Type 2 diabetes is a widespread condition affecting over 38 million people in the United States, characterized by insulin resistance and dysfunction of the pancreas’ beta cells. Research is ongoing about the development of type 2 diabetes, with a recent focus on the gut microbiome’s impact on the condition. A study published in Cell Host & Microbe reviewed the existing literature on how the gut microbiome affects type 2 diabetes and how this knowledge could be applied to diabetes management. Bharat Pothuri, MD, a gastroenterologist at Memorial Hermann Health System, emphasized the potential for integrating microbiome-targeted therapies with conventional diabetes management to improve patient care. While promising, more longitudinal studies are needed to determine the efficacy of these treatment options.
Research has shown that there has been a decrease in gut microbiome diversity in humans over time, likely due to factors such as medication use and lifestyle choices, leading to metabolic diseases such as type 2 diabetes. Changes in the gut microbiome, including alterations in bacteria proportions and declines in species diversity, have been observed in individuals with type 2 diabetes. Additionally, certain metabolism products of the gut microbiome, such as bile acids, play a role in affecting other body functions like the immune system response and gut barrier. The authors of the study highlighted the need for maintaining gut homeostasis, especially in individuals with type 2 diabetes and insulin resistance, as changes in the gut microbiome can lead to chronic inflammation and decreased gut microbiota.
The gut microbiome functions as an endocrine organ, influencing nutrient metabolism and absorption, thereby impacting critical aspects of type 2 diabetes pathogenesis and management. Gut microbiota composition affects various organs in the body, including the liver, muscles, adipose tissue, pancreas, kidneys, and liver. The relationship between oral antidiabetic medications and the gut microbiome is bidirectional, with evidence suggesting that antidiabetic drugs can affect gut microbiota and vice versa. Metformin, a commonly used antidiabetic medication, has been shown to improve the gut microbiome, but its effectiveness can be influenced by the gut microbiome as well. Ultimately, the paper authors suggested targeting the gut microbiome as a way to improve diabetes-related outcomes, including using prebiotics, probiotics, and fecal microbial transplantation.
Although the review presented data on the gut microbiome and type 2 diabetes, there are limitations that highlight the need for more research. Many studies cited in the paper involved animal models, emphasizing the importance of further research involving human subjects. Additionally, more studies are needed to explore the complex relationship between oral diabetes medications and the gut microbiome beyond metformin. Future research should focus on developing microbiota-based therapies through longitudinal studies, refining personalized medicine approaches based on microbiota profiles, and assessing the efficacy and safety of microbiota-targeted therapies in preventing or managing type 2 diabetes. Overall, while the findings are promising, further research is required to establish causality, develop effective microbiota-targeted therapies, and improve long-term prevention and treatment strategies for type 2 diabetes.