Perspectives for systems biology in the management of tuberculosis

I. Kontsevaya; C. Lange; P. Comella-Del-Barrio; C. Coarfa; A.R. DiNardo; S.H. Gillespie; M. Hauptmann; C. Leschczyk; A.M. Mandalakas; A. Martinecz; M. Merker; S. Niemann; M. Reimann; O. Rzhepishevska; U.E. Schaible; K.M. Scheu; E. Schurr; P. Abel Zur Wiesch; J. Heyckendorf

doi:10.1183/16000617.0377-2020

Perspectives for systems biology in the management of tuberculosis

I. Kontsevaya, C. Lange, P. Comella-Del-Barrio, C. Coarfa, A.R. DiNardo, S.H. Gillespie, M. Hauptmann, C. Leschczyk, A.M. Mandalakas, A. Martinecz, M. Merker, S. Niemann, M. Reimann, O. Rzhepishevska, U.E. Schaible, K.M. Scheu, E. Schurr, P. Abel Zur Wiesch, J. Heyckendorf^*

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

Abstract

Standardised management of tuberculosis may soon be replaced by individualised, precision medicine-guided therapies informed with knowledge provided by the field of systems biology. Systems biology is a rapidly expanding field of computational and mathematical analysis and modelling of complex biological systems that can provide insights into mechanisms underlying tuberculosis, identify novel biomarkers, and help to optimise prevention, diagnosis and treatment of disease. These advances are critically important in the context of the evolving epidemic of drug-resistant tuberculosis. Here, we review the available evidence on the role of systems biology approaches - human and mycobacterial genomics and transcriptomics, proteomics, lipidomics/metabolomics, immunophenotyping, systems pharmacology and gut microbiomes - in the management of tuberculosis including prediction of risk for disease progression, severity of mycobacterial virulence and drug resistance, adverse events, comorbidities, response to therapy and treatment outcomes. Application of the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) approach demonstrated that at present most of the studies provide "very low" certainty of evidence for answering clinically relevant questions. Further studies in large prospective cohorts of patients, including randomised clinical trials, are necessary to assess the applicability of the findings in tuberculosis prevention and more efficient clinical management of patients.

Original language	English
Article number	200377
Number of pages	16
Journal	European Respiratory Review
Volume	30
Issue number	160
Early online date	25 May 2021
DOIs	https://doi.org/10.1183/16000617.0377-2020
Publication status	Published - 30 Jun 2021

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Kontsevaya, I., Lange, C., Comella-Del-Barrio, P., Coarfa, C., DiNardo, A. R., Gillespie, S. H., Hauptmann, M., Leschczyk, C., Mandalakas, A. M., Martinecz, A., Merker, M., Niemann, S., Reimann, M., Rzhepishevska, O., Schaible, U. E., Scheu, K. M., Schurr, E., Abel Zur Wiesch, P., & Heyckendorf, J. (2021). Perspectives for systems biology in the management of tuberculosis. European Respiratory Review, 30(160), Article 200377. https://doi.org/10.1183/16000617.0377-2020

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title = "Perspectives for systems biology in the management of tuberculosis",

abstract = "Standardised management of tuberculosis may soon be replaced by individualised, precision medicine-guided therapies informed with knowledge provided by the field of systems biology. Systems biology is a rapidly expanding field of computational and mathematical analysis and modelling of complex biological systems that can provide insights into mechanisms underlying tuberculosis, identify novel biomarkers, and help to optimise prevention, diagnosis and treatment of disease. These advances are critically important in the context of the evolving epidemic of drug-resistant tuberculosis. Here, we review the available evidence on the role of systems biology approaches - human and mycobacterial genomics and transcriptomics, proteomics, lipidomics/metabolomics, immunophenotyping, systems pharmacology and gut microbiomes - in the management of tuberculosis including prediction of risk for disease progression, severity of mycobacterial virulence and drug resistance, adverse events, comorbidities, response to therapy and treatment outcomes. Application of the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) approach demonstrated that at present most of the studies provide {"}very low{"} certainty of evidence for answering clinically relevant questions. Further studies in large prospective cohorts of patients, including randomised clinical trials, are necessary to assess the applicability of the findings in tuberculosis prevention and more efficient clinical management of patients. ",

author = "I. Kontsevaya and C. Lange and P. Comella-Del-Barrio and C. Coarfa and A.R. DiNardo and S.H. Gillespie and M. Hauptmann and C. Leschczyk and A.M. Mandalakas and A. Martinecz and M. Merker and S. Niemann and M. Reimann and O. Rzhepishevska and U.E. Schaible and K.M. Scheu and E. Schurr and {Abel Zur Wiesch}, P. and J. Heyckendorf",

