Salivation is easily taken for granted, but without normal salivation, simple essential tasks such as chewing and swallowing become difficult, with consequences for quality of life, nutrition and oral health. Many important drug classes cause dry mouth as a side effect, contributing substantially to patient non-compliance. Available treatments are mostly palliative. Cannabis user complaints of dry mouth prompted a study that showed that basal salivation is likely regulated by cannabinoid CB1 receptors on neurons that innervate the submandibular gland. But what about stimulated salivation? The adjoining parotid gland releases saliva in response to olfactory or other cues and contributes a large portion of the net salivation in humans. We investigated cannabinoid regulation of stimulated salivation using functional and protein-expression studies in mice. In developing a model of stimulated salivary responses to food-related odorants in mice, we noted sex-dependent responses to food-related cues. Only male mice learned to salivate in response to the odor of peanut butter while only female mice responded to a chocolate hazelnut spread. Both males and females responded to sugar or marmite. Testing peanut butter, we found that the cannabinoid receptor agonist CP55940 (0.5 mg/kg, IP) lowered baseline salivation, as shown previously, but also prevented the odorant-induced increase in salivation. CB1 receptors are expressed in axons innervating the parotid gland, paralleling our findings in the submandibular gland. Notably, we also found that CB1 deletion impaired some responses (those to peanut butter and chocolate hazelnut spread) but not others (sugar or marmite). In mice, the CB1 antagonist SR141716 (4 mg/kg, IP) prevented a previously learned salivary response to peanut butter. We find that CB1 receptors are expressed in a subset of glomeruli in coronal sections of olfactory bulb that may serve as a site of action for scent-specific effects of CB1 receptors. We additionally observe CB1 expression in accessory olfactory bulb. In summary, we find a novel sex-dependence in responses to a subset of food-related odorant cues and that cannabinoid receptors regulate some of these responses. We propose that CB1 receptors act at the parotid gland to inhibit stimulated salivation but also in the olfactory system, where functional CB1 receptors are required for salivary responses to specific appetitive odors.
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