Examining the biological pathways underlying clinical heterogeneity in Sjogren's syndrome: Proteomic and network analysis

Joe Scott Berry; Jessica Tarn; John Casement; Pierre-Marie Duret; Lauren Scott; Karl Wood; Svein-Joar Johnsen; Gunnel Nordmark; Valérie Devauchelle-Pensec; Raphaele Seror; Benjamin Fisher; Fransesca Barone; Simon J Bowman; Michele Bombardieri; Dennis Lendrem; Renaud Felten; Jacques-Eric Gottenberg; Wan-Fai Ng

doi:10.1136/ard-2023-224503

Examining the biological pathways underlying clinical heterogeneity in Sjogren's syndrome: Proteomic and network analysis

Joe Scott Berry, Jessica Tarn, John Casement, Pierre-Marie Duret, Lauren Scott, Karl Wood, Svein-Joar Johnsen, Gunnel Nordmark, Valérie Devauchelle-Pensec, Raphaele Seror, Benjamin Fisher, Fransesca Barone, Simon J Bowman, Michele Bombardieri, Dennis Lendrem, Renaud Felten, Jacques-Eric Gottenberg, Wan-Fai Ng^*

^*Corresponding author for this work

Inflammation and Ageing

Research output: Contribution to journal › Article › peer-review

Abstract

Objectives: Stratification approaches are vital to address clinical heterogeneity in Sjogren’s syndrome (SS). We previously described that the Newcastle Sjogren’s Stratification Tool (NSST) identified four distinct clinical subtypes of SS. We performed proteomic and network analysis to analyse the underlying pathobiology and highlight potential therapeutic targets for different SS subtypes.

Method: We profiled serum proteins using O-link technology of 180 SS subjects. We used 5 O-link proteomics panels which included a total of 454 unique proteins. Network reconstruction was performed using the ARACNE algorithm, with differential expression estimates overlaid on these networks to reveal the key subnetworks of differential expression. Furthermore, data from a phase III trial of tocilizumab in SS were reanalysed by stratifying patients at baseline using NSST.

Results: Our analysis highlights differential expression of chemokines, cytokines and the major autoantigen TRIM21 between the SS subtypes. Furthermore, we observe differential expression of several transcription factors associated with energy metabolism and redox balance namely APE1/Ref-1, FOXO1, TIGAR and BACH1. The differentially expressed proteins were inter-related in our network analysis, supporting the concept that distinct molecular networks underlie the clinical subtypes of SS. Stratification of patients at baseline using NSST revealed improvement of fatigue score only in the subtype expressing the highest levels of serum IL-6.

Conclusions: Our data provide clues to the pathways contributing to the glandular and non-glandular manifestations of SS and to potential therapeutic targets for different SS subtypes. In addition, our analysis highlights the need for further exploration of altered metabolism and mitochondrial dysfunction in the context of SS subtypes.

Original language	English
Pages (from-to)	88-95
Number of pages	8
Journal	Annals of the Rheumatic Diseases
Volume	83
Issue number	1
Early online date	1 Sept 2023
DOIs	https://doi.org/10.1136/ard-2023-224503
Publication status	Published - Jan 2024

Bibliographical note

Funding Information:
This work was supported in part by FOREUM, MRC (grant reference: 0800629) NECESSITY, NIHR Biomedical Research Centre at Newcastle University and the Newcastle upon Tyne Hospitals NHS Trust. The reanalysed Tocilizumab trial was sponsored by Hôpitaux Universitaires de Strasbourg. Roche Chugai provided Tocilizumab and the placebo and a grant to fund the study but had no role in the study design, data collection, analysis, interpretation or manuscript preparation, revision or approval of the manuscript. The French patient’s association (Association Française du Gougerot-Sjogren et des Syndromes Secs, AFGS) gave a grant to fund the study.

Publisher Copyright:
© 2023 Author(s). Published by BMJ.

Keywords

Autoantibodies
Autoimmune Diseases
Inflammation
Patient Reported Outcome Measures
Sjogren's Syndrome

ASJC Scopus subject areas

Rheumatology
Immunology and Allergy
Immunology
General Biochemistry,Genetics and Molecular Biology

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10.1136/ard-2023-224503

Cite this

Berry, J. S., Tarn, J., Casement, J., Duret, P.-M., Scott, L., Wood, K., Johnsen, S.-J., Nordmark, G., Devauchelle-Pensec, V., Seror, R., Fisher, B., Barone, F., Bowman, S. J., Bombardieri, M., Lendrem, D., Felten, R., Gottenberg, J.-E., & Ng, W.-F. (2024). Examining the biological pathways underlying clinical heterogeneity in Sjogren's syndrome: Proteomic and network analysis. Annals of the Rheumatic Diseases, 83(1), 88-95. https://doi.org/10.1136/ard-2023-224503

