Construction and evaluation of novel fusion proteins for targeted delivery of micro particles to cellulose surfaces

Abstract

The use of IgG antibodies and fragments has been limited to specific sectors of the biotechnology industry due to the high cost of producing large batches of product necessary for alternative applications. A novel class of Camelid antibodies, known as V(HH) offer a more economical opportunity to meet a wider application in industry. In this study, we report the evaluation of four llama V(HH)-cellulose binding domain fusion proteins displaying varying formats of V(HH) and CBD domains. Proteins were characterized in a targeted particle delivery system as a method of delivering agents such as perfume to laundry in the wash cycle. Fusion proteins were shown to be stable at high pH and in the presence of a detergent base. They were also shown to bind effectively to both the designated antigen, the azo-dye reactive-red 6 (either conjugated to BSA or attached to coacervate microparticles), and cellulose. Binding strength differences were observed between the different fusion protein formats using surface plasmon resonance. The effect of key laundry ingredients was also studied. Combining the fusion proteins and particles into a delivery and deposition study generated clear microscopy evidence for bifunctionality. Confirmation of this was validated by GC-MS analysis of retained fragrance. This research, reporting the construction and characterization of a variety of fusion proteins, illustrates that the single multidomain fusion protein route offers a new technology for successful targeted delivery of encapsulated benefit agents. Furthermore, the potential to modify or select for proteins to recognize a wide range of surfaces is also possible.