Abstract

Plant genetic engineering led to the production of plant-derived mAb (mAb P ), which provides a safe and economically feasible alternative to the current methods of antibody production in animal systems. In this study, the heavy and light chains of human anti-rabies mAb were expressed and assembled in planta under the control of two strong constitutive promoters. An alfalfa mosaic virus untranslated leader sequence and Lys-Asp-Glu-Leu (KDEL) endoplasmic reticulum retention signal were linked at the N and C terminus of the heavy chain, respectively. mAb P was as effective at neutralizing the activity of the rabies virus as the mammalian-derived antibody (mAb M ) or human rabies Ig (HRIG). The mAb P contained mainly oligomannose type N-glycans (90%) and had no potentially antigenic α(1,3)-linked fucose residues. mAb P had a shorter half-life than mAb M . The mAb P was as efficient as HRIG for post-exposure prophylaxis against rabies virus in hamsters, indicating that differences in N-glycosylation do not affect the efficacy of the antibody in this model.