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引用次数: 0
摘要
许多疾病都源于某种蛋白质的缺乏或表达缺陷。对于其中一些疾病来说,缺乏的蛋白质是分泌性的,或者在外源性给药时可被细胞吸收。在这种情况下,最初的治疗方法是从人体组织中提取生理性蛋白质。后来,基因工程在引入相应基因后,通过细胞发酵生产出了蛋白质。对于许多其他病症,缺乏的蛋白质无法从外源性提供。因此,必须由细胞自身产生内源性治疗蛋白。信使核糖核酸(mRNA)技术与其前身 DNA 一样,旨在补充细胞内产生治疗蛋白质所需的遗传信息。然而,与基于 DNA 的疗法不同的是,mRNA 转移允许相关蛋白质的瞬时表达,这在许多病症中具有优势。然而,掌握治疗用 mRNA 所编码的蛋白质生产的数量、质量和时空调控,仍然是这一方法发展过程中的重大挑战。
Many diseases originate from either the absence or defective expression of a given protein. For some of them, the lacking protein is secreted or can be taken up by cells when delivered exogenously. In such cases, therapies initially involved administering the physiological protein extracted from human tissues. Subsequently, genetic engineering enabled the production of proteins through cell fermentation after introducing the corresponding gene. For many other pathologies, the deficient protein cannot be delivered exogenously. Thus, an endogenous production of the therapeutic protein by the cells themselves is necessary. Messenger RNA (mRNA) technology, like its predecessor DNA, aims to supplement the genetic information needed to produce the therapeutic protein within the cells. However, unlike DNA-based therapies, mRNA transfer allows for transient expression of the protein of interest, which offers an advantage in numerous pathologies. Nonetheless, mastering the quantity, quality, and spatio-temporal regulation of protein production encoded by therapeutic mRNA remains a significant challenge for the development of this approach.
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