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title = "Examining the biological pathways underlying clinical heterogeneity in Sjogren's syndrome: Proteomic and network analysis",

abstract = "Objectives: Stratification approaches are vital to address clinical heterogeneity in Sjogren{\textquoteright}s syndrome (SS). We previously described that the Newcastle Sjogren{\textquoteright}s Stratification Tool (NSST) identified four distinct clinical subtypes of SS. We performed proteomic and network analysis to analyse the underlying pathobiology and highlight potential therapeutic targets for different SS subtypes.Method: We profiled serum proteins using O-link technology of 180 SS subjects. We used 5 O-link proteomics panels which included a total of 454 unique proteins. Network reconstruction was performed using the ARACNE algorithm, with differential expression estimates overlaid on these networks to reveal the key subnetworks of differential expression. Furthermore, data from a phase III trial of tocilizumab in SS were reanalysed by stratifying patients at baseline using NSST.Results: Our analysis highlights differential expression of chemokines, cytokines and the major autoantigen TRIM21 between the SS subtypes. Furthermore, we observe differential expression of several transcription factors associated with energy metabolism and redox balance namely APE1/Ref-1, FOXO1, TIGAR and BACH1. The differentially expressed proteins were inter-related in our network analysis, supporting the concept that distinct molecular networks underlie the clinical subtypes of SS. Stratification of patients at baseline using NSST revealed improvement of fatigue score only in the subtype expressing the highest levels of serum IL-6.Conclusions: Our data provide clues to the pathways contributing to the glandular and non-glandular manifestations of SS and to potential therapeutic targets for different SS subtypes. In addition, our analysis highlights the need for further exploration of altered metabolism and mitochondrial dysfunction in the context of SS subtypes.",

keywords = "Autoantibodies, Autoimmune Diseases, Inflammation, Patient Reported Outcome Measures, Sjogren's Syndrome",

author = "Berry, {Joe Scott} and Jessica Tarn and John Casement and Pierre-Marie Duret and Lauren Scott and Karl Wood and Svein-Joar Johnsen and Gunnel Nordmark and Val{\'e}rie Devauchelle-Pensec and Raphaele Seror and Benjamin Fisher and Fransesca Barone and Bowman, {Simon J} and Michele Bombardieri and Dennis Lendrem and Renaud Felten and Jacques-Eric Gottenberg and Wan-Fai Ng",

note = "Funding Information: This work was supported in part by FOREUM, MRC (grant reference: 0800629) NECESSITY, NIHR Biomedical Research Centre at Newcastle University and the Newcastle upon Tyne Hospitals NHS Trust. The reanalysed Tocilizumab trial was sponsored by H{\^o}pitaux Universitaires de Strasbourg. Roche Chugai provided Tocilizumab and the placebo and a grant to fund the study but had no role in the study design, data collection, analysis, interpretation or manuscript preparation, revision or approval of the manuscript. The French patient{\textquoteright}s association (Association Fran{\c c}aise du Gougerot-Sjogren et des Syndromes Secs, AFGS) gave a grant to fund the study. Publisher Copyright: {\textcopyright} 2023 Author(s). Published by BMJ.",

year = "2024",

month = jan,

doi = "10.1136/ard-2023-224503",

language = "English",

volume = "83",

pages = "88--95",

journal = "Annals of the Rheumatic Diseases",

issn = "0003-4967",

publisher = "BMJ Publishing Group",

number = "1",

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Berry, JS, Tarn, J, Casement, J, Duret, P-M, Scott, L, Wood, K, Johnsen, S-J, Nordmark, G, Devauchelle-Pensec, V, Seror, R, Fisher, B, Barone, F, Bowman, SJ, Bombardieri, M, Lendrem, D, Felten, R, Gottenberg, J-E & Ng, W-F 2024, 'Examining the biological pathways underlying clinical heterogeneity in Sjogren's syndrome: Proteomic and network analysis', Annals of the Rheumatic Diseases, vol. 83, no. 1, pp. 88-95. https://doi.org/10.1136/ard-2023-224503

TY - JOUR

T1 - Examining the biological pathways underlying clinical heterogeneity in Sjogren's syndrome

