Kaji Izumi, Akiba Yasutada, Konno Kohtarou, Watanabe Masahiko, Kimura Shunsuke, Iwanaga Toshihiko, Kuri Ayaka, Iwamoto Ken-Ichi, Kuwahara Atsukazu, Kaunitz Jonathan D
Department of Medicine, David Geffen School of Medicine at UCLA, Los Angeles, CA, USA.
Brentwood Biomedical Research Institution, Los Angeles, CA, USA.
J Physiol. 2016 Jun 15;594(12):3339-52. doi: 10.1113/JP271441. Epub 2016 Mar 20.
Luminal short-chain fatty acids (SCFAs) influence gut physiological function via SCFA receptors and transporters. The contribution of an SCFA receptor, free fatty acid receptor (FFA)3, to the enteric nervous system is unknown. FFA3 is expressed in enteric cholinergic neurons. Activation of neural FFA3 suppresses Cl(-) secretion induced by nicotinic ACh receptor activation via a Gi/o pathway. Neural FFA3 may have an anti-secretory function by modulating cholinergic neural reflexes in the enteric nervous system.
The proximal colonic mucosa is constantly exposed to high concentrations of microbially-produced short-chain fatty acids (SCFAs). Although luminal SCFAs evoke electrogenic anion secretion and smooth muscle contractility via neural and non-neural cholinergic pathways in the colon, the involvement of the SCFA receptor free fatty acid receptor (FFA)3, one of the free fatty acid receptor family members, has not been clarified. We investigated the contribution of FFA3 to cholinergic-mediated secretory responses in rat proximal colon. FFA3 was immunolocalized to enteroendocrine cells and to the enteric neural plexuses. Most FFA3-immunoreactive nerve fibres and nerve endings were cholinergic, colocalized with protein gene product (PGP)9.5, the vesicular ACh transporter, and the high-affinity choline transporter CHT1. In Ussing chambered mucosa-submucosa preparations (including the submucosal plexus) of rat proximal colon, carbachol (CCh)-induced Cl(-) secretion was decreased by TTX, hexamethonium, and the serosal FFA3 agonists acetate or propionate, although not by an inactive analogue 3-chloropropionate. Serosal application of a selective FFA3 agonist (N-[2-methylphenyl]-[4-furan-3-yl]-2-methyl-5-oxo-1,4,5,6,7,8-hexahydro-quinoline-3-carboxamide; MQC) dose-dependently suppressed the response to CCh but not to forskolin, with an IC50 of 13 μm. Pretreatment with MQC inhibited nicotine-evoked but not bethanechol-evoked secretion. The inhibitory effect of MQC was reversed by pretreatment with pertussis toxin, indicating that FFA3 acts via the Gi/o pathway. Luminal propionate induced Cl(-) secretion via the cholinergic pathway, which was reduced by MQC, as well as by TTX, hexamethonium or removal of the submucosal plexus. These results suggest that the SCFA-FFA3 pathway has a novel anti-secretory function in that it inhibits cholinergic neural reflexes in the enteric nervous system.
肠腔短链脂肪酸(SCFAs)通过SCFA受体和转运体影响肠道生理功能。SCFA受体——游离脂肪酸受体(FFA)3对肠神经系统的作用尚不清楚。FFA3在肠胆碱能神经元中表达。神经FFA3的激活通过Gi/o途径抑制烟碱型ACh受体激活诱导的Cl⁻分泌。神经FFA3可能通过调节肠神经系统中的胆碱能神经反射发挥抗分泌功能。
近端结肠黏膜持续暴露于高浓度的微生物产生的短链脂肪酸(SCFAs)中。尽管肠腔SCFAs通过结肠中的神经和非神经胆碱能途径引起电genic阴离子分泌和平滑肌收缩,但游离脂肪酸受体家族成员之一的SCFA受体游离脂肪酸受体(FFA)3的参与情况尚未阐明。我们研究了FFA3对大鼠近端结肠胆碱能介导的分泌反应的作用。FFA3免疫定位在肠内分泌细胞和肠神经丛。大多数FFA3免疫反应性神经纤维和神经末梢是胆碱能的,与蛋白基因产物(PGP)9.5、囊泡ACh转运体和高亲和力胆碱转运体CHT1共定位。在大鼠近端结肠的Ussing室黏膜-黏膜下层制备物(包括黏膜下丛)中,卡巴胆碱(CCh)诱导的Cl⁻分泌被TTX、六甲铵以及浆膜FFA3激动剂乙酸盐或丙酸盐降低,尽管无活性类似物3-氯丙酸盐没有这种作用。浆膜应用选择性FFA3激动剂(N-[2-甲基苯基]-[4-呋喃-3-基]-2-甲基-5-氧代-1,4,5,6,7,8-六氢喹啉-3-甲酰胺;MQC)剂量依赖性地抑制对CCh的反应,但不抑制对福斯可林的反应,IC50为13μm。用MQC预处理抑制尼古丁诱发的但不抑制氨甲酰甲胆碱诱发的分泌。MQC的抑制作用被百日咳毒素预处理逆转,表明FFA3通过Gi/o途径发挥作用。肠腔丙酸盐通过胆碱能途径诱导Cl⁻分泌,MQC以及TTX、六甲铵或去除黏膜下丛可降低这种分泌。这些结果表明,SCFA-FFA3途径具有一种新的抗分泌功能,即它抑制肠神经系统中的胆碱能神经反射。