Inserm U-954, Molecular and Cellular Pathology in Nutrition, Faculté de Médecine, CHU Nancy, Nancy-Université, 9 avenue de la Forêt de Haye, BP 184, Nancy, 54500 Vandoeuvre, France.
Br J Nutr. 2013 Feb 28;109(4):667-77. doi: 10.1017/S0007114512001869. Epub 2012 Jul 16.
Dietary methyl donors and their genetic determinants are associated with Crohn's disease risk. We investigated whether a methyl-deficient diet (MDD) may affect development and functions of the small intestine in rat pups from dams subjected to the MDD during gestation and lactation. At 1 month before pregnancy, adult females were fed with either a standard food or a diet without vitamin B12, folate and choline. A global wall hypotrophy was observed in the distal small bowel (MDD animals 0·30 mm v. controls 0·58 mm; P< 0·001) with increased crypt apoptosis (3·37 v. 0·4%; P< 0·001), loss of enterocyte differentiation in the villus and a reduction in intestinal alkaline phosphatase production. Cleaved caspase-3 immunostaining (MDD animals 3·37% v. controls 0·4%, P< 0·001) and the Apostain labelling index showed increased crypt apoptosis (3·5 v. 1·4%; P= 0·018). Decreased proliferation was observed in crypts of the proximal small bowel with a reduced number of minichromosome maintenance 6 (MDD animals 52·83% v. controls 83·17%; P= 0·048) and proliferating cell nuclear antigen-positive cells (46·25 v. 59 %; P= 0·05). This lack of enterocyte differentiation in the distal small bowel was associated with an impaired expression of β-catenin and a decreased β-catenin-E-cadherin interaction. The MDD affected the intestinal barrier in the proximal small bowel by decreasing Paneth cell number after immunostaining for lysosyme (MDD animals 8·66% v. controls 21·66%) and by reducing goblet cell number and mucus production after immunostaining for mucin-2 (crypts 8·66 v. 15·33%; villus 7 v. 17%). The MDD has dual effects on the small intestine by producing dramatic effects on enterocyte differentiation and barrier function in rats.
膳食甲基供体及其遗传决定因素与克罗恩病风险相关。我们研究了在妊娠和哺乳期经历甲基缺乏饮食(MDD)的母鼠是否会影响其幼鼠小肠的发育和功能。在怀孕前 1 个月,成年雌性大鼠分别喂食标准食物或不含维生素 B12、叶酸和胆碱的饮食。在远端小肠观察到广泛的壁萎缩(MDD 动物 0.30 毫米,对照动物 0.58 毫米;P<0.001),隐窝细胞凋亡增加(3.37 比 0.4%;P<0.001),绒毛中肠上皮细胞分化丧失,肠碱性磷酸酶生成减少。用 cleaved caspase-3 免疫染色(MDD 动物 3.37%,对照动物 0.4%,P<0.001)和 Apostain 标记指数显示隐窝细胞凋亡增加(3.5 比 1.4%;P=0.018)。近端小肠隐窝中的增殖减少,导致微染色体维持蛋白 6(MDD 动物 52.83%,对照动物 83.17%;P=0.048)和增殖细胞核抗原阳性细胞(46.25 比 59%;P=0.05)数量减少。这种远端小肠肠上皮细胞分化不足与β-catenin 表达受损和β-catenin-E-cadherin 相互作用减少有关。MDD 通过免疫染色检测溶酶体减少潘氏细胞数量(MDD 动物 8.66%,对照动物 21.66%),并通过免疫染色检测粘蛋白-2 减少杯状细胞数量和粘液生成(隐窝 8.66 比 15.33%;绒毛 7 比 17%),影响近端小肠的肠道屏障。MDD 对大鼠小肠有双重影响,对肠上皮细胞分化和屏障功能产生显著影响。
