Trials / Unknown

UnknownNCT04405895

Effect of Meal Timing in T2D on Hepatocytes SRIT1 and Clock Genes

Effect Meal Timing in Type 2 Diabetes on Serum Induced SIRT1 and Clock Gene Expression in Hepatocytes

Status: Unknown
Phase: N/A
Study type: Interventional
Enrollment: 24 (estimated)

Sponsor: Tel Aviv University · Academic / Other
Sex: All
Age: 30 Years – 70 Years
Healthy volunteers: Not accepted

Summary

This study is undertaken to explore in T2D, the effect of meal timing on serum induced SIRT1 and Clock Genes mRNA expression in cultured hepatocytes. Fasting serum samples were collected from T2D participants, following two different meal timing schedules, either a diet with large breakfast and lunch with small dinner Breakfast Diet (3Mdiet) or an isocaloric diet with 6 small meals evenly distributed along the day Allday Diet (6Mdiet). The researchers will use an ex-vivo/in-vitro approach in which cultured medium will be conditioned with the fasted human serum collected from the two groups of T2D participants at baseline, after 2 weeks and after 12 week of the diet intervention.

Detailed description

The timing of many physiological processes, including glucose metabolism, is coordinated by the circadian clock gene system. The circadian clock regulation, optimize glucose metabolism for the consumption of high energy and carbohydrate (CH) meals in the early hours of the day and for fasting at evening and night. Circadian disruption which occurs when the meal timing is not aligned with the circadian clock rhythms like skipping breakfast, overeating CH at night or eating CH all day, lead to desynchronized clock genes and can result in adverse health outcomes like insulin resistance, obesity hyperglycemia and T2D. Although the clock genes are disseminated in almost all peripheral tissues, those localized in the liver, are particularly important for the regulation of glucose metabolism, influencing the enzymatic determinants of the hepatic glucose output, by enhancing glycogen storage and suppressing nocturnal hepatic glucose production (glycogenolysis and gluconeogenesis sequentially).Therefore, the disruption of the hepatic clock genes lead to fasting, nocturnal, and to postprandial hyperglycemia in T2D. The researchers had previously shown in T2D, that compared to 6Mdiet, the 3Meal diet timing schedule, was most effective in reducing body weight, HbA1c, overall hyperglycemia, and led to up-regulation of SIRT1 and Clock Genes mRNA expression in leukocytes. However, this effect of meal timing had never been explored in liver cells. The investigators hypothesized that compared to Allday Diet (6Mdiet), the serum collected from T2D participants following Breakfast Diet (3Mdiet) will up-regulate SIRT1 and Clock Genes oscillatory mRNA expression in cultured hepatocytes.

Conditions

Interventions

Type	Name	Description
OTHER	Breakfast Diet	Breakfast Diet (3Mdiet) consist on high-energy breakfast and reduced in energy and carbohydrate (CH) dinner. Participants fasting serum to provide serum to for the in ex-vivo cell studies, will be collected at fasting (8:00), at start (day 0), after 2 weeks and at the end of 3Mdiet intervention (12 weeks). The participants serum is added to culture medium (as serum conditioned medium) to treat during 48 hours the cultured hepatocytes. After 48 hours of serum treatment, the mRNA extraction for the assessment of SIRT1 and Clock Gene expression will be performed at 00:00, 06:00, 12:00 and at 18:00 to assess SIRT1 and the Clock Genes circadian oscillation in hepatocytes. The 3Mdiet efficacy on reducing the overall glycemic excursions is assessed with continuous monitoring system at baseline after 2 weeks month of diet intervention.
OTHER	Allday Diet	Allday Diet (6Mdiet) consist in 6 small meals: breakfast, lunch and dinner and 3 snacks, with calories and carbohydrates (CH) evenly distributed throughout the day. Participants fasting serum to provide serum to for the in ex-vivo cell studies, will be collected at fasting (8:00), at start (day 0), after 2 weeks and at the end of 6Mdiet intervention (12 weeks). The participants serum is added to culture medium (as serum conditioned medium) to treat during 48 hours the cultured hepatocytes. After 48 hours of serum treatment, the mRNA extraction for the assessment of SIRT1 and Clock Gene expression will be performed at 00:00, 06:00, 12:00 and at 18:00 to assess SIRT1 and the Clock Genes circadian oscillation in hepatocytes. The 6Mdiet efficacy on reducing the overall glycemic excursions is assessed with continuous monitoring system at baseline after 2 weeks month of diet intervention.

Timeline

Start date: 2020-05-31
Primary completion: 2020-09-20
Completion: 2020-10-20
First posted: 2020-05-28
Last updated: 2020-05-28

Locations

1 site across 1 country: Israel

Source: ClinicalTrials.gov record NCT04405895. Inclusion in this directory is not an endorsement.