BACKGROUND: Muscarinic acetylcholine receptors (mAChRs) are major regulators of gut epithelial functions. However, the precise subtype composition has not been clarified. METHODS: We characterized the pharmacological profile of mAChRs on mouse colonic crypts, employing [(3)H]-N-methyl scopolamine chloride as a radioligand and several subtype-selective chemicals, and the functional aspect by measuring short-circuit current (I sc) in Ussing chambers and by evaluating MAP kinase phosphorylation in mouse colonic mucosal sheets. RESULTS: The mAChRs were detected on the crypts (K d = 163.2 ± 32.3 pM, B max = 47.3 ± 2.6 fmol/mg of total cell protein). Muscarinic toxin 7 (MT-7, M1 subtype selective) gave a displacement curve with high affinity, but there was a part insensitive to MT-7 (18.8 ± 0.4 % of the total specific binding). The MT-7-insensitive component was displaced completely by darifenacin (M3 selective) with high affinity. ACh induced an increase in I sc, which was significantly enhanced by MT-7 but was completely inhibited by darifenacin or atropine. Colitis induction resulted in a significant decrease in the density of mAChRs, which occurred mainly in the MT-7-sensitive component (M1 subtype). Immunological experiments exhibited a reduction of M1 but not of M3 signal after colitis induction. Muscarinic stimulation induced an increase in MAP kinase phosphorylation, which was completely suppressed by MT-7 and was attenuated by inflammation, in mouse colonic epithelium. CONCLUSIONS: These results suggest that mAChRs in mouse colonic epithelial cells consist of two subtypes, M1 (80 %) and M3 (20 %). The major M1 subtype was likely to regulate epithelial chloride secretion negatively and was susceptible to inflammation and may be relevant to inflammatory gut dysfunction.
BACKGROUND: Muscarinic acetylcholine receptors (mAChRs) are major regulators of gut epithelial functions. However, the precise subtype composition has not been clarified. METHODS: We characterized the pharmacological profile of mAChRs on mouse colonic crypts, employing [(3)H]-N-methyl scopolamine chloride as a radioligand and several subtype-selective chemicals, and the functional aspect by measuring short-circuit current (I sc) in Ussing chambers and by evaluating MAP kinase phosphorylation in mousecolonic mucosal sheets. RESULTS: The mAChRs were detected on the crypts (K d = 163.2 ± 32.3 pM, B max = 47.3 ± 2.6 fmol/mg of total cell protein). Muscarinic toxin 7 (MT-7, M1 subtype selective) gave a displacement curve with high affinity, but there was a part insensitive to MT-7 (18.8 ± 0.4 % of the total specific binding). The MT-7-insensitive component was displaced completely by darifenacin (M3 selective) with high affinity. ACh induced an increase in I sc, which was significantly enhanced by MT-7 but was completely inhibited by darifenacin or atropine. Colitis induction resulted in a significant decrease in the density of mAChRs, which occurred mainly in the MT-7-sensitive component (M1 subtype). Immunological experiments exhibited a reduction of M1 but not of M3 signal after colitis induction. Muscarinic stimulation induced an increase in MAP kinase phosphorylation, which was completely suppressed by MT-7 and was attenuated by inflammation, in mouse colonic epithelium. CONCLUSIONS: These results suggest that mAChRs in mouse colonic epithelial cells consist of two subtypes, M1 (80 %) and M3 (20 %). The major M1 subtype was likely to regulate epithelial chloride secretion negatively and was susceptible to inflammation and may be relevant to inflammatory gut dysfunction.
Authors: J E Medland; C S Pohl; L L Edwards; S Frandsen; K Bagley; Y Li; A J Moeser Journal: Neurogastroenterol Motil Date: 2016-05-02 Impact factor: 3.598