Multiplexed cytokine profiling identifies diagnostic signatures for latent tuberculosis and reactivation risk stratification

Krista Meserve; Cole A. Chapman; Mingrui Xu; Haowen Zhou; Heather M. Robison; Heather R. Hilgart; Pedro P. Arias-Sanchez; Balaji Pathakumari; Manik R. Reddy; Kale A. Daniel; Thomas M. Cox; Courtney L. Erskine; Paige K. Marty; Mounika Vadiyala; Snigdha Karnakoti; Virginia Van Keulen; Elitza Theel; Tobias Peikert; Colleen Bushell; Michael Welge; Rafael Laniado-Laborin; Ruoqing Zhu; Patricio Escalante; Ryan C. Bailey

doi:10.1371/journal.pone.0316648

Multiplexed cytokine profiling identifies diagnostic signatures for latent tuberculosis and reactivation risk stratification

Krista Meserve, Cole A. Chapman, Mingrui Xu, Haowen Zhou, Heather M. Robison, Heather R. Hilgart, Pedro P. Arias-Sanchez, Balaji Pathakumari, Manik R. Reddy, Kale A. Daniel, Thomas M. Cox, Courtney L. Erskine, Paige K. Marty, Mounika Vadiyala, Snigdha Karnakoti, Virginia Van Keulen, Elitza Theel, Tobias Peikert, Colleen Bushell, Michael WelgeRafael Laniado-Laborin, Ruoqing Zhu, Patricio Escalante, Ryan C. Bailey

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Abstract

Active tuberculosis (TB) is caused by Mycobacterium tuberculosis (Mtb) bacteria and is characterized by multiple phases of infection, leading to difficulty in diagnosing and treating infected individuals. Patients with latent tuberculosis infection (LTBI) can reactivate to the active phase of infection following perturbation of the dynamic bacterial and immunological equilibrium, which can potentially lead to further Mtb transmission. However, current diagnostics often lack specificity for LTBI and do not inform on TB reactivation risk. We hypothesized that immune profiling readily available QuantiFERON-TB Gold Plus (QFT) plasma supernatant samples could improve LTBI diagnostics and infer risk of TB reactivation. We applied a whispering gallery mode, silicon photonic microring resonator biosensor platform to simultaneously quantify thirteen host proteins in QFT-stimulated plasma samples. Using machine learning algorithms, the biomarker concentrations were used to classify patients into relevant clinical bins for LTBI diagnosis or TB reactivation risk based on clinical evaluation at the time of sample collection. We report accuracies of over 90% for stratifying LTBI + from LTBI– patients and accuracies reaching over 80% for classifying LTBI + patients as being at high or low risk of reactivation. Our results suggest a strong reliance on a subset of biomarkers from the multiplexed assay, specifically IP-10 for LTBI classification and IL-10 and IL-2 for TB reactivation risk assessment. Taken together, this work introduces a 45-minute, multiplexed biomarker assay into the current TB diagnostic workflow and provides a single method capable of classifying patients by LTBI status and TB reactivation risk, which has the potential to improve diagnostic evaluations, personalize treatment and management plans, and optimize targeted preventive strategies in Mtb infections.

Original language	English (US)
Article number	e0316648
Journal	PloS one
Volume	20
Issue number	4 April
DOIs	https://doi.org/10.1371/journal.pone.0316648
State	Published - Apr 2025

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Meserve, K., Chapman, C. A., Xu, M., Zhou, H., Robison, H. M., Hilgart, H. R., Arias-Sanchez, P. P., Pathakumari, B., Reddy, M. R., Daniel, K. A., Cox, T. M., Erskine, C. L., Marty, P. K., Vadiyala, M., Karnakoti, S., Van Keulen, V., Theel, E., Peikert, T., Bushell, C., ... Bailey, R. C. (2025). Multiplexed cytokine profiling identifies diagnostic signatures for latent tuberculosis and reactivation risk stratification. PloS one, 20(4 April), Article e0316648. https://doi.org/10.1371/journal.pone.0316648

Meserve, K, Chapman, CA, Xu, M, Zhou, H, Robison, HM, Hilgart, HR, Arias-Sanchez, PP, Pathakumari, B, Reddy, MR, Daniel, KA, Cox, TM, Erskine, CL, Marty, PK, Vadiyala, M, Karnakoti, S, Van Keulen, V, Theel, E, Peikert, T, Bushell, C, Welge, M, Laniado-Laborin, R, Zhu, R, Escalante, P & Bailey, RC 2025, 'Multiplexed cytokine profiling identifies diagnostic signatures for latent tuberculosis and reactivation risk stratification', PloS one, vol. 20, no. 4 April, e0316648. https://doi.org/10.1371/journal.pone.0316648

