Improvement of the production of GFPuv-beta1,3-N-acetylglucosaminyltransferase 2 fusion protein using a molecular chaperone-assisted insect-cell-based expression system.

A stable Tn-5B1-4 insect cell line co-expressing the recombinant GFPuv-beta1,3-N-acetylglucosaminyltransferase 2 (GFPuv-beta3GnT2) protein fused to a melittin signal sequence with a lectin-like molecular chaperone, human calnexin (hCNX) or human calreticulin (hCRT), was constructed. The expression of either of these molecular chaperones is under the control of a weak promoter, OpMNPV IE2, while that of GFPuv-beta3GnT2 is under the control of Bombyx mori actin promoter. This co-expression system was compared between two different insect cell-baculovirus expression systems: (1) co-infection of the recombinant baculovirus containing a molecular chaperone (AcNPV-hCNX or -hCRT) with a recombinant baculovirus containing GFPuv-beta3GnT2 fused with the melittin signal sequence (AcNPV-me-GGT); (2) infection of AcNPV-me-GGT to a stably expressing cell line for either hCNX or hCRT. In the co-infection system, the intracellular GFPuv-beta3GnT2 expression level was low because of the improved secretion level ratio of the fusion protein, due to the chaperone expression. In the case of infection to the stably expressing cell line for a chaperone, the extracellular GFPuv-beta3GnT2 expression level was similar to the intracellular expression level. This suggests that the amount of expressed chaperone is not sufficient to process beta3GnT2. On the other hand, the co-expression system produced an extracellular beta3GnT activity of 22-23 mU/mL, which was approximately 3.5- and 11-fold higher than those of the stable expression of the fusion gene without the chaperone and the conventional BES with the addition of protease, respectively. The secretion level ratio of the fusion protein of this system increased to 82%, which was approximately 1.5-fold that of any other expression system investigated thus far. These results indicate that the ratio of the expression level of the target gene to that of the chaperone gene may be an important factor in maximizing the production of a target protein. The molecular-chaperone-assisted expression system using a stably transformed insect cell line offers promising prospects for the efficient production of recombinant secretory proteins in insect cells.