在毕赤酵母中开发用于人伴侣蛋白BiP的高效表达系统:生产优化与功能验证
Development of an efficient expression system for human chaperone BiP in Pichia pastoris: production optimization and functional validation.
作者信息
Žitkus Eimantas, Čiplys Evaldas, Žiaunys Mantas, Sakalauskas Andrius, Slibinskas Rimantas
机构信息
Institute of Biotechnology, Life Sciences Center, Vilnius University, Saulėtekio 7, Vilnius, LT-10257, Lithuania.
Department of Eukaryote Gene Engineering, Institute of Biotechnology, Life Sciences Center, Vilnius University, Saulėtekio 7, Vilnius, LT-10257, Lithuania.
出版信息
Microb Cell Fact. 2025 Mar 18;24(1):66. doi: 10.1186/s12934-025-02679-z.
BACKGROUND
Human BiP, or GRP78, is a molecular chaperone mainly found in the endoplasmic reticulum (ER). However, a growing amount of data also associates BiP with many distinct functions in subcellular locations outside the ER. Notably, several diseases have been BiP-related, so the protein could potentially be used for therapeutic purposes. This study aimed to optimize a high cell-density fermentation process for the production of recombinant human BiP (rhBiP) in yeast Pichia pastoris in a mineral medium.
RESULTS
P. pastoris cells successfully synthesized and secreted full-length rhBiP protein in a complex growth medium. However, secreted rhBiP titer was considerably lower when P. pastoris was cultivated in a defined mineral basal salt medium (BSM). During rhBiP synthesis optimization in shake flasks, it was found that the addition of reducing compounds (DTT or TCEP) to mineral BSM medium is essential for high-yield rhBiP production. Furthermore, rhBiP secretion in the BSM medium was significantly increased by feeding yeast with an additional carbon source. The addition of 2 mM DTT and 0.5-1.0% of glucose/glycerol to the BSM medium increased rhBiP titer ~ 8 times in the shake flasks. Glucose/methanol mixture feeding with added 2 mM DTT before induction was applied in high-density P. pastoris fermentation in bioreactor. Oxygen-limited fermentation strategy allowed to achieve ~ 70 mg/L rhBiP in BSM medium. Hydrophobic interaction and anion exchange chromatography were used for rhBiP protein purification. Approximately 45 mg rhBiP was purified from 1 L growth medium, and according to SDS-PAGE, ~ 90% purity was reached. According to data presented in this study, rhBiP protein derived from P. pastoris is a full-length polypeptide that has ATPase activity. In addition, we show that P. pastoris-derived rhBiP effectively inhibits neurodegenerative disease-related amyloid beta 1-42 (Aβ) peptide and alpha-synuclein (α-Syn) protein aggregation in vitro.
CONCLUSIONS
A scalable bioprocess to produce rhBiP in P. pastoris was developed, providing a high yield of biologically active protein in a chemically defined mineral medium. It opens a source of rhBiP to accelerate further therapeutic applications of this important protein.
背景
人源结合免疫球蛋白蛋白(BiP),即葡萄糖调节蛋白78(GRP78),是一种主要在内质网(ER)中发现的分子伴侣。然而,越来越多的数据也将BiP与内质网以外的亚细胞位置的许多不同功能联系起来。值得注意的是,有几种疾病与BiP相关,因此该蛋白可能具有治疗用途。本研究旨在优化在矿物培养基中利用毕赤酵母生产重组人BiP(rhBiP)的高细胞密度发酵工艺。
结果
毕赤酵母细胞在复合生长培养基中成功合成并分泌了全长rhBiP蛋白。然而,当毕赤酵母在限定的矿物基础盐培养基(BSM)中培养时,rhBiP的分泌滴度显著降低。在摇瓶中优化rhBiP合成过程中,发现向矿物BSM培养基中添加还原化合物(二硫苏糖醇(DTT)或三(2-羧乙基)膦(TCEP))对于高产rhBiP至关重要。此外,通过向酵母补充额外的碳源,显著提高了BSM培养基中rhBiP的分泌量。向BSM培养基中添加2 mM DTT和0.5 - 1.0%的葡萄糖/甘油,使摇瓶中的rhBiP滴度提高了约8倍。在生物反应器中进行毕赤酵母高密度发酵时,采用在诱导前添加2 mM DTT的葡萄糖/甲醇混合补料策略。限氧发酵策略使BSM培养基中的rhBiP产量达到约70 mg/L。采用疏水相互作用色谱和阴离子交换色谱对rhBiP蛋白进行纯化。从1 L生长培养基中纯化得到约45 mg rhBiP,根据十二烷基硫酸钠 - 聚丙烯酰胺凝胶电泳(SDS - PAGE)分析,纯度达到约90%。根据本研究提供的数据,毕赤酵母来源的rhBiP蛋白是一种具有ATP酶活性的全长多肽。此外,我们还表明,毕赤酵母来源的rhBiP在体外能有效抑制神经退行性疾病相关的淀粉样β蛋白1 - 42(Aβ)肽和α - 突触核蛋白(α - Syn)蛋白的聚集。
结论
开发了一种在毕赤酵母中生产rhBiP的可扩展生物工艺,可在化学成分限定的矿物培养基中高产具有生物活性的蛋白。这为加速这种重要蛋白的进一步治疗应用开辟了rhBiP的来源。
Zotero 插件