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title = "Multiplexed cytokine profiling identifies diagnostic signatures for latent tuberculosis and reactivation risk stratification",

abstract = "Active tuberculosis (TB) is caused by Mycobacterium tuberculosis (Mtb) bacteria and is characterized by multiple phases of infection, leading to difficulty in diagnosing and treating infected individuals. Patients with latent tuberculosis infection (LTBI) can reactivate to the active phase of infection following perturbation of the dynamic bacterial and immunological equilibrium, which can potentially lead to further Mtb transmission. However, current diagnostics often lack specificity for LTBI and do not inform on TB reactivation risk. We hypothesized that immune profiling readily available QuantiFERON-TB Gold Plus (QFT) plasma supernatant samples could improve LTBI diagnostics and infer risk of TB reactivation. We applied a whispering gallery mode, silicon photonic microring resonator biosensor platform to simultaneously quantify thirteen host proteins in QFT-stimulated plasma samples. Using machine learning algorithms, the biomarker concentrations were used to classify patients into relevant clinical bins for LTBI diagnosis or TB reactivation risk based on clinical evaluation at the time of sample collection. We report accuracies of over 90% for stratifying LTBI + from LTBI– patients and accuracies reaching over 80% for classifying LTBI + patients as being at high or low risk of reactivation. Our results suggest a strong reliance on a subset of biomarkers from the multiplexed assay, specifically IP-10 for LTBI classification and IL-10 and IL-2 for TB reactivation risk assessment. Taken together, this work introduces a 45-minute, multiplexed biomarker assay into the current TB diagnostic workflow and provides a single method capable of classifying patients by LTBI status and TB reactivation risk, which has the potential to improve diagnostic evaluations, personalize treatment and management plans, and optimize targeted preventive strategies in Mtb infections.",

author = "Krista Meserve and Chapman, {Cole A.} and Mingrui Xu and Haowen Zhou and Robison, {Heather M.} and Hilgart, {Heather R.} and Arias-Sanchez, {Pedro P.} and Balaji Pathakumari and Reddy, {Manik R.} and Daniel, {Kale A.} and Cox, {Thomas M.} and Erskine, {Courtney L.} and Marty, {Paige K.} and Mounika Vadiyala and Snigdha Karnakoti and {Van Keulen}, Virginia and Elitza Theel and Tobias Peikert and Colleen Bushell and Michael Welge and Rafael Laniado-Laborin and Ruoqing Zhu and Patricio Escalante and Bailey, {Ryan C.}",

note = "This work was supported by the National Institute of Allergy and Infectious Diseases at the United States National Institutes of Health [AI141591 to R.C.B. and P.E.]. This paper\u2019s contents are solely the responsibility of the authors and do not necessarily represent the official views of the National Institutes of Health, Mayo Clinic, the University of Michigan at Ann Arbor, or any organization. No other financial or material support for this work was provided to the authors and participants. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.\{"} We are grateful to the study participants and their families, the staff of the Mayo Clinic Institutional Review Board, the Pulmonary Research Unit and the staff and colleagues of the Public Health Olmsted County Tuberculosis Clinic, Mayo Mycobacterial and Bronchiectasis Clinic, the Mayo Clinic Center for Tuberculosis, and the Mayo Infectious Disease Serology Laboratory for their diligent and valuable support. Anusha Vajrala and Antigone Wilson (UM Chemistry) are also acknowledged for their support. We also acknowledge a continued collaboration with Genalyte, Inc. regarding the development of multiplexed immunoassays; however, Genalyte, Inc. had no role in assay performance or data interpretation.",

year = "2025",

month = apr,

doi = "10.1371/journal.pone.0316648",

language = "English (US)",

volume = "20",

journal = "PloS one",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "4 April",

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TY - JOUR

T1 - Multiplexed cytokine profiling identifies diagnostic signatures for latent tuberculosis and reactivation risk stratification

AU - Meserve, Krista

AU - Chapman, Cole A.

AU - Xu, Mingrui

AU - Zhou, Haowen

AU - Robison, Heather M.

AU - Hilgart, Heather R.

AU - Arias-Sanchez, Pedro P.

AU - Pathakumari, Balaji

AU - Reddy, Manik R.

AU - Daniel, Kale A.

AU - Cox, Thomas M.

AU - Erskine, Courtney L.

AU - Marty, Paige K.

AU - Vadiyala, Mounika

AU - Karnakoti, Snigdha

AU - Van Keulen, Virginia

AU - Theel, Elitza

AU - Peikert, Tobias

AU - Bushell, Colleen

AU - Welge, Michael

AU - Laniado-Laborin, Rafael

AU - Zhu, Ruoqing

AU - Escalante, Patricio

AU - Bailey, Ryan C.

