Secoisolariciresinol Diglucoside (SDG) from flaxseed in the prevention and treatment of diabetes mellitus

Q4 Medicine
K. Prasad, Kalpana K Bhanumathy
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Abstract

This review focuses on the role of reactive oxygen species (ROS) on the development of type 1 and type 2 diabetes and its treatment with secoisolariciresinol diglucoside (SDG) isolated from flaxseed which is an antioxidant and suppresses phosphoenolpyruvate carboxykinase (PEPCK) gene expression, a ratelimiting enzyme in the gluconeogenesis in the liver. Role of ROS in the development of type 1 diabetes [diabetic prone Bio Breeding (BBdp) rats and streptozotocin-induced diabetic (STZ) rats and type 2 diabetes (Zucker diabetic fatty female rats, ZDF rats)] has been discussed. Oxidative stress has been assessed by measuring serum and pancreatic malondialdehyde (MDA), pancreatic chemiluminescence (pancreatic-CL) and oxygen radical producing activity of white blood cells (WBCCL). Diagnosis of diabetes was made by hyperglycaemia and glucosuria. Incidence of diabetes was 100 % in SDZ rats, 72 % in BBdp rats and 100 % in ZDF rats by the age of 72 days. Development of diabetes was associated with increases in the serum and pancreatic MDA, WBC-CL and pancreatic-CL and glycated haemoglobin (HbA1 c). SDG prevented the development of diabetes by 75 % in STZ rats, by 71 % in BBdp rats and by 20 % at 72 days of age in ZDF rats. However, 80 % of the rats which did not develop diabetes by 72 days of age, developed diabetes later on, suggesting that SDG treatment delays the development of diabetes in ZDF rats. Treatment with SDG decreased the levels of serum and pancreatic MDA, WBC-CL and pancreatic-CL. In conclusion, development of type 1 and type 2 diabetes is mediated through oxidative stress and the prevention or delay in the development of diabetes with SDG could be due to its antioxidant activity and its suppressant effect on PEPCK enzyme. Lignan complex which contains 34 % to 38 % of SDG is effective in lowering serum glucose and HbA1 c in type 2 diabetes in humans.
亚麻籽中二异松脂醇二糖苷(SDG)防治糖尿病的作用
本文综述了活性氧(ROS)在1型和2型糖尿病发病过程中的作用,以及从亚麻籽中分离出的抗氧化剂、抑制肝脏糖异生酶磷酸烯醇丙酮酸羧激酶(PEPCK)基因表达的二葡萄糖糖苷(SDG)的治疗方法。已经讨论了ROS在1型糖尿病[糖尿病易感生物育种(BBdp)大鼠和链脲佐菌素诱导的糖尿病(STZ)大鼠和2型糖尿病(Zucker糖尿病脂肪雌性大鼠,ZDF大鼠)的发展中的作用]。通过测定血清和胰腺丙二醛(MDA)、胰腺化学发光(胰腺cl)和白细胞产生氧自由基(WBCCL)活性来评估氧化应激。通过高血糖和高血糖来诊断糖尿病。72日龄时,SDZ大鼠糖尿病发生率为100%,BBdp大鼠为72%,ZDF大鼠为100%。糖尿病的发展与血清和胰腺MDA、白细胞- cl、胰腺- cl和糖化血红蛋白(hba1c)的增加有关。在72日龄时,SDG对STZ大鼠的糖尿病发展的预防作用为75%,对BBdp大鼠的糖尿病发展的预防作用为71%,对ZDF大鼠的糖尿病发展的预防作用为20%。然而,在72日龄未患糖尿病的大鼠中,有80%的大鼠后来患上了糖尿病,这表明SDG治疗延缓了ZDF大鼠糖尿病的发展。SDG治疗降低了血清和胰腺MDA、白细胞- cl和胰腺- cl水平。综上所述,氧化应激介导了1型和2型糖尿病的发生,SDG预防或延缓糖尿病的发生可能与其抗氧化活性和对PEPCK酶的抑制作用有关。木脂素复合物含有34%至38%的SDG,对降低人类2型糖尿病患者的血糖和hba1c有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
0.60
自引率
0.00%
发文量
13
审稿时长
4 weeks
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