發明
中華民國
107125276
I 680139
短胜肽、及其組合物用於治療/預防糖尿病及與之相關疾病之用途
東海大學
2019/12/21
Antidiabetic Effects of a Short Peptide of Potato Protein Hydrolysate in STZ-Induced Diabetic Mice Alcalase- generated potato protein hydrolysate (APPH) is a potential bioactive peptide against diabetes mellitus (DM) and DM-associated secondary effects in animal models. The aim of the present study was to find the efficiency of a deca-peptide DIKTNKPVIF (DF) from APPH against DM. Six-week-old male ICR mice were divided into the following groups: Control, Control+DF (received 50 mg/kg DF), streptozotocin (STZ)-induced DM group, DM+Acarbose group (20 mg/kg of acarbose), DM+DF-L (25 mg/kg of DF), DM+DF-H (50 mg/kg of DF), and DM+APPH (50 mg/kg of APPH). Comparable to APPH, treatment with DF effectively regulated blood glucose level and also controlled plasma total glycerol (TG), total cholesterol (TC), insulin, and HbA1c levels in DM animals. DF treatment also showed evidence of ameliorating DM-associated damages in the pancreatic islets and in the liver, heart, and kidney tissues. Therefore, the results demonstrate that the short synthetic peptide-DF may effectively provide protection against DM-associated damages. 馬鈴薯蛋白酶水解物之生物活性短肽對STZ誘導糖尿病小鼠具有抗糖尿病之作用 由Alcalase產生的馬鈴薯蛋白水解產物(APPH)是一種潛在的抗糖尿病動物模型(DM)和與DM相關的繼發作用的生物活性肽。本研究的目的是發現APPH的十肽DIKTNKPVIF(DF)對DM的功效。六周大的ICR雄性小鼠分為以下幾組:對照組,對照組+ DF(接受50 mg / kg DF),鏈脲佐菌素(STZ)誘導的DM組,DM + acarbose組(20 mg / kg acarbose),DM + DF-L(25 mg / kg DF),DM + DF-H (50 mg / kg DF)和DM + APPH(50 mg / kgAPPH)。與APPH相比,DF可以有效地調節DM動物的血糖水平,並控制血漿總三酸甘油脂(TG),總膽固醇(TC),胰島素和HbA1c的指數,DF治療還顯示出減輕DM相關損傷的證據。胰島細胞以及肝臟,心臟和腎臟組織。因此,短的合成胜肽肽-DF可以有效地提供針對DM相關損傷的保護。實驗結果顯示,與APPH相比,DF治療組有效調節DM小鼠組的血糖水平和控制血漿TG,TC,胰島素和HbA1c血液生化值的變化。DF治療還改善胰臟和肝臟,心臟和腎臟組織切片中因STZ誘發DM所帶來的相關器官損傷。β細胞數量是胰島素分泌的決定因素之一,因此維持至少部分β細胞群對於恢復T1DM病症至關重要。APPH及其成分DF的餵食有效地改善了因STZ破壞後存活的β細胞群,並進一步促進了β細胞的產生及復甦。且DF治療組中能具有降低血糖的調節作用。此外APPH和DF也具有效的免疫調節作用,使IL-1β和IL-10達到正常水平,這可能有助於胰臟β細胞的功能恢復。因此經過這項研究,我們進一步得出結論,口服DIKTNKPVIF攝入可以透過改善胰島素水平和調節血糖潛在地減輕糖尿病相關器官的損害。
研發處
04-23594711
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