHR). However, what drives carotid body hyper‐excitability is not known. We hypothesised this was triggered by the sympathetic nerves innervating the carotid body, which originate from the superior cervical ganglion (SCG). The aim of our study was test if activation of the SCG could modulate carotid body activity. Experiments were carried out in 6 juvenile Wistar rats (60–80g) using the decerebrated in situ working heart‐brainstem preparation (WHBP). Simultaneous recordings of phrenic (PN) and thoracic sympathetic nerves (tSNA) were obtained using glass suction electrodes. Heart rate (HR) was derived from the electrocardiogram (ECG). Chemoreflex was activated using NaCN (50μL, 0.04%, i.a.) and the SCG was stimulated electrically (ES; 30Hz, 2 ms, 10V) using a Grass SD9 stimulator via a bipolar microelectrode. The chemoreflex was evoked before and immediately after ES of the SCG. Changes in sympathetic activity, perfusion pressure, phrenic and heart rate were analysed quantitatively. Data are displayed as mean ± SEM with a level of significance set at P<0.05; differences were tested using paired student‐t test.The only component of the chemoreflex augmented by SCG stimulation was the evoked increase in sympathetic activity. In Wistars, the control response of 29.3 ± 3.2% from baseline was augmented to 46.04 ± 3.58% after ES (P=0.006). Within 10 min of the stimulation, the sympatho hyperreflexia had returned to control (20.24 ± 5.96%). SHR also presented sympatho hyperreflexia (43.0 ± 6.3 vs 62.9 ± 9.2 %, P= 0.015) but the change of sensitization was of similar magnitude between rat strains. The SCG induced carotid body hyperreflexia was prevented by application of lignocaine into the SCG. We conclude that stimulation of the efferent sympathetic nerves innervating the carotid body can increase the gain of the chemoreflex symathoexcitatory response. We are currently assessing whether chemoreflex hyperreflexia observed in neurogenic hypertension is mediated by sympathetic nerves innervating the carotid body.Support or Funding InformationHealth Research Council of New Zealand