Researchers have found that vegan and ketogenic diets elicit distinct responses in the immune system. Over a two-week period, 20 participants alternated between these diets, allowing researchers to observe changes in innate and adaptive immunity, metabolic pathways, and gut microbiome. The study observed that the vegan diet primarily affected innate immunity and red blood cell pathways, while the keto diet influenced adaptive immunity and a wider range of proteins. These findings highlight the rapid and diverse immune responses to dietary changes and suggest potential avenues for diet-based disease prevention and treatment strategies.
Key Facts:
- The vegan diet triggered innate immune responses and affected pathways related to red blood cells, while the keto diet influenced adaptive immunity and a broader range of protein levels.
- Both diets significantly altered participants’ microbiomes and metabolic processes.
- More research is needed to examine how these nutritional interventions affect specific components of the immune system.
Source: NIH
More study is needed to examine how these nutritional interventions affect specific components of the immune system. Credit: Neuroscience News
The study, published in the journal Nature Medicine, was conducted by researchers from the National Institutes of Health (NIH). The study involved closely monitoring the biological responses of people sequentially eating vegan and keto diets for two weeks in random order.
Metabolic changes and shifts in the participants’ microbiomes—communities of bacteria living in the gut—were also observed. More research is needed to determine if these changes are beneficial or detrimental and what effect they could have on nutritional interventions for diseases such as cancer or inflammatory conditions.
The keto diet is a low-carbohydrate diet that is generally high in fat, while the vegan diet eliminates animal products and tends to be high in fiber and low in fat.
The study was conducted at the Metabolic Clinical Research Unit in the NIH Clinical Center by researchers from the National Institute of Allergy and Infectious Diseases (NIAID) and National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK). The 20 participants were diverse with respect to ethnicity, race, gender, body mass index (BMI), and age.
Each person ate as much as desired of one diet (vegan or keto) for two weeks, followed by as much as desired of the other diet for two weeks. People on the vegan diet, which contained about 10% fat and 75% carbohydrates, chose to consume fewer calories than those on the keto diet, which contained about 76% fat and 10% carbohydrates.
Throughout the study period, blood, urine, and stool were collected for analysis. The effects of the diets were examined using a “multi-omics” approach that analyzed multiple data sets to assess the body’s biochemical, cellular, metabolic, and immune responses, as well as changes to the microbiome. Participants remained on site for the entire month-long study, allowing for careful control of the dietary interventions.
Switching exclusively to the study diets caused notable changes in all participants. The vegan diet significantly impacted pathways linked to the innate immune system, including antiviral responses. On the other hand, the keto diet led to significant increases in biochemical and cellular processes linked to adaptive immunity, such as pathways associated with T and B cells.
The keto diet affected levels of more proteins in the blood plasma than the vegan diet, as well as proteins from a wider range of tissues, such as the blood, brain, and bone marrow. The vegan diet promoted more red blood cell-linked pathways, including those involved in heme metabolism, which could be due to the higher iron content of this diet.
Additionally, both diets produced changes in the microbiomes of the participants, causing shifts in the abundance of gut bacterial species that previously had been linked to the diets.
The keto diet was associated with changes in amino acid metabolism—an increase in human metabolic pathways for the production and degradation of amino acids and a reduction in microbial pathways for these processes—which might reflect the higher amounts of protein consumed by people on this diet.
The distinct metabolic and immune system changes caused by the two diets were observed despite the diversity of the participants, which shows that dietary changes consistently affect widespread and interconnected pathways in the body. More study is needed to examine how these nutritional interventions affect specific components of the immune system.
According to the authors, the results of this study demonstrate that the immune system responds surprisingly rapidly to nutritional interventions. The authors suggest that it may be possible to tailor diets to prevent disease or complement disease treatments, such as by slowing processes associated with cancer or neurodegenerative disorders.
About this diet and immunity research news
Author: Press Office
Source: NIH
Contact: Press Office – NIH
Image: The image is credited to Neuroscience News
Original Research: Open access
“Differential peripheral immune signatures elicited by vegan versus ketogenic diets in humans” by Verena M. Link et al. Nature Medicine
Abstract: Differential peripheral immune signatures elicited by vegan versus ketogenic diets in humans
Nutrition has broad impacts on all physiological processes. However, how nutrition affects human immunity remains largely unknown. Here we explored the impact of a dietary intervention on both immunity and the microbiota by performing a post hoc analysis of a clinical trial in which each of the 20 participants sequentially consumed vegan or ketogenic diets for 2 weeks (NCT03878108). Using a multiomics approach including multidimensional flow cytometry, transcriptomic, proteomic, metabolomic and metagenomic datasets, we assessed the impact of each diet, and dietary switch, on host immunity and the microbiota. Our data revealed that overall, a ketogenic diet was associated with a significant upregulation of pathways and enrichment in cells associated with the adaptive immune system. In contrast, a vegan diet had a significant impact on the innate immune system, including upregulation of pathways associated with antiviral immunity. Both diets significantly and differentially impacted the microbiome and host-associated amino acid metabolism, with a strong downregulation of most microbial pathways following ketogenic diet compared with baseline and vegan diet. Despite the diversity of participants, we also observed a tightly connected network between datasets driven by compounds associated with amino acids, lipids, and the immune system. Collectively, this work demonstrates that in diverse participants 2 weeks of controlled dietary intervention is sufficient to significantly and divergently impact host immunity, which could have implications for precision nutritional interventions. ClinicalTrials.gov registration: NCT03878108.
