Fenfuro®-mediated arrest in the formation of protein-methyl glyoxal adducts: a new dimension in the anti-hyperglycemic potential of a novel fenugreek seed extract.

IF 3.2 4区 医学 Q1 Pharmacology, Toxicology and Pharmaceutics
Toxicology Mechanisms and Methods Pub Date : 2024-10-01 Epub Date: 2024-06-04 DOI:10.1080/15376516.2024.2358520
Samudra Prosad Banik, Pawan Kumar, Debasis Bagchi, Souradip Paul, Apurva Goel, Manashi Bagchi, Sanjoy Chakraborty
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引用次数: 0

Abstract

The fenugreek plant (Trigonella foenum-graecum) is traditionally known for its anti-diabetic properties owing to its high content of furostanolic saponins, which can synergistically treat many human ailments. Non-enzymatic protein glycation leading to the formation of Advanced Glycation End products (AGE) is a common pathophysiology observed in diabetic or prediabetic individuals, which can initiate the development of neurodegenerative disorders. A potent cellular source of glycation is Methyl Glyoxal, a highly reactive dicarbonyl formed as a glycolytic byproduct. We demonstrate the in vitro glycation arresting potential of Fenfuro®, a novel patented formulation of Fenugreek seed extract with clinically proven anti-diabetic properties, in Methyl-Glyoxal (MGO) adducts of three abundant amyloidogenic cellular proteins, alpha-synuclein, Serum albumin, and Lysozyme. A 0.25% w/v Fenfuro® was able to effectively arrest glycation by more than 50% in all three proteins, as evidenced by AGE fluorescence. Glycation-induced amyloid formation was also arrested by more than 36%, 14% and 15% for BSA, Alpha-synuclein and Lysozyme respectively. An increase in MW by attachment of MGO was also partially prevented by Fenfuro® as confirmed by SDS-PAGE analysis. Glycation resulted in enhanced aggregation of the three proteins as revealed by Native PAGE and Dynamic Light Scattering. However, in the presence of Fenfuro®, aggregation was arrested substantially, and the normal size distribution was restored. The results cumulatively indicated the lesser explored potential of direct inhibition of glycation by fenugreek seed in addition to its proven role in alleviating insulin resistance. Fenfuro® boosts its therapeutic potential as an effective phytotherapeutic to arrest Type 2 diabetes.

Fenfuro® 介导的蛋白质-甲基乙二醛加合物形成抑制作用:新型葫芦巴籽提取物抗高血糖潜力的新维度。
传统上,葫芦巴(Trigonella foenum-graecum)因其高含量的呋喃甾醇皂苷具有抗糖尿病特性而闻名,这种皂苷可以协同治疗多种人类疾病。非酶蛋白糖化导致高级糖化终产物(AGE)的形成,这是糖尿病患者或糖尿病前期患者常见的病理生理现象,可引发神经退行性疾病。甲基乙二醛是一种强效的细胞糖化源,它是一种作为糖酵解副产物形成的高活性二羰基。我们展示了 Fenfuro® 的体外糖化抑制潜能,Fenfuro® 是一种新型的葫芦巴种子提取物专利配方,具有临床证实的抗糖尿病特性,可抑制三种丰富的致淀粉样细胞蛋白(α-突触核蛋白、血清白蛋白和溶菌酶)的甲基乙二醛(MGO)加合物。0.25% w/v 的 Fenfuro® 能有效阻止这三种蛋白质中 50% 以上的糖化,AGE 荧光就是证明。对 BSA、α-突触核蛋白和溶菌酶来说,糖化诱导的淀粉样蛋白形成也分别抑制了 36%、14% 和 15%以上。经 SDS-PAGE 分析证实,Fenfuro® 还能部分防止 MGO 附着导致的分子量增加。原生 PAGE 和动态光散射法显示,糖化导致这三种蛋白质的聚集增强。然而,在 Fenfuro® 的作用下,聚集现象被大大抑制,并恢复了正常的大小分布。这些结果综合表明,除了在缓解胰岛素抵抗方面已被证实的作用外,葫芦巴籽直接抑制糖化的潜力还未被充分发掘。Fenfuro® 作为一种有效的植物疗法,可有效抑制 2 型糖尿病,从而提高其治疗潜力。
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来源期刊
CiteScore
6.60
自引率
3.10%
发文量
66
审稿时长
6-12 weeks
期刊介绍: Toxicology Mechanisms and Methods is a peer-reviewed journal whose aim is twofold. Firstly, the journal contains original research on subjects dealing with the mechanisms by which foreign chemicals cause toxic tissue injury. Chemical substances of interest include industrial compounds, environmental pollutants, hazardous wastes, drugs, pesticides, and chemical warfare agents. The scope of the journal spans from molecular and cellular mechanisms of action to the consideration of mechanistic evidence in establishing regulatory policy. Secondly, the journal addresses aspects of the development, validation, and application of new and existing laboratory methods, techniques, and equipment. A variety of research methods are discussed, including: In vivo studies with standard and alternative species In vitro studies and alternative methodologies Molecular, biochemical, and cellular techniques Pharmacokinetics and pharmacodynamics Mathematical modeling and computer programs Forensic analyses Risk assessment Data collection and analysis.
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