Delivery of a hammerhead ribozyme specifically downregulates mutant type I collagen mRNA in a murine model of osteogenesis imperfecta.

I. Toudjarska, M. Kilpatrick, J. Niu, R. Wenstrup, P. Tsipouras
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引用次数: 11

Abstract

Osteogenesis imperfecta (OI) is a systemic heritable disorder of connective tissue, caused by a mutation in one of the genes for type I collagen, whose cardinal manifestation is bone fragility. Several studies have identified two molecular mechanisms of collagen type I defects. In chain exclusion, the mutant chain is not incorporated into the collagen triple helix, whereas in chain nonexclusion, it is. The dominant-negative effect of nonexcluded mutations must be taken into account in all strategies aimed at correcting the collagen defects in individuals affected with moderate or several OI. Herein, we describe the application of hammerhead ribozymes to selectively target the mutant minigene transcript expressed in a murine calvarial osteoblast cell line. Active and control inactive ribozymes were tested in vitro on both mutant and normal targets and in the minigene-expressing cell line. Active ribozyme cleaved its target with high efficiency and specificity in both a time-dependent and dose-dependent manner. After delivery of a ribozyme expression construct, intracellular ribozyme was detected, along with a relative reduction in mutant transcript level.
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在成骨不全小鼠模型中,锤头核酶的递送特异性下调突变型I型胶原mRNA。
成骨不全症(Osteogenesis imperfecta, OI)是一种结缔组织的系统性遗传性疾病,由I型胶原蛋白基因突变引起,主要表现为骨脆性。一些研究已经确定了胶原I型缺陷的两种分子机制。在链排斥中,突变链不被纳入胶原蛋白三螺旋,而在链不排斥中,它被纳入。在所有旨在纠正中度或轻度成骨不全患者胶原蛋白缺陷的策略中,必须考虑到非排除突变的显性负作用。在此,我们描述了锤头核酶的应用,以选择性靶向突变的迷你基因转录物表达在小鼠颅骨成骨细胞系。活性核酶和对照非活性核酶分别在突变体和正常靶细胞以及表达minigene的细胞系上进行了体外检测。活性核酶具有高效率和特异性,具有时间依赖性和剂量依赖性。传递核酶表达构建体后,检测细胞内核酶,同时检测到突变体转录水平的相对降低。
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