提高对细胞质核糖体与线粒体核糖体的选择性可提高合成氨基糖苷类药物修复受损基因的效率:一种治疗无义突变引起的遗传疾病的策略。
Increased selectivity toward cytoplasmic versus mitochondrial ribosome confers improved efficiency of synthetic aminoglycosides in fixing damaged genes: a strategy for treatment of genetic diseases caused by nonsense mutations.
机构信息
The Edith and Joseph Fischer Enzyme Inhibitors Laboratory, Schulich Faculty of Chemistry, Technion-Israel Institute of Technology, Haifa 32000, Israel.
出版信息
J Med Chem. 2012 Dec 13;55(23):10630-43. doi: 10.1021/jm3012992. Epub 2012 Nov 29.
Abstract
Compelling evidence is now available that gentamicin and Geneticin (G418) can induce the mammalian ribosome to suppress disease-causing nonsense mutations and partially restore the expression of functional proteins. However, toxicity and relative lack of efficacy at subtoxic doses limit the use of gentamicin for suppression therapy. Although G418 exhibits the strongest activity, it is very cytotoxic even at low doses. We describe here the first systematic development of the novel aminoglycoside (S)-11 exhibiting similar in vitro and ex vivo activity to that of G418, while its cell toxicity is significantly lower than those of gentamicin and G418. Using a series of biochemical assays, we provide proof of principle that antibacterial activity and toxicity of aminoglycosides can be dissected from their suppression activity. The data further indicate that the increased specificity toward cytoplasmic ribosome correlates with the increased activity and that the decreased specificity toward mitochondrial ribosome confers the lowered cytotoxicity.
摘要
现在有强有力的证据表明,庆大霉素和 Geneticin(G418)可以诱导哺乳动物核糖体抑制致病的无义突变,并部分恢复功能性蛋白质的表达。然而,庆大霉素的毒性和亚毒性剂量下的相对疗效有限,限制了其在抑制治疗中的应用。尽管 G418 表现出最强的活性,但即使在低剂量下,它也具有很强的细胞毒性。我们在这里首次系统地开发了新型氨基糖苷类化合物(S)-11,其体外和体内活性与 G418 相似,而其细胞毒性明显低于庆大霉素和 G418。通过一系列生化测定,我们提供了原理性证据,证明氨基糖苷类抗生素的抗菌活性和毒性可以与其抑制活性分离。数据还表明,对细胞质核糖体的特异性增加与活性增加相关,而对线粒体核糖体的特异性降低赋予了降低的细胞毒性。
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