内源性肽 YY 和神经肽 Y 通过 Y₁ 和 Y₂ 受体抑制结肠离子转运、收缩和转运。

Endogenous peptide YY and neuropeptide Y inhibit colonic ion transport, contractility and transit differentially via Y₁ and Y₂ receptors.

机构信息

King's College London, Wolfson Centre for Age-Related Diseases, Guy's Campus, London, UK.

出版信息

Br J Pharmacol. 2011 Sep;164(2b):471-84. doi: 10.1111/j.1476-5381.2011.01401.x.

DOI:10.1111/j.1476-5381.2011.01401.x

PMID:21457230

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3188896/

Abstract

BACKGROUND AND PURPOSE

Peptide YY (PYY) and neuropeptide Y (NPY) activate Y receptors, targets under consideration as treatments for diarrhoea and other intestinal disorders. We investigated the gastrointestinal consequences of selective PYY or NPY ablation on mucosal ion transport, smooth muscle activity and transit using wild-type, single and double peptide knockout mice, comparing mucosal responses with those from human colon.

EXPERIMENTAL APPROACH

Mucosae were pretreated with a Y₁ (BIBO3304) or Y₂ (BIIE0246) receptor antagonist and changes in short-circuit current recorded. Colonic transit and colonic migrating motor complexes (CMMCs) were assessed in vitro and upper gastrointestinal and colonic transit measured in vivo.

KEY RESULTS

Y receptor antagonists revealed tonic Y₁ and Y₂ receptor-mediated antisecretory effects in human and wild-type mouse colon mucosae. In both, Y₁ tone was epithelial while Y₂ tone was neuronal. Y₁ tone was reduced 90% in PYY⁻/⁻ mucosa but unchanged in NPY⁻/⁻ tissue. Y₂ tone was partially reduced in NPY⁻/⁻ or PYY⁻/⁻ mucosae and abolished in tetrodotoxin-pretreated PYY⁻/⁻ tissue. Y₁ and Y₂ tone were absent in NPYPYY⁻/⁻ tissue. Colonic transit was inhibited by Y₁ blockade and increased by Y₂ antagonism indicating tonic Y₁ excitation and Y₂ inhibition respectively. Upper GI transit was increased in PYY⁻/⁻ mice only. Y₂ blockade reduced CMMC frequency in isolated mouse colon.

CONCLUSIONS AND IMPLICATIONS

Endogenous PYY and NPY induced significant mucosal antisecretory tone mediated by Y₁ and Y₂ receptors, via similar mechanisms in human and mouse colon mucosa. Both peptides contributed to tonic Y₂-receptor-mediated inhibition of colonic transit in vitro but only PYY attenuated upper GI transit.

摘要

背景与目的

肽 YY（PYY）和神经肽 Y（NPY）激活 Y 受体，这些受体被认为是治疗腹泻和其他肠道疾病的靶点。我们使用野生型、单基因和双基因敲除小鼠研究了选择性 PYY 或 NPY 缺失对黏膜离子转运、平滑肌活动和转运的胃肠道影响，将黏膜反应与人类结肠进行了比较。

实验方法

用 Y₁（BIBO3304）或 Y₂（BIIE0246）受体拮抗剂预处理黏膜，记录短路电流的变化。在体外评估结肠转运和结肠移行性运动复合波（CMMCs），并在体内测量上消化道和结肠转运。

主要结果

Y 受体拮抗剂揭示了 Y₁ 和 Y₂ 受体在人类和野生型小鼠结肠黏膜中存在紧张性抗分泌作用。在这两种情况下，Y₁ 张力是上皮性的，而 Y₂ 张力是神经元性的。在 PYY⁻/⁻黏膜中，Y₁ 张力减少了 90%，但在 NPY⁻/⁻组织中没有变化。NPY⁻/⁻或 PYY⁻/⁻黏膜中 Y₂ 张力部分减少，而在预先用河豚毒素处理的 PYY⁻/⁻组织中则完全消除。在 NPYPYY⁻/⁻组织中没有 Y₁ 和 Y₂ 张力。Y₁ 阻断抑制结肠转运，Y₂ 拮抗增加转运，表明 Y₁ 兴奋和 Y₂ 抑制的紧张性分别存在。仅在 PYY⁻/⁻小鼠中观察到上消化道转运增加。Y₂ 阻断减少了离体小鼠结肠 CMMC 的频率。

结论和意义

内源性 PYY 和 NPY 通过类似的机制在人结肠和鼠结肠黏膜中诱导了显著的黏膜抗分泌紧张性 Y₁ 和 Y₂ 受体介导的紧张性 Y₂ 受体介导的抑制作用。两种肽都有助于体外结肠转运的紧张性 Y₂ 受体介导抑制，但只有 PYY 减轻了上消化道转运。

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