An Integrative Study of the Role of Microbiome, Metabolome, Transcriptome and Chronobiology in the Context of Type 2 Diabetes. (KRONODIABET)

Compelling evidence suggests that type 2 diabetes (T2D) can often be prevented by adopting healthy lifestyle. However, current standard recommendations may not fully account for individual differences, limiting their effectiveness. Factors such as genetics and daily lifestyle patterns influence how individuals respond to these recommendations. For example, disrupted sleep patterns or irregular eating schedules can make it difficult to maintain healthy habits, ultimately affecting blood glucose control. Such disruptions are associated with disturbances in the body's internal clock, also known as circadian rhythms. In this sense, chrono-disruption (i.e., disruption of circadian rhythms) has been shown to impair glucose metabolism. Individuals at high risk of T2D are characterized by loss of diurnal rhythmicity in the insulin oscillatory pattern. Similarly, recent studies suggest that disruptions in daily fluctuations of hormone levels, gene expression, microbiota composition, and metabolite profiles are associated with poorer blood glucose control.

The present project relies on the hypothesis that individuals with excess weight and drug-naïve prediabetes or type 2 diabetes, compared to healthy individuals, exhibit a disruption of the circadian system. This is manifested by loss in daily oscillations and altered oscillatory patterns across multiple physiological processes, including hormone production, gene expression, microbiota composition and function, and metabolite composition and secretion. Chrono disruption contributes to the dysregulation of glucose metabolism, changes in appetite regulation and response to external cues and, consequently, impaired glycaemic control in this population.

The Kronodiabet study is a 2-week observational study with two parallel study groups, matched by age and gender, according to the following conditions: adults with overweight or obesity and impaired glucose metabolism (drug-naive prediabetes or type 2 diabetes); and adults with normal weight and no alterations in glucose metabolism.

Experimental design: Each participant, once recruited, will attend the NIU at the Center for Nutrition Research of the University of Navarra on 4 occasions. At visit 1 (V1), participants will come to the NIU and will be fitted with a continuous glucose monitoring sensor and a circadian monitoring device, which will be worn during the main study visit (V2) and the following 12 ± 2 full days (field period phase) and body composition will be analysed through dual energy x-ray absorptiometry (DEXA). At this visit (V1), participants will bring a stool sample collected no later than 48 hours prior to arrival at the NIU. In visit 2 (V2), lasting 12 hours and 30 minutes, participants will arrive to the NIU (where the entire visit will take place) after at least 8 hours of fasting. During this visit, participants will be provided with the meals to be consumed throughout the day and blood draws and completion of questionnaires will be carried out. In addition, 4 out of the 7 saliva samples required for the analysis of the oral microbiota, metabolome and gene and hormone determination will be collected every 4 hours. The remaining saliva samples (3/7) will be collected at home, until the 24-hour period is completed. On the following day (V3), participants will come back to the NIU to deliver the samples collected at home. In addition, they will be given the necessary material for the field study period. During the field phase (which will last 2 weeks) participants will be asked not to change their habitual lifestyle, including diet, exercise and timing. In the final visit (V4), body composition measurements will be taken and the circadian and glucose monitoring sensors and completed questionnaires will be collected, concluding the study.

The specific objectives are:

1. To characterize the phenotype, behavioral traits and lifestyle habit, as well as the microbiome, metabolome and transcriptome in healthy individuals and individuals with overweight/obesity and drug-naïve prediabetes/type 2 diabetes.
2. To investigate, under free-living conditions, daily oscillations in glycaemia, food behavior and circadian parameters of the main circadian synchronizers.
3. To compare daily oscillations in oral microbiota and metabolome, along with daily oscillations of circadian markers, under semi-controlled conditions, between healthy individuals and individuals with overweight/obesity and drug-naïve prediabetes/type 2 diabetes.
4. To study, from an integrated perspective, daily oscillations in glycemic control, through the integration of omics (metagenomics, metabolomics), clinical and lifestyle data, in the absence and presence of excess weight and impaired glucose metabolism.