Ho Pooi Leng, Chua Yu Feng, Quek Jun Ping, Ng Say Kong, Wong Fong Tian, Ow Dave Siak-Wei
Bioprocessing Technology Institute (BTI), Agency for Science, Technology and Research (A*STAR), Singapore, Singapore.
Institute of Molecular and Cell Biology (IMCB), Agency for Science, Technology and Research (A*STAR), Singapore, Singapore.
Front Bioeng Biotechnol. 2025 Jul 24;13:1560426. doi: 10.3389/fbioe.2025.1560426. eCollection 2025.
Cultivated meat, produced by in vitro cell culture in bioreactors, offers a sustainable alternative to traditional meat sources. A significant challenge in its production is the high cost of mitogenic growth factors, which are essential supplements in serum-free media for cultivating meat cells. One strategy to reduce cost involves minimizing purification cost by using a food-grade host to secrete growth factors. In this study, we investigate the production of recombinant FGF2 (Fibroblast Growth Factor 2) through secretion in , a Generally Recognized As Safe (GRAS) organism.
To enhance the secretion in , we employed the USP45 secretory peptide and secretion propeptide (PP1) in the design of our recombinant FGF2-G3. Optimization was performed on various culture parameters that influence protein expression, including media formulation, nisin concentration, induction timing, temperature, and culture duration. Secreted FGF2-G3 produced under optimized conditions was purified and tested for bioactivity on Anguilla japonica pre-adipocytic cells, Aj1C-2x.
We have generated a recombinant strain and an optimal expression strategy to enable the production of secreted bioactive growth factors. Our results demonstrate that this system can produce FGF2 which were able to promote the proliferation of fish Anguilla japonica pre-adipocytic cells. Despite minimal purification beyond affinity purification and buffer exchange, we were able to obtain comparable specific activity to commercial FGF2. The final yields can be derived at 1.97 mg/L and through simple protein purification and buffer exchange. Finally, this study highlights the potential use of secretion as an endotoxin-free alternative, compared to , for production of growth factors for use in cultivated meat production.
通过生物反应器中的体外细胞培养生产的培养肉,为传统肉类来源提供了一种可持续的替代方案。其生产中的一个重大挑战是有丝分裂生长因子的高成本,这些因子是无血清培养基中培养肉细胞的必需补充剂。降低成本的一种策略是通过使用食品级宿主分泌生长因子来最小化纯化成本。在本研究中,我们研究了通过在一种一般认为安全(GRAS)的生物体中分泌来生产重组成纤维细胞生长因子2(FGF2)。
为了增强在该生物体中的分泌,我们在重组FGF2 - G3的设计中采用了USP45分泌肽和分泌前肽(PP1)。对影响蛋白质表达的各种培养参数进行了优化,包括培养基配方、乳链菌肽浓度、诱导时机、温度和培养持续时间。在优化条件下产生的分泌型FGF2 - G3进行了纯化,并在日本鳗鲡前脂肪细胞Aj1C - 2x上测试了其生物活性。
我们构建了一种重组菌株和一种优化的表达策略,以实现分泌型生物活性生长因子的生产。我们的结果表明,该系统能够产生能够促进日本鳗鲡前脂肪细胞增殖的FGF2。尽管除了亲和纯化和缓冲液交换之外几乎没有进行其他纯化,但我们能够获得与商业FGF2相当的比活性。最终产量可达1.97 mg/L,通过简单的蛋白质纯化和缓冲液交换即可实现。最后,本研究强调了与其他方法相比,利用该生物体分泌作为无内毒素的替代方法来生产用于培养肉生产的生长因子的潜力。
