A method for facile production of variable lymphocyte receptors using SHuffle Escherichia coli.

Variable lymphocyte receptors (VLRs) are the antigen receptors of jawless vertebrates such as lamprey. VLRs are of growing biotechnological interest for their ability to bind certain antigenic targets with higher affinity than traditional immunoglobulins. However, VLRs are disulfide-bonded proteins that are often challenging to produce requiring genetic modifications, fusion partners, non-scalable host cell lines or inclusion body formation and refolding. As a potential VLR expression platform option, the SHuffle Escherichia coli strain has been genetically altered to allow cytoplasmic disulfide bond formation by mutations to thioredoxin reductase (trxB) and glutathione reductase (gor) to create an oxidative cytoplasm. Furthermore, the SHuffle strain expresses disulfide bond isomerase DsbC in the cytoplasm to promote correct disulfide bond pairing. Here, we demonstrate that the SHuffle strain can produce high yield VLRs with titers ranging from 2 to 32 mg of VLR per liter of SHuffle culture. Three VLRs (P1C10, RBC36, VLRA.R2.1) were expressed in SHuffle E. coli and the products were compared directly to those generated using the Rosetta E. coli strain. All VLRs were validated for correct sequence, purity, and activity. For all VLRs, SHuffle E. coli produced 2-9 times more soluble VLRs than Rosetta E. coli. Furthermore, the soluble protein fraction was 2-6 times greater in SHuffle E. coli than Rosetta E. coli for all VLRs. Overall, these results suggest that the E. coli SHuffle strain is a convenient and effective expression system for producing large amounts of VLRs.