AI Article Synopsis
- One bead one compound (OBOC) libraries are utilized to discover ligands for antibodies in serum samples by using fluorescently labeled secondary antibodies for identification.
- The technique allows for the differentiation of antibodies and ligands from two different serum populations, showcasing the potential of this method in biomarker discovery.
- Analytical sensitivity is critical, with results indicating that antibodies must be present at concentrations of 10-50 nM to be effectively extracted, while high-affinity antigens can detect antibodies at much lower levels.
Article Abstract
One bead one compound (OBOC) libraries can be screened against serum samples to identify ligands to antibodies in this mixture. In this protocol, hit beads are identified by staining with a fluorescent labeled secondary antibody. When screens are conducted against two different sets of serum, antibodies, and ligands to them, can be discovered that distinguish the two populations. The application of DNA-encoding technology to OBOC libraries has allowed the use of 10 µm beads for library preparation and screening, which pass through a standard flow cytometer, allowing the fluorescent hit beads to be separated from beads displaying non-ligands easily. An important issue in using this approach for the discovery of antibody biomarkers is its analytical sensitivity. In other words, how abundant must an IgG be to allow it to be pulled out of serum in an unbiased screen using a flow cytometer? We report here a model study in which monoclonal antibodies with known ligands of varying affinities are doped into serum. We find that for antibody ligands typical of what one isolates from an unbiased combinatorial library, the target antibody must be present at 10-50 nM. True antigens, which bind with significantly higher affinity, can detect much less abundant serum antibodies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6064678 | PMC |
| http://dx.doi.org/10.1016/j.bmcl.2018.01.033 | DOI Listing |
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