<p class="title">Western diets, high in fat and simple sugar, may promote the growth of bacteria in the small intestine that increases fat digestion and absorption, a study claims.</p>.<p class="bodytext">The study, published in the journal Cell Host and Microbe, determined if microbes were required for digestion and absorption of fats.</p>.<p class="bodytext">The researchers from the Midwestern University in the US assessed which microbes were involved, and the role of diet-induced microbes on the digestion and uptake of fats.</p>.<p class="bodytext">They conducted a series of experiments to demonstrate that mice reared germ-free (GF) are protected from diet-induced obesity and are unable to absorb fat compared to conventionally-raised mice, also known as specific pathogen free (SPF) mice.</p>.<p class="bodytext">When the germ-free animals are given small intestine microbiota from high-fat conditions, they are able to absorb fat, said Kristina Martinez-Guryn, an assistant professor at Midwestern University.</p>.<p class="bodytext">The findings suggest that these microbes facilitate production and secretion of digestive enzymes into the small bowel, Martinez-Guryn said.</p>.<p class="bodytext">Those digestive enzymes break down dietary fat, enabling the rapid absorption of calorie-dense foods, the researchers said.</p>.<p class="bodytext">Additional experiments showed that bacteria-derived bioactive products stimulate absorptive cells in the small intestine to package and transport fat for absorption.</p>.<p class="bodytext">Therefore, bacteria in the small intestine orchestrate a series of events that allow the host to efficiently absorb fat. It is expected that these diet-microbe interactions can lead to over-nutrition and obesity over time, researchers said.</p>.<p class="bodytext">While most studies have focused on the large intestine, this study highlights the microbiota in the small bowel, the major site of macronutrient digestion and absorption.</p>.<p class="bodytext">Understanding host-microbe interactions in this region has significant clinical implications, especially in preventing and treating obesity and diabetes, researchers said.</p>.<p class="bodytext">"I would say the most important takeaway overall is the concept that what we eat - our diet on a daily basis - has a profound impact on the abundance and the type of bacteria we harbour in our gut," said Martinez-Guryn.</p>.<p class="bodytext">"These microbes directly influence our metabolism and our propensity to gain weight on certain diets," she said.</p>.<p class="bodytext">"Our results suggest that we can use pre- or probiotics or even develop post-biotics (bacterial-derived compounds or metabolites) to enhance nutrient uptake for people with malabsorption disorders, such as Crohn's disease, or alternatively, we could test novel ways to decrease obesity," she said.</p>
<p class="title">Western diets, high in fat and simple sugar, may promote the growth of bacteria in the small intestine that increases fat digestion and absorption, a study claims.</p>.<p class="bodytext">The study, published in the journal Cell Host and Microbe, determined if microbes were required for digestion and absorption of fats.</p>.<p class="bodytext">The researchers from the Midwestern University in the US assessed which microbes were involved, and the role of diet-induced microbes on the digestion and uptake of fats.</p>.<p class="bodytext">They conducted a series of experiments to demonstrate that mice reared germ-free (GF) are protected from diet-induced obesity and are unable to absorb fat compared to conventionally-raised mice, also known as specific pathogen free (SPF) mice.</p>.<p class="bodytext">When the germ-free animals are given small intestine microbiota from high-fat conditions, they are able to absorb fat, said Kristina Martinez-Guryn, an assistant professor at Midwestern University.</p>.<p class="bodytext">The findings suggest that these microbes facilitate production and secretion of digestive enzymes into the small bowel, Martinez-Guryn said.</p>.<p class="bodytext">Those digestive enzymes break down dietary fat, enabling the rapid absorption of calorie-dense foods, the researchers said.</p>.<p class="bodytext">Additional experiments showed that bacteria-derived bioactive products stimulate absorptive cells in the small intestine to package and transport fat for absorption.</p>.<p class="bodytext">Therefore, bacteria in the small intestine orchestrate a series of events that allow the host to efficiently absorb fat. It is expected that these diet-microbe interactions can lead to over-nutrition and obesity over time, researchers said.</p>.<p class="bodytext">While most studies have focused on the large intestine, this study highlights the microbiota in the small bowel, the major site of macronutrient digestion and absorption.</p>.<p class="bodytext">Understanding host-microbe interactions in this region has significant clinical implications, especially in preventing and treating obesity and diabetes, researchers said.</p>.<p class="bodytext">"I would say the most important takeaway overall is the concept that what we eat - our diet on a daily basis - has a profound impact on the abundance and the type of bacteria we harbour in our gut," said Martinez-Guryn.</p>.<p class="bodytext">"These microbes directly influence our metabolism and our propensity to gain weight on certain diets," she said.</p>.<p class="bodytext">"Our results suggest that we can use pre- or probiotics or even develop post-biotics (bacterial-derived compounds or metabolites) to enhance nutrient uptake for people with malabsorption disorders, such as Crohn's disease, or alternatively, we could test novel ways to decrease obesity," she said.</p>