鉴定重组人白细胞介素 15 的脱酰胺作用及其通过替换天冬酰胺 77 来实现的实际消除。

Characterization of recombinant human IL-15 deamidation and its practical elimination through substitution of asparagine 77.

机构信息

Biopharmaceutical Development Program, SAIC-Frederick, Inc., National Cancer Institute at Frederick, Frederick, Maryland 21702, USA.

出版信息

Pharm Res. 2012 Mar;29(3):722-38. doi: 10.1007/s11095-011-0597-0. Epub 2011 Oct 19.

DOI:10.1007/s11095-011-0597-0

PMID:22009587

Abstract

PURPOSE

The use of recombinant human interleukin (rhIL)-15 as a potential therapeutic immune modulator and anticancer agent requires pure, stable preparations. However, purified rhIL-15 preparations readily accumulated heterogeneities. We sought to improve rhIL-15 stability through process, formulation, and targeted amino acid changes.

METHODS

The solution state of rhIL-15 versus buffer composition and temperature was studied using SEC and IEX methods. rhIL-15 deamidation was confirmed using RP-HPLC/ESI-MS, enzymatic labeling, and peptide mapping. Deamidation kinetics were measured versus buffer composition and pH using RP-HPLC. Deamidation-resistant rhIL-15 variants (N77A, N77S, N77Q, G78A, and [N71S/N72A/N77A]) were produced in E. coli, then assayed for T-cell culture expansion potency and deamidation resistance.

RESULTS

Adding 20% ethanol to buffers or heating at ≥32°C dispersed rhIL-15 transient pairs, improving purification efficiencies. Asparagine 77 deamidated rapidly at pH 7.4 with activation energy of 22.9 kcal per mol. Deamidation in citrate buffer was 17-fold slower at pH 5.9 than at pH 7.4. Amino acid substitutions at N77 or G78 slowed deamidation ≥23-fold. rhIL-15 variants N77A and (N71S/N72A/N77A) were active in a CTLL-2 proliferation assay equivalent to unsubstituted rhIL-15.

CONCLUSIONS

The N77A and (N71S/N72A/N77A) rhIL-15 variants are resistant to deamidation and remain potent, thus providing enhanced drug substances for clinical evaluation.

摘要

目的

作为一种有潜力的治疗性免疫调节剂和抗癌药物，重组人白细胞介素（rhIL）-15 需要纯、稳定的制剂。然而，纯化的 rhIL-15 制剂容易积累异质性。我们试图通过工艺、配方和靶向氨基酸变化来提高 rhIL-15 的稳定性。

方法

使用 SEC 和 IEX 方法研究 rhIL-15 相对于缓冲液组成和温度的溶液状态。使用 RP-HPLC/ESI-MS、酶标记和肽图证实 rhIL-15 的脱酰胺作用。使用 RP-HPLC 测量脱酰胺作用与缓冲液组成和 pH 的关系。通过在大肠杆菌中产生脱酰胺抗性 rhIL-15 变体（N77A、N77S、N77Q、G78A 和[N71S/N72A/N77A]），然后测定其 T 细胞培养扩增能力和脱酰胺抗性。

结果

在缓冲液中添加 20%乙醇或加热至≥32°C 会使 rhIL-15 瞬态对分散，提高纯化效率。在 pH 7.4 时，天冬酰胺 77 快速脱酰胺，活化能为每摩尔 22.9 千卡。在 pH 5.9 时，柠檬酸缓冲液中的脱酰胺速度比在 pH 7.4 时慢 17 倍。在 N77 或 G78 处的氨基酸取代使脱酰胺作用慢了≥23 倍。rhIL-15 变体 N77A 和（N71S/N72A/N77A）在 CTLL-2 增殖测定中与未取代的 rhIL-15 等效。

结论

N77A 和（N71S/N72A/N77A）rhIL-15 变体对脱酰胺作用具有抗性，并且保持活性，从而为临床评估提供了增强的药物物质。

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鉴定重组人白细胞介素 15 的脱酰胺作用及其通过替换天冬酰胺 77 来实现的实际消除。

Characterization of recombinant human IL-15 deamidation and its practical elimination through substitution of asparagine 77.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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