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The large intestine is home to trillions of microbes, known as the gut microbiome, which perform essential functions, such as digesting food and fighting disease. The diversity of microbes present in our gut microbiome is influenced by lifestyle factors, such as dietary patterns, medication usage, and sanitation practices. Research shows that the diversity of the human gut microbiome decreases as societies undergo industrialization. For example, fecal samples from rural Papua New Guineans contain an additional 50 microbial species, such as Limosilactobacillus reuteri, not found in people living in the United States.
What has caused the disappearance of L. reuteri in industrialized countries is currently unknown. However, diet is a major factor influencing the composition of the gut microbiome. Microbiota-accessible carbohydrates (MACs) are indigestible carbohydrates that are a primary source of energy for gut microbes. North Americans consume far less of these carbohydrates (which are contained in foods such as beans, yams, and artichokes) than rural Papua New Guineans.
The overall aim of this controlled feeding study is to determine if a strain of L. reuteri isolated from rural Papua New Guinea can be established in the gut of Canadians when taken as a probiotic alongside a non-industrialized-type diet designed to promote its growth. Furthermore, the study will determine:
(i) the physiological and immunological effects of both L. reuteri and the non-industrialized-type diet, and (ii) the effects of both L. reuteri and the non-industrialized-type diet on gut microbiome ecology.
Full description
There is now consistent evidence that industrialization has substantially decreased the bacterial diversity of the gut microbiota (Segata, 2015), likely due to a combination of factors such as use of antibiotics, modern clinical practices, sanitation, and changes in dietary habits. However, the only factor for which empirical evidence exists is the low content of Microbiota-Accessible Carbohydrates (MACs) in Western diets, which are indigestible dietary carbohydrates that become available to the microbes colonizing the intestine (Sonnerburg et al., 2015).
Previous work has confirmed the overall premise of 'microbiome depletion' by demonstrating higher diversity in the fecal microbiota of individuals from rural tribes in Papua New Guinea, which contain an additional of 50 species completely undetectable in North Americans (Martínez et al., 2015). One species detectable in every Papua New Guinean individual by 16S rRNA sequencing but not in a single US control was Limosilactobacillus reuteri (L. reuteri). Interestingly, this species, which is also used as a probiotic, was regularly detected in humans in studies conducted around 1960, but is very rarely found in contemporary humans, suggesting a recent decline of the L. reuteri population in Westerners (Walter et al., 2011). Most importantly, L. reuteri is a member of the gut microbiota in many vertebrate species and exerts benefits towards host immune functions and development, as demonstrated in a number of highly cited publications (Zelante et al. 2013; Buffington et al. 2016; Lamas et al. 2016; He et al. 2017).
It is currently unclear what caused the drop in the L. reuteri population. However, it is likely due to the importance of non-digestible carbohydrates that are present at very low amounts in Western diets, while being abundant in the diet of rural Papua New Guineans, a population that consumes a predominantly plant-based diet.
The goal of this study is to demonstrate that a bacterial species dominant in the non-westernized microbiome can be 'reintroduced' in the gut of Canadians fed a non-industrialized type diet designed to promote the growth of gut bacteria. This study will also determine how this 'reintroduction' and the non-industrialized-type diet influences immune function of the host and host-diet-microbiome metabolic interactions, and explore associations between them. It will further explore the effects of the microbial treatment and the diet on gut microbiome ecology. The central hypothesis is that an isolate of L. reuteri, originating from rural Papua New Guinea, can be established in the gut of Canadians fed a diet containing the carbohydrates known to facilitate the growth of this microbe. It is also hypothesized that this 'reintroduction' and consuming the non-industrialized type diet will be associated with immunological and metabolic benefits to the host. To achieve these goals, the following aims are proposed:
This study will establish if a 'lost species' of bacteria can be reintroduced into the human gut and may provide mechanistic insight to inform how such dietary modulation may be applied to reduce the risk of chronic diseases. Since the L. reuteri strain isolated from rural Papua New Guineans is functionally different from western strains, evidenced by different growth rates on substrates of MACs, this study will further identify potential probiotic strains that were previously uncharacterized due to their overall absence from the industrialized gut microbiome.
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Inclusion criteria
Healthy individuals with a body mass index between 20-29.9 kg/m²
Have at least one bowel movement per day
Willing to consume prepared study foods (breakfast, lunch dinner, snacks) for a period of 3 weeks
Men and pre-menopausal, non-pregnant or non-lactating women
Non-vegetarian, non-smoking, and alcohol intake ≤8 drinks/week, and willing to consume 8 drinks per week or less during the course of the study.
If consuming probiotic containing foods, willing to discontinue eating same, and substitute with non-probiotic containing foods
-≤5 h/week of moderate-vigorous exercise.
Quantity of L. reuteri in screening fecal sample below 10^4 CFU/g
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30 participants in 6 patient groups, including a placebo group
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Data sourced from clinicaltrials.gov
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