肽脂质化稳定结构以增强生物功能。
Peptide lipidation stabilizes structure to enhance biological function.
机构信息
Department of Chemistry, Indiana University, Bloomington, IN, USA.
出版信息
Mol Metab. 2013 Sep 5;2(4):468-79. doi: 10.1016/j.molmet.2013.08.008. eCollection 2013.
Abstract
Medicines that decrease body weight and restore nutrient tolerance could improve human diabetes and obesity treatment outcomes. We developed lipid-acylated glucagon analogs that are co-agonists for the glucagon and glucagon-like peptide 1 receptors, and stimulate weight loss and plasma glucose lowering in pre-diabetic obese mice. Our studies identified lipid acylation (lipidation) can increase and balance in vitro potencies of select glucagon analogs for the two aforementioned receptors in a lipidation site-dependent manner. A general capacity for lipidation to enhance the secondary structure of glucagon analogs was recognized, and the energetics of this effect quantified. The molecular structure of a lipid-acylated glucagon analog in water was also characterized. These results support that lipidation can modify biological activity through thermodynamically-favorable intramolecular interactions which stabilize structure. This establishes use of lipidation to achieve specific pharmacology and implicates similar endogenous post-translational modifications as physiological tools capable of refining biological action in means previously underappreciated.
摘要
能够降低体重并恢复营养耐受性的药物可以改善人类糖尿病和肥胖症的治疗效果。我们开发了酰化脂质的胰高血糖素类似物,它们是胰高血糖素和胰高血糖素样肽 1 受体的共同激动剂,可刺激糖尿病前期肥胖小鼠的体重减轻和降低血浆葡萄糖。我们的研究表明,脂质酰化(脂肪酰化)可以增加和平衡选择的胰高血糖素类似物对上述两种受体的体外效力,这是一种依赖于脂肪酰化部位的方式。认识到了一般的脂肪酰化能力可以增强胰高血糖素类似物的二级结构,并对该效应的能量进行了量化。还对水相中的脂酰化胰高血糖素类似物的分子结构进行了表征。这些结果支持通过热力学有利的分子内相互作用来修饰生物活性,从而稳定结构。这确立了使用脂肪酰化来实现特定药理学,并暗示类似的内源性翻译后修饰作为能够以以前未被充分认识的方式细化生物作用的生理工具。
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