N1 - This work was supported by the National Institute of Allergy and Infectious Diseases at the United States National Institutes of Health [AI141591 to R.C.B. and P.E.]. This paper\u2019s contents are solely the responsibility of the authors and do not necessarily represent the official views of the National Institutes of Health, Mayo Clinic, the University of Michigan at Ann Arbor, or any organization. No other financial or material support for this work was provided to the authors and participants. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.\" We are grateful to the study participants and their families, the staff of the Mayo Clinic Institutional Review Board, the Pulmonary Research Unit and the staff and colleagues of the Public Health Olmsted County Tuberculosis Clinic, Mayo Mycobacterial and Bronchiectasis Clinic, the Mayo Clinic Center for Tuberculosis, and the Mayo Infectious Disease Serology Laboratory for their diligent and valuable support. Anusha Vajrala and Antigone Wilson (UM Chemistry) are also acknowledged for their support. We also acknowledge a continued collaboration with Genalyte, Inc. regarding the development of multiplexed immunoassays; however, Genalyte, Inc. had no role in assay performance or data interpretation.

PY - 2025/4

Y1 - 2025/4

N2 - Active tuberculosis (TB) is caused by Mycobacterium tuberculosis (Mtb) bacteria and is characterized by multiple phases of infection, leading to difficulty in diagnosing and treating infected individuals. Patients with latent tuberculosis infection (LTBI) can reactivate to the active phase of infection following perturbation of the dynamic bacterial and immunological equilibrium, which can potentially lead to further Mtb transmission. However, current diagnostics often lack specificity for LTBI and do not inform on TB reactivation risk. We hypothesized that immune profiling readily available QuantiFERON-TB Gold Plus (QFT) plasma supernatant samples could improve LTBI diagnostics and infer risk of TB reactivation. We applied a whispering gallery mode, silicon photonic microring resonator biosensor platform to simultaneously quantify thirteen host proteins in QFT-stimulated plasma samples. Using machine learning algorithms, the biomarker concentrations were used to classify patients into relevant clinical bins for LTBI diagnosis or TB reactivation risk based on clinical evaluation at the time of sample collection. We report accuracies of over 90% for stratifying LTBI + from LTBI– patients and accuracies reaching over 80% for classifying LTBI + patients as being at high or low risk of reactivation. Our results suggest a strong reliance on a subset of biomarkers from the multiplexed assay, specifically IP-10 for LTBI classification and IL-10 and IL-2 for TB reactivation risk assessment. Taken together, this work introduces a 45-minute, multiplexed biomarker assay into the current TB diagnostic workflow and provides a single method capable of classifying patients by LTBI status and TB reactivation risk, which has the potential to improve diagnostic evaluations, personalize treatment and management plans, and optimize targeted preventive strategies in Mtb infections.

AB - Active tuberculosis (TB) is caused by Mycobacterium tuberculosis (Mtb) bacteria and is characterized by multiple phases of infection, leading to difficulty in diagnosing and treating infected individuals. Patients with latent tuberculosis infection (LTBI) can reactivate to the active phase of infection following perturbation of the dynamic bacterial and immunological equilibrium, which can potentially lead to further Mtb transmission. However, current diagnostics often lack specificity for LTBI and do not inform on TB reactivation risk. We hypothesized that immune profiling readily available QuantiFERON-TB Gold Plus (QFT) plasma supernatant samples could improve LTBI diagnostics and infer risk of TB reactivation. We applied a whispering gallery mode, silicon photonic microring resonator biosensor platform to simultaneously quantify thirteen host proteins in QFT-stimulated plasma samples. Using machine learning algorithms, the biomarker concentrations were used to classify patients into relevant clinical bins for LTBI diagnosis or TB reactivation risk based on clinical evaluation at the time of sample collection. We report accuracies of over 90% for stratifying LTBI + from LTBI– patients and accuracies reaching over 80% for classifying LTBI + patients as being at high or low risk of reactivation. Our results suggest a strong reliance on a subset of biomarkers from the multiplexed assay, specifically IP-10 for LTBI classification and IL-10 and IL-2 for TB reactivation risk assessment. Taken together, this work introduces a 45-minute, multiplexed biomarker assay into the current TB diagnostic workflow and provides a single method capable of classifying patients by LTBI status and TB reactivation risk, which has the potential to improve diagnostic evaluations, personalize treatment and management plans, and optimize targeted preventive strategies in Mtb infections.

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JO - PloS one

JF - PloS one

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ER -

Multiplexed cytokine profiling identifies diagnostic signatures for latent tuberculosis and reactivation risk stratification

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