九种受体和结合蛋白、四种药物和一名女性:历史和个人视角

D. Novick
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引用次数: 3

摘要

在生物信息学和高通量技术的时代,人们很容易忘记一种古老但高效且简单的技术,即配体亲和层析法,在寻找未知蛋白质方面的优势。这种类型的分离是基于目标分析物之间的相互作用,目标分析物可能存在于蛋白质的粗混合物和与树脂共价偶联的配体之间。这个过程可以在一个步骤中进行数千倍的纯化,这在使用极其丰富的天然蛋白质来源(如人类尿液或血浆)时至关重要。在the Genome Project完成之前,该方法可以根据分离蛋白的部分氨基酸序列快速、可靠地克隆出相应的基因。在这个项目完成后,一个部分的蛋白质序列就足以检索其完整的mRNA,从而获得其完整的蛋白质序列。配体亲和层析是不可缺少的分离预期和意外发现的结合蛋白。我将丰富的人类蛋白质来源(1000倍浓缩的人类尿液)与这种高度特异性的分离方法结合在一起,从两组中产生了蛋白质。预期蛋白包括TNF的两种受体(TBPI和TBPII), I型和II型干扰素受体(IFNα/βR, IFN-γR), IL-6和LDL受体。这组意想不到的蛋白包括IL-18结合蛋白(IL-18BP)、IL-32结合蛋白(蛋白酶3)和肝素酶结合蛋白(抵抗素)。I型IFN受体的发现是我生命中的一个“尤里卡”时刻,因为它结束了35年来全球对这种受体的寻找。使用化学纯化方法,TBPII可能永远不会被发现。多年后,TBPII被转化为重磅药物Enbrel®,主要用于治疗类风湿性关节炎。ifn - β被转化为重磅药物Rebif®,用于治疗自身免疫性疾病多发性硬化症。IL-18BP被转化为药物tadekiniing alfa™,目前正处于炎症和自身免疫性病理的III期临床研究中。它挽救了天生携带突变(NLRC4, XIAP)的儿童的生命,是个性化医疗的一个例子。COVID-19和CAR-T细胞因子风暴是IL-18BP的最新靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nine receptors and binding proteins, four drugs, and one woman: Historical and personal perspectives
In the era of bioinformatics and high-throughput techniques, it is tempting to forget the advantage of an old yet efficient and straightforward technique, ligand affinity chromatography, in the search for unknown proteins. This type of separation is based on an interaction between the target analyte potentially present in a crude mixture of proteins and a ligand coupled covalently to a resin. This process allows thousands-fold purification in a single step, which is crucial when using an extremely rich source of naturally occurring proteins such as human urine or plasma. Before the completion of The Genome Project, this method facilitated the rapid and reliable cloning of the corresponding gene based on the partial amino acid sequence of the isolated protein. Upon completion of this project, a partial protein sequence was enough to retrieve its complete mRNA and, hence, its complete protein sequence. Ligand affinity chromatography is indispensable for the isolation of both expected and unexpected binding proteins found by serendipity. My approach of combining a rich source of human proteins (1,000-fold concentrated human urine) together with this highly specific isolation method yielded proteins from both groups. The expected proteins included the two receptors for TNF (TBPI and TBPII), type I and type II interferon receptors (IFNα/βR, IFN-γR), and IL-6 and LDL receptors. The unexpected group of proteins included IL-18 binding protein (IL-18BP), IL-32 binding protein (Proteinase 3), and heparanase binding protein, the resistin. The discovery of the type I IFN receptor was a “eureka” moment in my life since it put an end to a 35-year worldwide search for this receptor. Using chemical purification methods, the TBPII might have never been discovered. Years later, TBPII was translated into the blockbuster drug Enbrel® to treat mainly rheumatoid arthritis. IFN-beta was translated into the blockbuster drug Rebif® to treat the autoimmune disease multiple sclerosis. IL-18BP translated into the drug Tadekinig alfa™ and is in a phase III clinical study for inflammatory and autoimmune pathologies. It has saved the lives of children born with mutations (NLRC4, XIAP) and is an example of personalized medicine. COVID-19 and CAR-T cytokine storms are the recent targets of IL-18BP.
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