We investigated effects of (+/-)-cis-2-methylspiro[1,3-oxathiolane-5,3'-quinuclidine] hydrochloride, hemihydrate (SNI-2011, cevimeline hydrochloride), a rigid analogue of acetylcholine, on saliva and tear secretions in rats and mice to evaluate its therapeutical efficacy for xerostomia and xerophthalmia in patients with Sjogren's syndrome and X-ray exposure in the head and neck. Intraduodenal administrations of SNI-2011 increased saliva secretion in a dose-dependent manner at doses ranging from 3 to 30 mg/kg in normal rats and mice, two strains of autoimmune disease mice and X-irradiated saliva secretion defective rats. The salivation elicited by SNI-2011 was completely inhibited by atropine. A similar atropine-sensitive response was observed in tear secretion. In rat submandibular/sublingual gland membranes, [3H]quinuclidinyl benzilate (QNB) binding was saturable, and Scatchard plot analysis revealed a single population of binding sites with a Kd of 22 pM and a maximal binding capacity of 60 fmol/mg protein. The competitive inhibition curve of the [3H]QNB binding by SNI-2011 was obtained, and its dissociation constant value calculated from IC50 was 1-2 microM. These results suggest that SNI-2011 increases saliva and tear secretions through a direct stimulation to muscarinic receptors in salivary and lacrimal glands, and they suggest that SNI-2011 should be beneficial to patients with Sjögren's syndrome and X-ray exposure in the head and neck.
A microdialysis technique was used to sample acetylcholine (ACh) from the cerebral cortex of conscious rats. We thus investigated the effects of systemically administered cholinesterase inhibitors (ChEI) such as physostigmine (300 micrograms/kg), heptylphysostigmine (5 mg/kg) and tetrahydroaminoacridine (tacrine, 5 mg/kg) on extracellular ACh levels. Baseline quantities of extracellular ACh could be detected, even in the absence of ChEI. Acetylcholine levels increased to 1100% over baseline within 30 min of physostigmine administration and returned to control levels after 1.25 hr. Heptylphysostigmine elicited a maximal increase of 1000% within 1.5 hr, and the effect persisted up to 9.5 hr. A 500% increase was observed 1.5 hr after tacrine administration, and ACh returned to control levels after 4 hr. Although the ACh effects observed in this study correlated with previously determined levels of acetylcholinesterase (AChE) inhibition, we conclude that measures of cortical AChE activity alone are not sufficient to predict extracellular ACh levels following systemic ChEI administration.
The effect of eight different acetylcholinesterase inhibitors (AChEIs) on the activity of acetylcholinesterase (AChE) molecular forms was investigated. Aqueous-soluble and detergent-soluble AChE molecular forms were separated from rat brain homogenate by sucrose density sedimentation. The bulk of soluble AChE corresponds to globular tetrameric (G4), and monomeric (G1) forms. Heptylphysostigmine (HEP) and diisopropylfluorophosphate were more selective for the G1 than for the G4 form in aqueous-soluble extract. Neostigmine showed slightly more selectivity for the G1 form both in aqueous- and detergent-soluble extracts. Other drugs such as physostigmine, echothiophate, BW284C51, tetrahydroaminoacridine, and metrifonate inhibited both aqueous- and detergent-soluble AChE molecular forms with similar potency. Inhibition of aqueous-soluble AChE by HEP was highly competitive with Triton X-100 in a gradient, indicating that HEP may bind to a detergent-sensitive non-catalytic site of AChE. These results suggest a differential sensitivity among AChE molecular forms to inhibition by drugs through an allosteric mechanism. The application of these properties in developing AChEIs for treatment of Alzheimer disease is considered.
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