T2 - Proteomic and network analysis

AU - Berry, Joe Scott

AU - Tarn, Jessica

AU - Casement, John

AU - Duret, Pierre-Marie

AU - Scott, Lauren

AU - Wood, Karl

AU - Johnsen, Svein-Joar

AU - Nordmark, Gunnel

AU - Devauchelle-Pensec, Valérie

AU - Seror, Raphaele

AU - Fisher, Benjamin

AU - Barone, Fransesca

AU - Bowman, Simon J

AU - Bombardieri, Michele

AU - Lendrem, Dennis

AU - Felten, Renaud

AU - Gottenberg, Jacques-Eric

AU - Ng, Wan-Fai

N1 - Funding Information: This work was supported in part by FOREUM, MRC (grant reference: 0800629) NECESSITY, NIHR Biomedical Research Centre at Newcastle University and the Newcastle upon Tyne Hospitals NHS Trust. The reanalysed Tocilizumab trial was sponsored by Hôpitaux Universitaires de Strasbourg. Roche Chugai provided Tocilizumab and the placebo and a grant to fund the study but had no role in the study design, data collection, analysis, interpretation or manuscript preparation, revision or approval of the manuscript. The French patient’s association (Association Française du Gougerot-Sjogren et des Syndromes Secs, AFGS) gave a grant to fund the study. Publisher Copyright: © 2023 Author(s). Published by BMJ.

PY - 2024/1

Y1 - 2024/1

N2 - Objectives: Stratification approaches are vital to address clinical heterogeneity in Sjogren’s syndrome (SS). We previously described that the Newcastle Sjogren’s Stratification Tool (NSST) identified four distinct clinical subtypes of SS. We performed proteomic and network analysis to analyse the underlying pathobiology and highlight potential therapeutic targets for different SS subtypes.Method: We profiled serum proteins using O-link technology of 180 SS subjects. We used 5 O-link proteomics panels which included a total of 454 unique proteins. Network reconstruction was performed using the ARACNE algorithm, with differential expression estimates overlaid on these networks to reveal the key subnetworks of differential expression. Furthermore, data from a phase III trial of tocilizumab in SS were reanalysed by stratifying patients at baseline using NSST.Results: Our analysis highlights differential expression of chemokines, cytokines and the major autoantigen TRIM21 between the SS subtypes. Furthermore, we observe differential expression of several transcription factors associated with energy metabolism and redox balance namely APE1/Ref-1, FOXO1, TIGAR and BACH1. The differentially expressed proteins were inter-related in our network analysis, supporting the concept that distinct molecular networks underlie the clinical subtypes of SS. Stratification of patients at baseline using NSST revealed improvement of fatigue score only in the subtype expressing the highest levels of serum IL-6.Conclusions: Our data provide clues to the pathways contributing to the glandular and non-glandular manifestations of SS and to potential therapeutic targets for different SS subtypes. In addition, our analysis highlights the need for further exploration of altered metabolism and mitochondrial dysfunction in the context of SS subtypes.

AB - Objectives: Stratification approaches are vital to address clinical heterogeneity in Sjogren’s syndrome (SS). We previously described that the Newcastle Sjogren’s Stratification Tool (NSST) identified four distinct clinical subtypes of SS. We performed proteomic and network analysis to analyse the underlying pathobiology and highlight potential therapeutic targets for different SS subtypes.Method: We profiled serum proteins using O-link technology of 180 SS subjects. We used 5 O-link proteomics panels which included a total of 454 unique proteins. Network reconstruction was performed using the ARACNE algorithm, with differential expression estimates overlaid on these networks to reveal the key subnetworks of differential expression. Furthermore, data from a phase III trial of tocilizumab in SS were reanalysed by stratifying patients at baseline using NSST.Results: Our analysis highlights differential expression of chemokines, cytokines and the major autoantigen TRIM21 between the SS subtypes. Furthermore, we observe differential expression of several transcription factors associated with energy metabolism and redox balance namely APE1/Ref-1, FOXO1, TIGAR and BACH1. The differentially expressed proteins were inter-related in our network analysis, supporting the concept that distinct molecular networks underlie the clinical subtypes of SS. Stratification of patients at baseline using NSST revealed improvement of fatigue score only in the subtype expressing the highest levels of serum IL-6.Conclusions: Our data provide clues to the pathways contributing to the glandular and non-glandular manifestations of SS and to potential therapeutic targets for different SS subtypes. In addition, our analysis highlights the need for further exploration of altered metabolism and mitochondrial dysfunction in the context of SS subtypes.

KW - Autoantibodies

KW - Autoimmune Diseases

KW - Inflammation

KW - Patient Reported Outcome Measures

KW - Sjogren's Syndrome

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DO - 10.1136/ard-2023-224503

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SN - 0003-4967

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JO - Annals of the Rheumatic Diseases

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Examining the biological pathways underlying clinical heterogeneity in Sjogren's syndrome: Proteomic and network analysis

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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