Science Forum: Antibody characterization is critical to enhance reproducibility in biomedical research

  1. Richard A Kahn  Is a corresponding author
  2. Harvinder Virk
  3. Carl Laflamme
  4. Douglas W Houston
  5. Nicole K Polinski
  6. Rob Meijers
  7. Allan I Levey
  8. Clifford B Saper
  9. Timothy M Errington
  10. Rachel E Turn
  11. Anita Bandrowski
  12. James S Trimmer
  13. Meghan Rego
  14. Leonard P Freedman
  15. Fortunato Ferrara
  16. Andrew RM Bradbury
  17. Hannah Cable
  18. Skye Longworth
  1. Department of Biochemistry, Emory University School of Medicine, United States
  2. Department of Respiratory Sciences, University of Leicester, United Kingdom
  3. Department of Neurology and Neurosurgery, Structural Genomics Consortium, The Montreal Neurological Institute, McGill University, Canada
  4. The Development Studies Hybridoma Databank, University of Iowa, United States
  5. The Michael J Fox Foundation for Parkinson’s Research, United States
  6. Institute for Protein Innovation, United States
  7. Department of Neurology, Emory University School of Medicine, United States
  8. Department of Neurology and Program in Neuroscience, Harvard Medical School and Beth Israel Deaconess Medical Center, United States
  9. Center for Open Science, United States
  10. Department of Microbiology and Immunology, Stanford University School of Medicine, United States
  11. Department of Neuroscience, University of California, San Diego, United States
  12. Department of Physiology and Membrane Biology, University of California, Davis School of Medicine, United States
  13. Addgene, United States
  14. Frederick National Laboratory for Cancer Research, United States
  15. Specifica, a Q2 company, United States
  16. Department of Research and Development, Abcam, United Kingdom
  17. CiteAb, United Kingdom
1 figure and 1 table

Figures

Key projects related to antibody characterization.

Timeline showing when the projects discussed in this article were started: the Protein Capture Reagents Program and the Affinomics project were funded for five years (as indicated by dashed lines). CPTAC: Clinical Proteomic Tumor Analysis Consortium; FASEB: Federation of American Societies of Experimental Biology; HUPO: Human Proteome Organization; OGA: Only Good Antibodies; RRID: Research Resource Identifier; YCharOS: Antibody Characterization through Open Science.

Tables

Table 1
The ‘five pillars’ of antibody characterization.

In 2016 an ad hoc International Working Group for Antibody Validation introduced the five pillars of antibody validation/characterization: (i) genetic strategies; (ii) orthogonal strategies; (iii) (multiple) independent antibody strategies; (iv) recombinant strategies (originally called “expression of tagged proteins”); (v) capture MS strategies (Uhlen et al., 2016). In this table each pillar/strategy (left column) is followed by a brief description of the pillar/strategy, an indication of specificity, example applications for use, and pitfalls. Adapted from Waldron, 2022 and used with permission.

Pillar/strategyDescriptionSpecificityExample applicationsPitfalls
iGenetic strategiesKnock-out/ knock-down target geneHighWB, IHC, IF, ELISA, IPRequires a genetically tractable system and awareness of potential confounders (such as alternative isoforms)
iiOrthogonal strategiesCompare results from Ab-dependent and Ab-independent experimentsVariesWB, IHC, IF, ELISARequires variable expression of the target and cannot entirely rule out non-specific binding to similar proteins
iiiIndependent antibody strategiesCompare results from experiments using unique Abs to the same targetMediumWB, IHC, IF, ELISA, IPRequires the purchase of multiple Abs and knowledge of their epitopes
ivRecombinant strategiesExperimentally increase target protein expressionMediumWB, IHC, IFOverexpression of exogenous protein can lead to overconfidence in the specificity of the Ab
vCapture MS strategiesUse MS to identify protein captured by AbLowIPRequires access to MS and it can be challenging to distinguish between Ab binding target vs protein bound to target
  1. Ab: antibody; ELISA: enzyme-linked immunosorbent assay; IF: immunofluorescence; IHC: immunohistochemistry; IP: immunoprecipitation; MS: mass spectrometry; WB: Western blotting.

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  1. Richard A Kahn
  2. Harvinder Virk
  3. Carl Laflamme
  4. Douglas W Houston
  5. Nicole K Polinski
  6. Rob Meijers
  7. Allan I Levey
  8. Clifford B Saper
  9. Timothy M Errington
  10. Rachel E Turn
  11. Anita Bandrowski
  12. James S Trimmer
  13. Meghan Rego
  14. Leonard P Freedman
  15. Fortunato Ferrara
  16. Andrew RM Bradbury
  17. Hannah Cable
  18. Skye Longworth
(2024)
Science Forum: Antibody characterization is critical to enhance reproducibility in biomedical research
eLife 13:e100211.
https://doi.org/10.7554/eLife.100211