Abstract 1532: Improved reproducibility in multiplex immunofluorescence analysis of the tumor microenvironment using a novel quenching solution

Abstract

Abstract Formalin-fixed, paraffin-embedded (FFPE) tissues are commonly used in histopathology because the fixed tissues are stable and easy to store. In the context of immunofluorescence detection, however, endogenous autofluorescence of FFPE tissues can significantly reduce or mask immunofluorescent signals. The autofluorescence of FFPE tissues is caused by a variety of factors, including the presence of endogenous fluorophores, tissue fixation, and processing. While there are several methods that can be used to quench autofluorescence in FFPE tissues, chemical quenchers, which absorb or scatter light, are most frequently used for multiplex IF. Examples of chemical quenchers commonly used in manual multiplex staining include Sudan Black B and TrueBlack; however, these are not chemically compatible for use on automated platforms such as the Leica Biosystems BOND RX. Due to the need for increased throughput and decreased hands-on time, automation has risen in popularity versus manual staining, leading to a need for a versatile quenching solution compatible with automation. Here we demonstrate that NovaPlex Quenching Solution (NPQS), a novel proprietary quenching agent, reduces the background caused by autofluorescence and enhances the signal of the Cell IDx UltraPlex multiplex immunofluorescent (mxIF) assay across tissue types. Qualitative studies showed a decrease in autofluorescent signal in FFPE mouse spleen stained with antibodies against B220/Foxp3/CD3e, suggesting the utility of NPQS in mouse models of cancer and immunity. Similarly, nonspecific background was decreased across FFPE human tissue types, including lung adenocarcinoma stained for CD8/Foxp3/CD3e/CD4 and tonsil stained for CD8/Foxp3/PD-1/CD4. Further statistical studies in FFPE human tonsil tissue stained with CD8/Foxp3/PD-1/CD4 showed there was no significant decrease in dye intensity across all four markers and channels, resulting in a significant increase in signal-to-noise ratio for both CD8 at 490nm and PD-1 at 650nm (p<0.05). These experiments using Cell IDx/LBS UltraPlex mxIF technology demonstrate an effective method to improve the signal-to-noise ratios of fluorophores without reducing signal intensity from any of the target proteins in these parallel multiplex immunofluorescent assays. Citation Format: Matt Levin, Jack Heath, April Schrank-Hacker, Shelby Dunn, Minh-Chau Vu, Imane Hamza, David Schwartz. Improved reproducibility in multiplex immunofluorescence analysis of the tumor microenvironment using a novel quenching solution [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1532.