Implementation of a Macroporous Polyhydroxyethylmethacrylate Cryogel-Based Mini-Bioreactor System to Improve Monoclonal Antibody Production.

Frontiers in bioscience (Elite edition) Pub Date : 2024-08-07 DOI:10.31083/j.fbe1603026

Jyothilekshmi Indiramma, Kishore K R Tetala, N S Jayaprakash

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Abstract

Background: Monoclonal antibodies (mAbs) are pioneers in the diagnosis and treatment of many diseases, such as cancer, asthma, poisoning, viral infections, etc. As the market value of mAbs increases in the biopharma industry, the demand for high quantities is met by upscaled production using bioreactor systems. Thus, disposable, porous matrices called cryogels have gained the primary focus for adherent support in the proliferation of hybridoma cells.

Methods: In this study, a gelatin-immobilized polyhydroxyethylmethacrylate-based cryogel material (disc-shaped, 9 mL bed volume) was synthesized, and a mini-bioreactor set up developed for culturing hybridoma cells to produce mAbs continuously. The hybridoma clone, 1B4A2D5, secreting anti-human serum albumin monoclonal antibodies, was immobilized in the cryogel matrix (2 discs, 18 mL bed volume).

Results: The hybridoma cells were attached to the matrix within 12 h after inoculation, and the cells were in the lag phase for seven days, where they were secreted mAb into the circulation medium. During the initial exponential phase, the glucose consumption, lactic acid production, and mAb production were 3.36 mM/day, 3.67 mM/day, and 55.61 µg/mL/day, respectively. The medium was refreshed whenever the glucose in the media went below 50% of the initial glucose concentration. The cryogenic reactor was run continuously for 25 days, and the mAb concentration reached a maximum on the 17th day at 310.59 µg/mL.

Conclusion: The cumulative amount of mAbs produced in 25 days of running was 246 µg/mL, 7.7 times higher than the mAbs produced from T-flask batch cultivation. These results demonstrate that the developed polyhydroxyethylmethacrylate-based cryogel reactor can be used efficiently for continuous mAb production.

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实施基于大孔聚羟乙基甲基丙烯酸酯冷冻凝胶的微型生物反应器系统，提高单克隆抗体的生产。

背景：单克隆抗体（mAbs）是诊断和治疗癌症、哮喘、中毒、病毒感染等多种疾病的先驱。随着 mAbs 在生物制药行业的市场价值不断增加，使用生物反应器系统进行放大生产可满足大量需求。因此，被称为低温凝胶的一次性多孔基质已成为杂交瘤细胞增殖过程中粘附支持的主要焦点：本研究合成了一种明胶固定化聚羟乙基甲基丙烯酸酯基冷凝胶材料（圆盘状，床层容积为 9 mL），并开发了一种微型生物反应器装置，用于培养杂交瘤细胞以连续生产 mAbs。将分泌抗人血清白蛋白单克隆抗体的杂交瘤克隆 1B4A2D5 固定在低温凝胶基质（2 个圆盘，18 mL 基质容积）中：结果：杂交瘤细胞在接种后 12 小时内附着在基质上，并在 7 天的滞后期将 mAb 分泌到循环培养基中。在最初的指数期，葡萄糖消耗量、乳酸产量和 mAb 产量分别为 3.36 mM/天、3.67 mM/天和 55.61 µg/mL/ 天。每当培养基中的葡萄糖浓度低于初始葡萄糖浓度的 50%时，培养基就会被刷新。低温反应器连续运行了 25 天，mAb 浓度在第 17 天达到最大值，为 310.59 µg/mL：结论：运行 25 天所产生的 mAb 累积量为 246 µg/mL，比 T 型烧瓶批量培养所产生的 mAb 高 7.7 倍。这些结果表明，所开发的基于聚羟乙基甲基丙烯酸酯的冷凝胶反应器可有效用于连续生产 mAb。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in bioscience (Elite edition)

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