Recombinant targeted proteins for biotherapy.

Molecular biotherapy Pub Date : 1990-06-01
A Ahmad, K Law
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Abstract

In an effort to improve existing biotherapies, researchers have used recombinant techniques to alter the structure of toxins, monoclonal antibodies, and other receptor and effector molecules. Experimental research has demonstrated that the extent of problems such as nonspecific toxicity and rapid clearance by the immune system are not as great with genetically engineered toxins as opposed to native toxins. Fusion proteins, which combine portions of toxins, antibodies, or various effector molecules, exhibit the preferred biologic properties of their constituents. Unlike their murine counterparts, chimeric antibodies have the ability to invoke cell-mediated immunity and are less immunogenic to humans. Because they display different antigen-binding specificities on the same molecule, hybrid hybridomas are a potential means of juxtaposing effector cells or toxins to tumor cells. These and other positive features of recombinant proteins offer a decided advantage over previous biotherapeutic agents, and these molecules are expected to find application in the treatment of cancer, the acquired immunodeficiency syndrome, and autoimmune diseases.

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用于生物治疗的重组靶向蛋白。
为了改进现有的生物疗法,研究人员使用重组技术来改变毒素、单克隆抗体和其他受体和效应分子的结构。实验研究表明,与天然毒素相比,基因工程毒素的非特异性毒性和免疫系统的快速清除等问题的程度没有天然毒素那么大。融合蛋白结合了毒素、抗体或各种效应分子的部分,表现出其成分的首选生物学特性。与小鼠的嵌合抗体不同,嵌合抗体具有触发细胞介导免疫的能力,对人类的免疫原性较低。由于它们在同一分子上表现出不同的抗原结合特异性,因此杂交杂交瘤是将效应细胞或毒素与肿瘤细胞并列的潜在手段。重组蛋白的这些和其他积极特征比以前的生物治疗药物提供了决定性的优势,这些分子有望在癌症、获得性免疫缺陷综合征和自身免疫性疾病的治疗中得到应用。
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