The impact of intermittent palatable food consumption on microbiota structure in male and female rats

The gut microbiome plays a vital role in metabolism, behavior, and overall health, with diet being a key factor shaping its composition. This study examines the impact of intermittent palatable food (PF) consumption on microbiota structure in male and female rats, focusing on feeding preferences and sex differences. Rats were characterized as high preferring (HP) or low preferring (LP) based on PF intake, and microbial analyses were conducted across different gastrointestinal regions, including the colon, feces, cecum, and cecal contents. However, microbiota composition varied with significant differences in Firmicutes, Bacteroidetes, and Actinobacteria abundances. Sex-based differences were evident particularly in fecal and cecal samples, where Proteobacteria and Actinobacteria populations varied between males and females within the same feeding groups. Our findings support the notion that dietary habits and microbiota composition may form a feedback loop, reinforcing food preferences through gut-brain axis signaling. While alpha diversity remained unchanged, beta diversity analysis indicated subtle, but significant differences in microbial community structures based on sex and feeding behavior. This research provides novel insights into the interplay between diet, gut microbiota, and behavior, while emphasizing the importance of considering sex as a variable in microbiome studies. Understanding these relationships may inform dietary interventions aimed at optimizing microbiota composition to improve metabolic and mental health outcomes linked to diet-induced microbiota shifts. ImportanceThe gut microbiome plays a critical role in various bodily functions, from the brains protective mechanisms to dietary behaviors and food choices. In this study, we sought to broaden the understanding of how various levels of high fat and high carbohydrate diet consumption alter gut microbiota, and ultimately, shape food preference behaviors. We assessed preference behaviors by categorizing rats into high-preference and low-preference groups based on their consumption of high calorie, palatable food, then analyzed their gut bacterial composition, comparing diet preference groups and examining whether sex differences were reflected in the results. The findings from this research hold significant implications for understanding the complex interplay between diet, microbiota, and behavior. Understanding the bidirectional relationship between feeding behavior and microbiota may provide novel insights into the mechanisms underlying eating disorders and metabolic dysregulation.