Attenuation of peripheral salt taste responses and local immune function contralateral to gustatory nerve injury: effects of aldosterone.

Dietary sodium restriction coupled with axotomy of the rat chorda tympani nerve (CTX) results in selectively attenuated taste responses to sodium salts in the contralateral, intact chorda tympani nerve. Converging evidence indicates that sodium deficiency also diminishes the activated macrophage response to injury on both the sectioned and contralateral, intact sides of the tongue. Because a sodium-restricted diet causes a robust increase in circulating aldosterone, we tested the hypothesis that changes in neurophysiological and immune responses contralateral to the CTX could be mimicked by aldosterone administration instead of the low-sodium diet. Taste responses in rats with CTX and supplemental aldosterone for 4-6 days were similar to rats with CTX and dietary sodium restriction. Responses to sodium salts were as much as 50% lower compared with sham-operated and vehicle-supplemented rats. The group-related functional differences were eliminated with lingual application of amiloride, suggesting that a major transduction pathway affected was through epithelial sodium channels. Consistent with the functional results, few macrophages were observed on either side of the tongue in rats with CTX and aldosterone. In contrast, macrophages were elevated on both sides of the tongue in rats with CTX and the vehicle. These results show that sodium deficiency or administration of aldosterone suppresses the immune response to neural injury, resulting in attenuation of peripheral gustatory function. They also show a potential key link among downstream consequences of sodium imbalance, taste function, and immune activity.

The role of the chorda tympani nerve in the activation of the rat hypothalamic histaminergic system by leptin.

A possible pathway through which leptin activates the histaminergic system was studied using in vivo microdialysis in rats. Intraperitoneal injection of leptin (1.3 mg/kg) caused a significant increase in hypothalamic histamine release, however, its intracerebroventricular injection (10 microg/rat) did not cause any significant changes in the release. Furthermore, leptin (1.3 mg/kg) had no effect on histamine release in rats whose chorda tympani nerves, a branch of the facial nerve which mediates taste information, were transected bilaterally. These findings indicate that leptin activates the histaminergic system by the peripheral signal inputs via the chorda tympani resulting in the suppression of food intake.