Targeting of Proteins Derived from Self‐Processing Polyproteins Containing Multiple Signal Sequences

Abstract

The 18aa 2A self-cleaving oligopeptide from foot-and-mouth disease virus can be used for co-expression of multiple, discrete proteins from a single ORF. 2A mediates a co-translational cleavage at its own C-terminus and is proposed to manipulate the ribosome into skipping the synthesis of a specific peptide bond (producing a discontinuity in the peptide backbone), rather than being involved in proteolysis. To explore the utility of the system to target discrete processing products, self-processing polyproteins comprising fluorescent proteins flanking 2A were constructed, permutating both the type of signal sequence and the location within the polyprotein. A polyprotein comprising a protein bearing an N-terminal signal sequence, 2A, then a protein lacking any signal sequence, was constructed. Interestingly, both proteins were translocated into the endoplasmic reticulum. Despite the discontinuity in the peptide backbone, the mammalian ribosome:translocon complex did not disassemble – the second protein (lacking any signal) ‘slipstreamed’ through the translocon formed by the first (signal-bearing) protein. These polyprotein systems provide a novel method of targeting proteins to different subcellular sites by transfection with a plasmid encoding a single ORF. The inclusion of a fluorescent reporter enables visualisation of expression levels, whilst inclusion of a selectable marker enables stable cell-lines to be established rapidly.