Whey Protein on Posprandial Glucose, Insulin GLP-1, GIP and DPP4 in Type 2 Diabetes

Tel Aviv University19 enrolled

Overview

The aim of the present study is to examine the therapeutic effect of whey protein concentrate (WPC 80) in adult subjects with in type 2 diabetes. Whey protein will be administered before breakfast and its effects on posprandial glucose, insulin, c-peptide, intact and total GIP and GLP-1, and DPP-4 plasma levels will be assessed.

Milk and dairy product consumption has been associated with lower risk of metabolic disorders and cardiovascular diseases (1). A population-based prospective study (CARDIA) revealed that dairy consumption was inversely associated with the prevalence of all components of the insulin resistance syndrome (IRS) in overweight individuals (2). Whey accounts for about 20% of whole milk protein, while casein accounts for the rest. Whey protein is a source of bioactive components and branch chained amino acids (BCAAs) which could play a further role in the control of food intake and management of glucose metabolism, obesity and diabetes (1,3,4). Whey protein appears to have insulinotropic and glucose lowering properties in healthy adults (6-9), and also in individuals with type 2 diabetes (10,11). The magnitude of postprandial blood glucose reduction following ingestion of whey protein is comparable to that observed with pharmaceutical interventions such as sulfonylureas (12) or nateglinide (13). These findings imply an important role for whey protein in the management of type 2 diabetes (10). Whey protein seems to induce insulinotropic/β-cell-stimulating and glucose lowering effects via bioactive peptides generated during gastrointestinal digestion of BCAAs contained in β-lactoglobulin, the major whey protein (14). These bioactive peptides stimulate the release of several gut hormones, especially the incretins, glucose-dependent insulinotropic polypeptide (GIP) and glucagon-like peptide-1 (GLP-1), which potentiate insulin secretion from β-cells and are also associated with the control of food intake (9, 15-17). Increased plasma levels of GIP and GLP-1 have been reported following whey ingestion in patients with type 2 diabetes (10). The stimulatory effect of whey protein on GLP-1 is especially important since it has been shown that postprandial GLP-1 secretion is reduced in type 2 diabetes (18). The bioactive peptides generated from whey protein may also serve as endogenous inhibitors of dipeptidyl peptidase-4 (DPP-4) in the proximal gut, preventing incretin (GIP and GLP-1) degradation (19, 20). Indeed, recently DPP-4 inhibitors have been found and identified in Whey protein (21). All these may reduce postprandial blood glucose levels. Incretin action is enhanced by whey protein ingestion, possibly through incretin degradation via inhibition of DPP-4 (19,20). This is important in light of several incretin-based therapies such as continuous administration of GLP-1 (19), treatment with degradation-resistant GLP-1R agonists (Exendin-4) (15,23-25), and therapy with DPP-4 inhibitors (Sitagliptin, Liraglutide and others gliptines ) (15,23-27) all of which have lead to substantial improvements in glucose control and β-cell function in subjects with type 2 diabetes. Whey protein stimulates GLP-1 secretion and prevents its inactivation by DPP 4. Thus, by potentiating GLP-1 secretion and enhancing its action, (15), whey protein may represent a valuable tool for treating type 2 diabetes.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

NONE

Enrollment

Conditions

Type 2 Diabetes Mellitus

Interventions

Whey before BreakfastDIETARY_SUPPLEMENT

After consumption of whey before breakfast samples will be taken every 30 minutes for quantification of glucose, insulin, GlP-1 and GIP

Water before breakfastDIETARY_SUPPLEMENT

After water before breakfast the blood samples will be taken every 30 min for quantification of glucose, insulin, GLP-1 and GIP,

Eligibility

Sex: ALLMin age: 40 YearsMax age: 70 Years

Medical Language ↔ Plain English

Inclusion Criteria: 1. Type 2 diabetic patients 2. Duration of diabetes: 1-10 years 3. Subjects ≥ 40 and ≤70 years of age 4. Metformin therapy and all oral antidiabetic medication will be allowed 5. Overweight or obese (BMI: 25 to 35 kg/m2) 6. Normal liver and kidney function 7. Normal thyroid function 8. Read and understood the informed consent form and signed it voluntarily Exclusion Criteria: 1. Liver, heart, kidney, lung, infectious, neurological, psychiatric, immunological or neoplastic diseases. 2. Type 1 or insulin treated diabetes. 3. Pregnancy or lactation 4. Illicit drug abuse or alcoholism 5. Subject treated with insulin or treatment with degradation-resistant GLP-1R agonists (Exendin-4) or similar and DPP4 inhibitors (Januvia) 6. Subjects taking anoretic drugs 7. Subjects on steroid treatment 8. Subjects known by the principal investigator to be unable to cooperate for any reason. 9. Known hypersensitivity to milk components 10. Subjects after bariatric surgery. \-

Locations (1)

Diabetes Unit E. Wolfson Hospital

Holon, Tel Aviv, Israel

Outcomes

Primary Outcomes

Glucose response

In all 25 subjects, the effects of whey protein ingestion posprandial glucose, will be measured. Thirty minutes prior to breakfast, subjects will preloaded with one of 2 alternatives: 1. (250 ml) water 2. Whey Protein Concentrate (WPC 80 %), 45 gr dissolved in 250 ml of water

Time frame: During 4 hours meal challenge

Secondary Outcomes

Insulin GLP-1, GIP and DPP4

In all 25 subjects, the effects of whey protein on posprandial insulin, C- peptide, GIP, GLP-1, and dipeptil dipeptidase-4 (DPP-4) after standardized breakfast will be measured. Thirty minutes prior to breakfast, subjects will preloaded with one of 2 alternatives: 1. (250 ml) water 2. Whey Protein Concentrate (WPC 80 %), 45 gr dissolved in 250 ml of water

Time frame: During 4 hours after meal challange

Data from ClinicalTrials.gov

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