A Workflow to Achieve Saturation of Fluorophore‐Conjugated Monoclonal Antibodies for Robust Comparison of Biomarker Expression

• Published in: Cytometry. Part A Vol. 107; no. 6; pp. 378 - 389
• Main Authors: Smith, Natalie, McGuire, Helen, Fazekas de St Groth, Barbara
• Format: Journal Article
• Language: English
• Published: Hoboken, USA John Wiley & Sons, Inc 01.06.2025; Wiley Subscription Services, Inc
• Subjects: Animals; Antibodies, Monoclonal - chemistry; Antibodies, Monoclonal - immunology; antibody saturation; Biomarkers; Biomarkers - analysis; CD3 antigen; CD3 Complex - immunology; flow cytometry; Flow Cytometry - methods; Fluorescence; Fluorescent Dyes - chemistry; Humans; Immunoglobulin G; Immunoglobulin G - immunology; Mice; Monoclonal antibodies; Reagents; Robustness; Saturation; Staining; Staining and Labeling - methods; Titration; Workflow; titration; antibody saturation; flow cytometry
• ISSN: 1552-4922; 1552-4930; 1552-4930
• DOI: 10.1002/cyto.a.24938

ABSTRACT Antibody titration is an important step in every cytometric workflow, with the goal being to determine antibody concentrations that ensure highly reproducible results. When aiming to compare antigen expression between samples using mean or median fluorescence intensity (MFI), reagents should be used at a saturating concentration so that unavoidable variations in staining conditions do not affect the fluorescence signal. The recommended concentrations of commercially available fluorophore‐labeled monoclonal antibodies (mAbs) may not achieve plateau staining, and their saturating concentration may be too high to be experimentally useful. To address these common concerns, we present a novel method to achieve saturation of fluorophore‐conjugated mAbs, by ‘spiking‐in’ unlabelled antibody of the same clone. Here, we demonstrate the application of this workflow to human anti‐CD3 (clone OKT3, mouse IgG2a) and anti‐TCRαβ (clone IP26, mouse IgG1), two mAbs that do not achieve saturation at 2‐fold above their commercially recommended concentrations. First, the saturating concentration of unlabelled (purified) OKT3 and IP26 was determined by detection with a fluorophore‐labeled anti‐mouse IgG (H + L) secondary antibody. Titration curves of unlabelled and labeled mAbs were compared for each clone to determine whether labeling had resulted in any loss in binding activity. Unlabelled antibody was then ‘spiked’ into the labeled antibody at varying ratios, and those that achieved saturation while maintaining an adequate fluorescence signal were identified. We demonstrate that antibody saturation can be achieved with an optimized mixture of labeled and unlabelled antibody, while maintaining a clear signal from the fluorophore. While this workflow has only been applied to OKT3 and IP26, it has potential applicability for any antibody clone for which both labeled and unlabelled preparations are available. This method has significance for robust comparison of biomarker expression when fluorophore labeled reagents do not reach saturation under standard staining conditions.