DUBOS R J, SCHAEDLER R W
J Exp Med. 1962 Jun 1;115(6):1161-72. doi: 10.1084/jem.115.6.1161.
A study was made of the effect of certain dietary regimens on the lactobacillus flora in the stools of mice and on their resistance to infection. Semi-synthetic diets with purified casein or wheat gluten as sole source of protein, gave rise to much smaller numbers of viable lactobacilli in the stools than did other diets containing unidentified natural products-as present for example in mixtures of whole wheat and whole milk, or in certain commercial pellets. Furthermore, one of the lactobacillus types with rhizoid morphology disappeared completely from the stools of animals fed the semi-synthetic diet. The change in the lactobacillus flora became apparent within a very few days after the animals had been shifted from the complex to the synthetic diet Moreover, this change was not completely reversible. Whereas the total numbers of lactobacilli increased when the animals were shifted back from the synthetic to the complex diets, the rhizoid lactobacilli which had disappeared completely from the stools reappeared only slowly or not at all. In twelve consecutive experiments the three diets which gave rise to the large numbers of lactobacilli in the stools also conferred on the mice a much higher resistance to experimental infection with Staphylococcus aureus and Klebsiella pneumoniae, than did the semi-synthetic diets. However, direct evidence has not yet been obtained that the two kinds of phenomena were causally related. Following administration of endotoxin there was a rapid and very large increase in the numbers of enterococci and coliform bacilli in mice fed the semi-synthetic casein diet, but not in those fed the pellets. In two preliminary experiments carried out with another colony of mice, not pathogen-free, it was also found that the rhizoid type of lactobacilli disappeared from animals fed the semi-synthetic casein diet while enterococci and coliform bacilli progressively increased in numbers under the same conditions. The dietary effects on the lactobacillus flora, and on resistance to experimental infection, were equally pronounced whether the mice were housed in individual cages on wire grids, or grouped in larger cages with wood shavings as litter. This was true even if the bedding was changed only once weekly and became therefore grossly soiled.
一项关于某些饮食方案对小鼠粪便中乳酸菌菌群及其抗感染能力影响的研究。以纯化酪蛋白或小麦面筋作为唯一蛋白质来源的半合成饮食,与其他含有未明确天然产物的饮食(如全麦和全脂牛奶的混合物,或某些商业颗粒饲料)相比,导致粪便中存活的乳酸菌数量少得多。此外,一种具有根状形态的乳酸菌类型在喂食半合成饮食的动物粪便中完全消失。在动物从复杂饮食转换为合成饮食后的短短几天内,乳酸菌菌群的变化就变得明显。此外,这种变化并非完全可逆。当动物从合成饮食转换回复杂饮食时,乳酸菌总数会增加,但粪便中完全消失的根状乳酸菌仅缓慢重新出现或根本不出现。在连续十二次实验中,与半合成饮食相比,导致粪便中乳酸菌数量大量增加的三种饮食也使小鼠对金黄色葡萄球菌和肺炎克雷伯菌的实验性感染具有更高的抵抗力。然而,尚未获得直接证据表明这两种现象存在因果关系。在内毒素给药后,喂食半合成酪蛋白饮食的小鼠中肠球菌和大肠菌的数量迅速大幅增加,但喂食颗粒饲料的小鼠中则没有。在用另一群非无病原体的小鼠进行的两项初步实验中,还发现喂食半合成酪蛋白饮食的动物中根状乳酸菌消失,而在相同条件下肠球菌和大肠菌的数量逐渐增加。无论小鼠是饲养在金属丝网的单个笼子里,还是饲养在铺有木屑垫料的较大笼子里,饮食对乳酸菌菌群以及对实验性感染的抵抗力的影响都同样明显。即使垫料每周只更换一次,因此变得非常脏污,情况也是如此。