Neuroimmune interactions: role for cholinergic neurons in intestinal anaphylaxis
The role of cholinergic neurons in mediating chloride secretion in anaphylaxis was assessed in muscle-stripped segments of distal colon from guinea pigs immunized to bovine milk. beta-Lactoglobulin evoked a concentration-dependent increase in short-circuit current (Isc) in immune, but not nonimmune, tissues. The Isc response to beta-lactoglobulin was reduced by piroxicam, pyrilamine, and cimetidine. Tetrodotoxin and atropine reduced the Isc response to beta-lactoglobulin in immune animals, whereas mecamylamine and ICS 205-930 were ineffective. beta-Lactoglobulin evoked a concentration-dependent increase in acetylcholine (ACh) release in immune, but not nonimmune, animals. In immune tissues after challenge with beta-lactoglobulin, ACh release paralleled the change in Isc. Piroxicam, cimetidine plus pyrilamine, or a combination of piroxicam, cimetidine, and pyrilamine significantly reduced the release of ACh after beta-lactoglobulin challenge. Histamine, dimaprit, and prostaglandins E2 evoked an increase in ACh release. These results suggest that beta-lactoglobulin releases prostaglandins and histamine probably from mast cells. Secretory responses that occur when immune animals are challenged with beta-lactoglobulin result, in part, from activation of cholinergic neurons that utilize muscarinic synapses for transfer of signals to the epithelium.