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Kontsevaya, I, Lange, C, Comella-Del-Barrio, P, Coarfa, C, DiNardo, AR, Gillespie, SH, Hauptmann, M, Leschczyk, C, Mandalakas, AM, Martinecz, A, Merker, M, Niemann, S, Reimann, M, Rzhepishevska, O, Schaible, UE, Scheu, KM, Schurr, E, Abel Zur Wiesch, P & Heyckendorf, J 2021, 'Perspectives for systems biology in the management of tuberculosis', European Respiratory Review, vol. 30, no. 160, 200377. https://doi.org/10.1183/16000617.0377-2020

TY - JOUR

T1 - Perspectives for systems biology in the management of tuberculosis

AU - Kontsevaya, I.

AU - Lange, C.

AU - Comella-Del-Barrio, P.

AU - Coarfa, C.

AU - DiNardo, A.R.

AU - Gillespie, S.H.

AU - Hauptmann, M.

AU - Leschczyk, C.

AU - Mandalakas, A.M.

AU - Martinecz, A.

AU - Merker, M.

AU - Niemann, S.

AU - Reimann, M.

AU - Rzhepishevska, O.

AU - Schaible, U.E.

AU - Scheu, K.M.

AU - Schurr, E.

AU - Abel Zur Wiesch, P.

AU - Heyckendorf, J.

PY - 2021/6/30

Y1 - 2021/6/30

N2 - Standardised management of tuberculosis may soon be replaced by individualised, precision medicine-guided therapies informed with knowledge provided by the field of systems biology. Systems biology is a rapidly expanding field of computational and mathematical analysis and modelling of complex biological systems that can provide insights into mechanisms underlying tuberculosis, identify novel biomarkers, and help to optimise prevention, diagnosis and treatment of disease. These advances are critically important in the context of the evolving epidemic of drug-resistant tuberculosis. Here, we review the available evidence on the role of systems biology approaches - human and mycobacterial genomics and transcriptomics, proteomics, lipidomics/metabolomics, immunophenotyping, systems pharmacology and gut microbiomes - in the management of tuberculosis including prediction of risk for disease progression, severity of mycobacterial virulence and drug resistance, adverse events, comorbidities, response to therapy and treatment outcomes. Application of the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) approach demonstrated that at present most of the studies provide "very low" certainty of evidence for answering clinically relevant questions. Further studies in large prospective cohorts of patients, including randomised clinical trials, are necessary to assess the applicability of the findings in tuberculosis prevention and more efficient clinical management of patients.

AB - Standardised management of tuberculosis may soon be replaced by individualised, precision medicine-guided therapies informed with knowledge provided by the field of systems biology. Systems biology is a rapidly expanding field of computational and mathematical analysis and modelling of complex biological systems that can provide insights into mechanisms underlying tuberculosis, identify novel biomarkers, and help to optimise prevention, diagnosis and treatment of disease. These advances are critically important in the context of the evolving epidemic of drug-resistant tuberculosis. Here, we review the available evidence on the role of systems biology approaches - human and mycobacterial genomics and transcriptomics, proteomics, lipidomics/metabolomics, immunophenotyping, systems pharmacology and gut microbiomes - in the management of tuberculosis including prediction of risk for disease progression, severity of mycobacterial virulence and drug resistance, adverse events, comorbidities, response to therapy and treatment outcomes. Application of the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) approach demonstrated that at present most of the studies provide "very low" certainty of evidence for answering clinically relevant questions. Further studies in large prospective cohorts of patients, including randomised clinical trials, are necessary to assess the applicability of the findings in tuberculosis prevention and more efficient clinical management of patients.

U2 - 10.1183/16000617.0377-2020

DO - 10.1183/16000617.0377-2020

M3 - Review article

SN - 0905-9180

VL - 30

JO - European Respiratory Review

JF - European Respiratory Review

IS - 160

M1 - 200377

ER -

Perspectives for systems biology in the management of tuberculosis

Abstract

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