Abstract
Extracellular protein interactions mediated by cell surface receptors are essential for intercellular communication in multicellular organisms. Assays to detect extracellular interactions must account for their often weak binding affinities and also the biochemical challenges in solubilising membrane-embedded receptors in an active form. Methods based on detecting direct binding of soluble recombinant receptor ectodomains have been successful, but genome-scale screening is limited by the usual requirement of producing sufficient amounts of each protein in two different forms, usually a “bait” and “prey”. Here, we show that oligomeric receptor ectodomains coupled to concatenated units of the light-generating Gaussia luciferase enzyme robustly detected low affinity interactions and reduced the amount of protein required by several orders of magnitude compared to other reporter enzymes. Importantly, we discovered that this flash-type luciferase exhibited a reaction-induced inhibition that permitted the use of a single protein preparation as both bait and prey thereby halving the number of expression plasmids and recombinant proteins required for screening. This approach was tested against a benchmarked set of quantified extracellular interactions and shown to detect extremely weak interactions (KDs ≥ μM). This method will facilitate large-scale receptor interaction screening and contribute to the goal of mapping networks of cellular communication.
Highlights
Extracellular protein interactions mediated by cell surface receptors are essential for intercellular communication in multicellular organisms
A very successful approach has been the development of ELISA-style assays that detect direct binding events within large libraries of soluble recombinant receptor e ctodomains[15,16,17], including the AVEXIS (AVidity-based EXtracellular Interaction Screening) method developed by our laboratory[18]
In the original AVEXIS method, the receptor ectodomains were expressed as soluble recombinant proteins containing a C-terminal antigen tag consisting of the rat Cd4 protein, a protein sequence from the cartilage oligomeric matrix protein (COMP) that produced highly-avid pentamers, and the enzyme beta-lactamase[18,28] (Fig. 1a, b)
Summary
Extracellular protein interactions mediated by cell surface receptors are essential for intercellular communication in multicellular organisms. We discovered that this flash-type luciferase exhibited a reaction-induced inhibition that permitted the use of a single protein preparation as both bait and prey thereby halving the number of expression plasmids and recombinant proteins required for screening This approach was tested against a benchmarked set of quantified extracellular interactions and shown to detect extremely weak interactions (KDs ≥ μM). A very successful approach has been the development of ELISA-style assays that detect direct binding events within large libraries of soluble recombinant receptor e ctodomains[15,16,17], including the AVEXIS (AVidity-based EXtracellular Interaction Screening) method developed by our laboratory[18]. Significantly reducing the amount of protein required for each binding test would remove another limitation to increasing the scale of the screens
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