Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions

Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions

Abstract The spatial organization of T cell receptors (TCRs) correlates with membrane-associated signal amplification, dispersion, and regulation during T cell activation. Despite its potential clinical importance, quantitative analysis of the spatial arrangement of TCRs from standard fluorescence i...

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Main Authors: Badeia Saed, Rangika Munaweera, Jesse Anderson, William D. O’Neill, Ying S. Hu
Format: Article
Language:English
Published: Nature Publishing Group 2021-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-94730-3
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spelling doaj-c4254c84a17c45ca8a001e6dec68bfff2021-08-01T11:24:32ZengNature Publishing GroupScientific Reports2045-23222021-07-0111111010.1038/s41598-021-94730-3Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditionsBadeia Saed0Rangika Munaweera1Jesse Anderson2William D. O’Neill3Ying S. Hu4Department of Chemistry, College of Liberal Arts and Sciences, University of Illinois at ChicagoDepartment of Chemistry, College of Liberal Arts and Sciences, University of Illinois at ChicagoDepartment of Chemical Engineering, University of Illinois at ChicagoDepartment of Bioengineering, Colleges of Engineering and Medicine, University of Illinois at ChicagoDepartment of Chemistry, College of Liberal Arts and Sciences, University of Illinois at ChicagoAbstract The spatial organization of T cell receptors (TCRs) correlates with membrane-associated signal amplification, dispersion, and regulation during T cell activation. Despite its potential clinical importance, quantitative analysis of the spatial arrangement of TCRs from standard fluorescence images remains difficult. Here, we report Statistical Classification Analyses of Membrane Protein Images or SCAMPI as a technique capable of analyzing the spatial arrangement of TCRs on the plasma membrane of T cells. We leveraged medical image analysis techniques that utilize pixel-based values. We transformed grayscale pixel values from fluorescence images of TCRs into estimated model parameters of partial differential equations. The estimated model parameters enabled an accurate classification using linear discrimination techniques, including Fisher Linear Discriminant (FLD) and Logistic Regression (LR). In a proof-of-principle study, we modeled and discriminated images of fluorescently tagged TCRs from Jurkat T cells on uncoated cover glass surfaces (Null) or coated cover glass surfaces with either positively charged poly-L-lysine (PLL) or TCR cross-linking anti-CD3 antibodies (OKT3). Using 80 training images and 20 test images per class, our statistical technique achieved 85% discrimination accuracy for both OKT3 versus PLL and OKT3 versus Null conditions. The run time of image data download, model construction, and image discrimination was 21.89 s on a laptop computer, comprised of 20.43 s for image data download, 1.30 s on the FLD-SCAMPI analysis, and 0.16 s on the LR-SCAMPI analysis. SCAMPI represents an alternative approach to morphology-based qualifications for discriminating complex patterns of membrane proteins conditioned on a small sample size and fast runtime. The technique paves pathways to characterize various physiological and pathological conditions using the spatial organization of TCRs from patient T cells.https://doi.org/10.1038/s41598-021-94730-3
collection DOAJ
language English
format Article
sources DOAJ
author Badeia Saed
Rangika Munaweera
Jesse Anderson
William D. O’Neill
Ying S. Hu
spellingShingle Badeia Saed
Rangika Munaweera
Jesse Anderson
William D. O’Neill
Ying S. Hu
Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions
Scientific Reports
author_facet Badeia Saed
Rangika Munaweera
Jesse Anderson
William D. O’Neill
Ying S. Hu
author_sort Badeia Saed
title Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions
title_short Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions
title_full Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions
title_fullStr Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions
title_full_unstemmed Rapid statistical discrimination of fluorescence images of T cell receptors on immobilizing surfaces with different coating conditions
title_sort rapid statistical discrimination of fluorescence images of t cell receptors on immobilizing surfaces with different coating conditions
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-07-01
description Abstract The spatial organization of T cell receptors (TCRs) correlates with membrane-associated signal amplification, dispersion, and regulation during T cell activation. Despite its potential clinical importance, quantitative analysis of the spatial arrangement of TCRs from standard fluorescence images remains difficult. Here, we report Statistical Classification Analyses of Membrane Protein Images or SCAMPI as a technique capable of analyzing the spatial arrangement of TCRs on the plasma membrane of T cells. We leveraged medical image analysis techniques that utilize pixel-based values. We transformed grayscale pixel values from fluorescence images of TCRs into estimated model parameters of partial differential equations. The estimated model parameters enabled an accurate classification using linear discrimination techniques, including Fisher Linear Discriminant (FLD) and Logistic Regression (LR). In a proof-of-principle study, we modeled and discriminated images of fluorescently tagged TCRs from Jurkat T cells on uncoated cover glass surfaces (Null) or coated cover glass surfaces with either positively charged poly-L-lysine (PLL) or TCR cross-linking anti-CD3 antibodies (OKT3). Using 80 training images and 20 test images per class, our statistical technique achieved 85% discrimination accuracy for both OKT3 versus PLL and OKT3 versus Null conditions. The run time of image data download, model construction, and image discrimination was 21.89 s on a laptop computer, comprised of 20.43 s for image data download, 1.30 s on the FLD-SCAMPI analysis, and 0.16 s on the LR-SCAMPI analysis. SCAMPI represents an alternative approach to morphology-based qualifications for discriminating complex patterns of membrane proteins conditioned on a small sample size and fast runtime. The technique paves pathways to characterize various physiological and pathological conditions using the spatial organization of TCRs from patient T cells.
url https://doi.org/10.1038/s41598-021-94730-3
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AT rangikamunaweera rapidstatisticaldiscriminationoffluorescenceimagesoftcellreceptorsonimmobilizingsurfaceswithdifferentcoatingconditions
AT jesseanderson rapidstatisticaldiscriminationoffluorescenceimagesoftcellreceptorsonimmobilizingsurfaceswithdifferentcoatingconditions
AT williamdoneill rapidstatisticaldiscriminationoffluorescenceimagesoftcellreceptorsonimmobilizingsurfaceswithdifferentcoatingconditions
AT yingshu rapidstatisticaldiscriminationoffluorescenceimagesoftcellreceptorsonimmobilizingsurfaceswithdifferentcoatingconditions
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