Antidiabetic Effect of Collagen Peptides from Harpadon nehereus Bones in Streptozotocin-Induced Diabetes Mice by Regulating Oxidative Stress and Glucose Metabolism

Antidiabetic Effect of Collagen Peptides from Harpadon nehereus Bones in Streptozotocin-Induced Diabetes Mice by Regulating Oxidative Stress and Glucose Metabolism

Oxidative stress and abnormal glucose metabolism are the important physiological mechanisms in the occurrence and development of diabetes. Antioxidant peptides have been reported to attenuate diabetes complications by regulating levels of oxidative stress, but few studies have focused on peptides fr...

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Bibliographic Details
Published in:Marine drugs Vol. 21; no. 10; p. 518
Main Authors: Lin, Qianxia, Guo, Yueping, Li, Jie, He, Shuqi, Chen, Yan, Jin, Huoxi
Format: Journal Article
Language:English
Published: Basel MDPI AG 29-09-2023
MDPI
Subjects:
Antidiabetics
Antioxidants
Blood
Blood glucose
Bones
Cholesterol
Chromatography
Collagen
collagen peptides
Diabetes
Diabetes mellitus (insulin dependent)
Enzymolysis
Glucokinase
Glucose
Glucose metabolism
Glucose-6-phosphatase
Glycogen
Glycogen synthase kinase 3
Glycogens
Glycolipids
Harpadon nehereus
High density lipoprotein
Hyperglycemia
Insulin
Kinases
Lipids
Lipoproteins
Liver
Low density lipoprotein
Metabolic disorders
Metabolism
Molecular weight
Nrf2
Oxidative metabolism
Oxidative stress
Pancreas
Peptides
Phosphatase
Phosphorylation
Proteins
Serum
Streptozocin
Structure-function relationships
Triglycerides
Ultrafiltration
Western blotting
China
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Summary:Oxidative stress and abnormal glucose metabolism are the important physiological mechanisms in the occurrence and development of diabetes. Antioxidant peptides have been reported to attenuate diabetes complications by regulating levels of oxidative stress, but few studies have focused on peptides from marine bone collagen. In this study, we prepared the peptides with a molecular weight of less than 1 kD (HNCP) by enzymolysis and ultrafiltration derived from Harpadon nehereus bone collagen. Furthermore, the effects of HNCP on blood glucose, blood lipid, liver structure and function, oxidative stress, and glucose metabolism were studied using HE staining, kit detection, and Western blotting experiment in streptozocin-induced type 1 diabetes mice. After the 240 mg/kg HNCP treatment, the levels of blood glucose, triglyceride (TG), and low-density lipoprotein cholesterol (LDL-C) in streptozotocin-induced diabetes mice decreased by 32.8%, 42.2%, and 43.2%, respectively, while the levels of serum insulin and hepatic glycogen increased by 142.0% and 96.4%, respectively. The antioxidant enzymes levels and liver function in the diabetic mice were markedly improved after HNCP intervention. In addition, the levels of nuclear factor E2-related factor 2 (Nrf2), glucokinase (GK), and phosphorylation of glycogen synthase kinase-3 (p-GSK3β) in the liver were markedly up-regulated after HNCP treatment, but the glucose-6-phosphatase (G6Pase) and phosphoenolpyruvate carboxykinase1 (PEPCK1) were down-regulated. In conclusion, HNCP could attenuate oxidative stress, reduce blood glucose, and improve glycolipid metabolism in streptozocin-induced type 1 diabetes mice.
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These authors contributed equally to this work.
ISSN:1660-3397
1660-3397
DOI:10.3390/md21100518