Komarnytsky Slavko, Borisjuk Nikolai, Yakoby Nir, Garvey Alison, Raskin Ilya
Biotech Center, Rutgers University, New Brunswick, New Jersey 08901, USA.
Plant Physiol. 2006 Aug;141(4):1185-93. doi: 10.1104/pp.105.074419.
A plant-based system for continuous production of monoclonal antibodies based on the secretion of immunoglobulin complexes from plant roots into a hydroponic medium (rhizosecretion) was engineered to produce high levels of single-chain and full-size immunoglobulins. Replacing the original signal peptides of monoclonal antibodies with a plant-derived calreticulin signal increased the levels of antibody yield 2-fold. Cosecretion of Bowman-Birk Ser protease inhibitor reduced degradation of the immunoglobulin complexes in the default secretion pathway and further increased antibody production to 36.4 microg/g root dry weight per day for single-chain IgG1 and 21.8 microg/g root dry weight per day for full-size IgG4 antibodies. These results suggest that constitutive cosecretion of a protease inhibitor combined with the use of the plant signal peptide and the antibiotic marker-free transformation system offers a novel strategy to achieve high yields of complex therapeutic proteins secreted from plant roots.
构建了一种基于植物根系向水培介质分泌免疫球蛋白复合物(根分泌)的连续生产单克隆抗体的植物系统,以高产单链和全长免疫球蛋白。用植物来源的钙网蛋白信号肽取代单克隆抗体的原始信号肽,使抗体产量提高了2倍。共分泌鲍曼-伯克丝氨酸蛋白酶抑制剂减少了默认分泌途径中免疫球蛋白复合物的降解,并进一步将单链IgG1抗体的产量提高到每天36.4微克/克根干重,全长IgG4抗体的产量提高到每天21.8微克/克根干重。这些结果表明,蛋白酶抑制剂的组成型共分泌与植物信号肽的使用以及无抗生素标记转化系统相结合,为实现从植物根系分泌的复杂治疗性蛋白质的高产提供了一种新策略。