Site-selective conjugation generally requires both (i) molecular engineering of the protein of interest to introduce a conjugation site at a defined location and (ii) a site-specific conjugation technology. Three N-terminal interferon α2-a (IFN) variants with truncated histidine tags were prepared and conjugation was examined using a bis-alkylation reagent, PEG(10kDa)-mono-sulfone >3. A histidine tag comprised of two histidines separated by a glycine (His2-tag) underwent PEGylation. Two more IFN variants were then prepared with the His2-tag engineered at different locations in IFN. Another IFN variant was prepared with the His-tag introduced in an α-helix, and required three contiguous histidines to ensure that two histidine residues in the correct conformation would be available for conjugation. Since histidine is a natural amino acid, routine methods of site-directed mutagenesis were used to generate the IFN variants from E. coli in soluble form at titres comparable to native IFN. PEGylation conversions ranged from 28–39%. A single step purification process gave essentially the pure PEG–IFN variant (>97% by RP-HPLC) in high recovery with isolated yields ranging from 21–33%. The level of retained bioactivity was strongly dependent on the site of PEG conjugation. The highest biological activity of 74% was retained for the PEG10-106(>HG>HG)-IFN variant which is unprecedented for a PEGylated IFN. The His2-tag at 106(>HG>HG)-IFN is engineered at the flexible loop most distant from IFN interaction with its dimeric receptor. The biological activity for the PEG10-5(>HG>H)-IFN variant was determined to be 17% which is comparable to other PEGylated IFN conjugates achieved at or near the N-terminus that have been previously described. The lowest retained activity (10%) was reported for PEG10-120(>HHH)-IFN which was prepared as a negative control targeting a IFN site thought to be involved in receptor binding. The presence of two histidines as a His2-tag to generate a site-selective target for bis-alkylating PEGylation is a feasible approach for achieving site-selective PEGylation. The use of a His2-tag to strategically engineer a conjugation site in a protein location can result in maximising the retention of the biological activity following protein modification.
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机译:位点选择性缀合通常既需要(i)目的蛋白的分子工程设计以在定义的位置引入缀合位点,又需要(ii)特定位点的缀合技术。制备了具有组氨酸标签被截断的三个N末端干扰素α2-a(IFN)变体,并使用双烷基化试剂PEG(10kDa)-单砜> 3 检查了缀合。由由甘氨酸分隔的两个组氨酸组成的组氨酸标签(His2-标签)进行了聚乙二醇化。然后用在IFN中不同位置改造的His2标签制备了另外两个IFN变体。制备了另一个带有IFN-α的His标签的IFN变体,它需要三个连续的组氨酸,以确保正确构象的两个组氨酸残基可用于结合。由于组氨酸是天然氨基酸,因此采用定点诱变的常规方法以可溶形式从大肠杆菌产生IFN变体,其滴度与天然IFN相当。聚乙二醇化转化率为28%至39%。一步纯化过程基本上可以得到高纯度的纯PEG-IFN变异体(RP-HPLC> 97%),分离产率为21-33%。保留的生物活性水平在很大程度上取决于PEG结合位点。 PEG10-106(> H G > H G)-IFN变异体保留了74%的最高生物活性,这对PEG化IFN而言是前所未有的。 106(> H G > H G)-IFN处的His2标签是在最远离IFN与二聚体受体相互作用的柔性环上进行工程改造的。确定PEG10-5(> H G > H )-IFN变体的生物学活性为17%,与在N或接近N时获得的其他PEG化IFN偶联物相当。 -先前已经描述过的末端。据报道,PEG10-120(> HHH )-IFN的保留活性最低(10%),它是作为靶向IFN位点的阴性对照而制备的,它被认为与受体结合有关。存在两个组氨酸作为His2-标签以产生用于双烷基化PEG化的位点选择性靶标是实现位点选择性PEG化的可行方法。使用His2标签对蛋白质位置的缀合位点进行策略性工程改造可以使蛋白质修饰后的生物活性保留最大化。
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