Optimization of a thermochemical antibody stripping method for enhanced tyramide signal amplification-based opal multiplex immunohistochemistry in fragile tissues

Optimization of a thermochemical antibody stripping method for enhanced tyramide signal amplification-based opal multiplex immunohistochemistry in fragile tissues

Abstract Objective Tyramide signal amplification (TSA)-induced Opal multiplex immunohistochemistry (mIHC) represents an advanced methodology for the in-situ detection of multiple target proteins. A critical aspect of this technique is the complete removal of primary and secondary antibodies to preve...

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Bibliographic Details
Main Authors: Xiaotong Yu, Yan Song, Li Chen, Lixiang Xue, Jianling Yang, Chen Huang
Format: Article
Language:English
Published: BMC 2025-05-01
Series:BMC Research Notes
Subjects:
Multiplexed immunohistochemistry
Antibody stripping
Tyramide signal amplification
Hybridization oven-based antibody removing (HO-AR)
Online Access:https://doi.org/10.1186/s13104-025-07301-4
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Summary:Abstract Objective Tyramide signal amplification (TSA)-induced Opal multiplex immunohistochemistry (mIHC) represents an advanced methodology for the in-situ detection of multiple target proteins. A critical aspect of this technique is the complete removal of primary and secondary antibodies to prevent signal cross-reaction. However, current antibody stripping methods exhibit several limitations, particularly when applied to tissues prone to delamination. Microwave treatment may compromise tissue integrity, additionally, the effectiveness of chemical reagents can be sensitive to variations in temperature, pH, and concentration. This study aims to optimize antibody stripping strategies specifically for use in Opal mIHC protocols, addressing limitations of current methods which particularly for tissues prone to delamination. Results Evaluation of microwave oven-assisted antibody removal (MO-AR), chemical reagent-based antibody removal (CR-AR), and hybridization oven-based stripping at 50 °C (HO-AR-50) and 98 °C (HO-AR-98) revealed that MO-AR and HO-AR-98 most effectively removed primary and secondary antibodies. In five-color mIHC on mouse kidney sections, both methods yielded strong target-specific signals. However, in brain tissue sections prone to delamination, HO-AR-98 better preserved tissue integrity compared to MO-AR and supported effective multi-target staining. These findings establish a novel thermochemical stripping method compatible with TSA-based Opal mIHC, enhancing its utility in research and clinical diagnostics.
ISSN:1756-0500

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