INRA, ToxAlim (Research Centre in Food Toxicology), team Neuro-Gastroenterology and Nutrition, Université de Toulouse, INRA, ENVT, INP-Purpan, UPS, Toulouse, France.
Equipe Apicomplexes et Immunité Mucosale (AIM), UMR 1282 INRA/Université-Infectiologie et Santé Publique (ISP), Centre INRA Val de Loire, Nouzilly, France.
Gastroenterology. 2017 Dec;153(6):1594-1606.e2. doi: 10.1053/j.gastro.2017.08.044. Epub 2017 Sep 1.
BACKGROUND & AIMS: Separation of newborn rats from their mothers induces visceral hypersensitivity and impaired epithelial secretory cell lineages when they are adults. Little is known about the mechanisms by which maternal separation causes visceral hypersensitivity or its relationship with defects in epithelial secretory cell lineages.
We performed studies with C3H/HeN mice separated from their mothers as newborns and mice genetically engineered (Sox9-vil-cre on C57BL/6 background) to have deficiencies in Paneth cells. Paneth cell deficiency was assessed by lysozyme staining of ileum tissues and lysozyme activity in fecal samples. When mice were 50 days old, their abdominal response to colorectal distension was assessed by electromyography. Fecal samples were collected and microbiota were analyzed using Gut Low-Density Array quantitative polymerase chain reaction.
Mice with maternal separation developed visceral hypersensitivity and defects in Paneth cells, as reported from rats, compared with mice without maternal separation. Sox9-vil-Cre mice also had increased visceral hypersensitivity compared with control littermate Sox9 mice. Fecal samples from mice with maternal separation and from Sox9-vil-cre mice had evidence for intestinal dysbiosis of the microbiota, characterized by expansion of Escherichia coli. Daily gavage of conventional C3H/HeN adult mice with 10 commensal E coli induced visceral hypersensitivity. Conversely, daily oral administration of lysozyme prevented expansion of E coli during maternal separation and visceral hypersensitivity.
Mice with defects in Paneth cells (induced by maternal separation or genetically engineered) have intestinal expansion of E coli leading to visceral hypersensitivity. These findings provide evidence that Paneth cell function and intestinal dysbiosis are involved in visceral sensitivity.
新生大鼠与母亲分离会导致成年后内脏敏感性增加和上皮分泌细胞谱系受损。对于母亲分离导致内脏敏感性的机制及其与上皮分泌细胞谱系缺陷的关系知之甚少。
我们对新生时与母亲分离的 C3H/HeN 小鼠和上皮分泌细胞谱系缺陷的 Sox9-vil-cre 基因工程(C57BL/6 背景)小鼠进行了研究。通过对回肠组织进行溶菌酶染色和粪便样本中溶菌酶活性评估来评估潘氏细胞缺陷。当小鼠 50 天大时,通过肌电图评估其对结直肠扩张的腹部反应。收集粪便样本并使用 Gut Low-Density Array 定量聚合酶链反应分析微生物群。
与未经历母亲分离的小鼠相比,经历母亲分离的小鼠出现了内脏敏感性增加和潘氏细胞缺陷,这与大鼠的报道一致。与对照 Sox9 小鼠相比,Sox9-vil-Cre 小鼠也表现出内脏敏感性增加。经历母亲分离和 Sox9-vil-cre 小鼠的粪便样本显示微生物群存在肠道失调的证据,表现为大肠杆菌的扩张。每天给常规 C3H/HeN 成年小鼠灌胃 10 株共生大肠杆菌会引起内脏敏感性增加。相反,在母亲分离期间和内脏敏感性期间,每天口服溶菌酶可防止大肠杆菌的扩张。
潘氏细胞缺陷(由母亲分离或基因工程引起)的小鼠会导致大肠杆菌在肠道中扩张,从而导致内脏敏感性增加。这些发现提供了证据表明潘氏细胞功能和肠道失调参与了内脏敏感性。
