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Metabolic Clock Genes During Fasting and After Food Intake in Type 2 Diabetics (MCG-T2D)

T

Tel Aviv University

Status

Unknown

Conditions

Type 2 Diabetes

Treatments

Other: No Breakfast (NoB)
Other: Yes Breakfast (YesB)

Study type

Interventional

Funder types

Other

Identifiers

NCT01939782
0102-13-WOMC

Details and patient eligibility

About

This study is undertaken to explore whether compared to extension of overnight fast until lunch versus the breakfast consumption influence the oscillation of the metabolic clock gene expression in peripheral blood cells (PBC), at noon and after isocaloric lunch in type 2 diabetic patients.

Full description

Most of our metabolic function is controlled by metabolic clock genes that regulate glucose, lipid metabolism and several other circadian metabolic pathways involved in insulin resistance obesity and type 2 diabetes. The main group of clock genes resides in the SCN nuclei and is synchronized by light/dark signals. However similar clock oscillators called peripheral clocks are found in almost all tissues, including in the liver, heart, kidney, intestine, skeletal muscles, and adipocytes and in peripheral blood cells (PBC). The peripheral clocks, and specially those metabolic clock genes, seem to be controlled mainly by food cues.

The time of food intake synchronize simultaneously and in parallel way almost all the peripheral metabolic clock genes including those expressed and in peripheral blood cells (PBC) i.e. leucocytes, monocytes; allowing to explore the oscillation of the metabolic clock gene expression of the whole body by assessing its expression in the PBC. Impaired oscillation of the metabolic clock gene mRNA expression was found in diabetic animal models and in patients with type 2 diabetes and were inversely correlated with HbA1c.

In support of these finding we reported that high calorie breakfast with reduced dinner improved insulin sensitivity and weight loss rate among obese subjects, while in type 2 diabetic patients the high calorie breakfast was associated with improvement of HbA1c.

Moreover, recently was shown that very short time (only 120 min) after food intake in the breakfast, was sufficient to reset the expression of the circadian clock genes.

This study is undertaken to explore whether compared to extension of overnight fast until lunch versus the breakfast consumption influence the oscillation of the metabolic clock gene expression in peripheral blood cells (PBC), at noon and after isocaloric lunch in type 2 diabetic patients.

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Enrollment

30 estimated patients

Sex

All

Ages

26 to 65 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

INCLUSION CRITERIA FOR PATIENTS WITH TYPE 2 DIABETES

  1. Type 2 diabetic patients
  2. HbA1C > 6.5%
  3. Duration of diabetes: 0.5 to 30 years
  4. Subjects ≥ 26 and ≤ 65 years of age
  5. BMI: > 26 kg/m2
  6. All oral antidiabetic treatments and will be allowed, not insulin treatment
  7. Normal liver and kidney function
  8. Normal thyroid function
  9. Stable physical activity pattern during the three months immediately preceding study
  10. No metabolic disease other than diabetes
  11. Usually wakes up between 06:00 and 07:00 and goes to sleep between 22:00 and 24:00.
  12. Normal TSH and FT4 levels
  13. No shift work within 5 years of the study
  14. Did not cross time zones within 1 month of the study
  15. Acceptable health beside diabetes based on interview, medical history, physical examination, and laboratory tests
  16. Read and understood the informed consent form and signed it voluntarily

INCLUSION CRITERIA FOR HEALTHY NON-DIABETIC PATIENTS

  1. Healthy non diabetic, and not known as diabetic
  2. Fating glucose <100 mg/dl
  3. HbA1C <5.7 %
  4. Not taking any antidiabetic drugs
  5. Subjects ≥ 26 and ≤ 65 years of age
  6. BMI: <26 kg/m2
  7. Normal liver and kidney function
  8. Normal TSH and FT4 levels
  9. Usually wakes up between 06:00 and 07:00 and goes to sleep between 22:00 and 24:00.
  10. No shift work within 5 years of the study
  11. Did not cross time zones within 1 month of the study
  12. Acceptable health based on interview, medical history, physical examination, and laboratory tests
  13. Read and understood the informed consent form and signed it voluntarily

Exclusion criteria

EXCLUSION CRITERIA FOR ALL 2 GROUPS (HEALTHY AND DIABETICS)

  1. Clinically significant pulmonary, cardiac, renal, hepatic, neurologic, psychiatric, infectious, malignant disease
  2. Type 1 diabetes
  3. Treatment with Insulin
  4. Serum creatinin level > 1.5 mg/dl
  5. Pregnancy or lactation
  6. Illicit drug abuse or alcoholism
  7. Subjects taking anoretic drugs during the month immediately prior to study
  8. Subjects on steroid treatment
  9. Subjects known by the principal investigator to be unable to cooperate for any reason.
  10. Abnormal liver function tests defined as an increase by a factor of at least 2 above the upper normal limit of alanine aminotransferase (ALT) and/or aspartate aminotransferase (AST)
  11. Night or rotating shift work
  12. Jet lag during the 2 week period immediately prior to study onset

Trial design

Primary purpose

Diagnostic

Allocation

Randomized

Interventional model

Crossover Assignment

Masking

None (Open label)

30 participants in 2 patient groups

Type 2 diabetic patients (T2D)
Experimental group
Description:
In type 2 diabetic patients (T2D), the investigators will evaluate the metabolic clock gene expression in PBC and serum glucose, insulin, triglycerides, free fatty acids (FFA), cortisol intact GLP-1, triglycerides ,cortisol, plasma free fatty acids (FFA l and DPP4 plasma activity in two different occasions: 1. No Breakfast (NoB): fasting until lunch at 12:00 2. Yes Breakfast (YesB): eating breakfast at 8:30 and lunch at 12:00 In both occasions the blood samples for glucose and insulin, cortisol and intact GLP-1 will be taken after overnight fast at 8:30 and thenat 8:30, 9:00, 10:30, 12:00, 12:30, 14:00 and 15:30. The samples for clock genes and for DPP4 plasma activity will be taken at 8:30, 12:00 (before lunch) and at 15:30 (3 1/2 h after lunch).
Treatment:
Other: Yes Breakfast (YesB)
Other: No Breakfast (NoB)
Healthy No Diabetics
Active Comparator group
Description:
In healthy No Diabetics,: the investigators will evaluate the metabolic clock gene expression in PBC and serum glucose, insulin, triglycerides, free fatty acids (FFA), cortisol intact GLP-1, triglycerides ,cortisol, plasma free fatty acids (FFA l and DPP4 plasma activity in two different occasions: 1. No Breakfast (NoB): fasting until lunch at 12:00 2. Yes Breakfast (YesB): eating breakfast at 8:30 and lunch at 12:00 In both occasions the blood samples for glucose and insulin, cortisol and intact GLP-1 will be taken after overnight fast at 8:30 and thenat 8:30, 9:00, 10:30, 12:00, 12:30, 14:00 and 15:30. The samples for clock genes and for DPP4 plasma activity will be taken at 8:30, 12:00 (before lunch) and at 15:30 (3 1/2 h after lunch).
Treatment:
Other: Yes Breakfast (YesB)
Other: No Breakfast (NoB)

Trial contacts and locations

1

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Central trial contact

Oren Froy, PhD; Daniela Jakubowicz, MD

Data sourced from clinicaltrials.gov

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