Large-scale profiling of antibody reactivity to glycolipids in patients with Guillain-Barré syndrome

Robin C. M. Thomma; Susan K. Halstead; Laura C. de Koning; Eveline J. A. Wiegers; Dawn S. Gourlay; Anne P. Tio-Gillen; Wouter van Rijs; Henning Andersen; Giovanni Antonini; Samuel Arends; Shahram Attarian; Fabio A. Barroso; Kathleen J. Bateman; Luana Benedetti; Peter van den Bergh; Jan Bürmann; Mark Busby; Carlos Casasnovas; Efthimios Dardiotis; Amy Davidson; Thomas E. Feasby; Janev Fehmi; Giuliana Galassi; Tania Garcia-Sobrino; Volkan Granit; Gerardo Gutiérrez-Gutiérrez; Robert D. M. Hadden; Thomas Harbo; Hans-Peter Hartung; Imran Hasan; James K. L. Holt; Zhahirul Islam; Summer Karafiath; Hans D. Katzberg; Noah Kolb; Susumu Kusunoki; Satoshi Kuwabara; Motoi Kuwahara; Helmar C. Lehmann; Sonja E. Leonhard; Lorena Martín-Aguilar; Soledad Monges; Eduardo Nobile-Orazio; Julio Pardo; Yann Pereon; Luis Querol; Ricardo C. Reisin; Simon Rinaldi; Paolo Ripellino; Rhys C. Roberts; Olivier Scheidegger; Nortina Shahrizaila; Kazim A. Sheikh; Nicholas J. Silvestri; Soren H. Sindrup; Beth Stein; Cheng Y. Tan; Hatice Tankisi; Leo H. Visser; Waqar Waheed; Ruth Huizinga; Bart C. Jacobs; Hugh J. Willison; J. M. Addington; S. Ajroud-Driss; H. Andersen; G. Antonini; S. Arends; S. Attarian; U. A. Badrising; C. Balducci; F. A. Barroso; K. Bateman; I. R. Bella; L. Benedetti; B. van den Berg; P. Y. K. van den Bergh; T. E. Bertorini; R. Bhavaraju-Sanka; F. M. Bozzano; T. H. Brannagan; C. Briani; J. Bürmann; M. Busby; S. Butterworth; G. Capodivento; C. Casasnovas; G. Cavaletti; C. C. Chao; S. Chen; E. Cisneros; K. G. Claeys; M. E. Conti; D. R. Cornblath; J. S. Cosgrove; M. C. Dalakas; P. van Damme; E. Dardiotis; A. Davidson; G. W. van Dijk; M. M. Dimachkie; A. Y. Doets; P. A. van Doorn; A. Echaniz-Laguna; F. Eftimov; C. G. Faber; R. Fazio; T. E. Feasby; J. Fehmi; J. Fernández-Travieso; C. Fokke; T. Fujioka; E. A. Fulgenzi; G. Galassi; T. Garcia-Sobrino; M. P. J. Garssen; C. Giannotta; C. J. Gijsbers; J. M. Gilchrist; H. J. Gilhuis; J. M. Goldstein; K. C. Gorson; N. A. Goyal; V. Granit; A. M. Grapperon; G. Guttiérrez-Guttiérrez; L. Gutman; R. D. M. Hadden; T. Harbo; H. P. Hartung; S. Hayat; R. A. Hendriks; Jakob V. Holbech; J. K. L. Holt; S. T. Hsieh; M. Htut; R. A. C. Hughes; R. Huizinga; A. M. Humm; T. Hundsberger; B. Islam; Z. Islam; B. C. Jacobs; I. Jahan; K. Jellema; I. Jericó Pascual; K. Kaida; S. Karafiath; H. D. Katzberg; H. Kerkhoff; M. A. Khoshnoodi; L. Kiers; N. Kokubun; N. A. Kolb; L. C. de Koning; R. van Koningsveld; A. J. van der Kooi; J. C. H. M. Kramers; K. Kuitwaard; T. Kuntzer; S. Kusunoki; S. Kuwabara; J. Y. Kwan; S. S. Ladha; L. Landschoff Lassen; A. M. Lascano; V. Lawson; H. C. Lehmann; S. E. Leonhard; C. Lleixa-Rodriguez; L. W. G. Luijten; M. P. T. Lunn; A. Magot; H. Manji; C. Marchesoni; G. A. Marfia; C. Márquez Infante; L. Martín-Aguilar; E. Martinez Hernandez; G. Mataluni; M. Mattiazi; C. J. McDermott; G. D. Meekins; J. A. L. Miller; Q. D. Mohammad; M. S. Monges; M. Morales de la Prida; G. Morís de la Tassa; P. Nair; C. Nascimbene; L. Nobbio; E. Nobile-Orazio; R. J. Nowak; M. Osei-Bonsu; J. Pardo; F. Pelouto; Y. Péréon; M. T. Pulley; L. Querol; S. W. Reddel; T. van der Ree; R. C. Reisin; S. Rinaldi; P. Ripellino; R. C. Roberts; I. Rojas-Marcos; J. Roodbol; S. A. Rudnicki; G. M. Sachs; J. P. A. Samijn; L. Santoro; A. Savransky; O. Scheidegger; A. Schenone; L. Schwindling; M. J. Sedano Tous; N. Shahrizaila; K. A. Sheikh; N. J. Silvestri; S. H. Sindrup; V. Siokas; C. L. Sommer; B. Stein; A. M. Stino; T. Suichi; H. Tankisi; R. C. M. Thomma; P. Tsouni; P. Twydell; J. D. Varrato; J. C. Verboon; C. Verhamme; F. H. Vermeij; J. Verschuuren; L. H. Visser; M. V. Vytopil; W. Waheed; C. Walgaard; Y. Z. Wang; E. J. A. Wiegers; H. J. Willison; P. W. Wirtz; M. van Woerkom; Y. Yamagishi; K. Yoshikawa; L. L. Zhang; L. Zhou; S. A. Zivkovic

doi:10.1093/brain/awaf102

Large-scale profiling of antibody reactivity to glycolipids in patients with Guillain-Barré syndrome

Robin C. M. Thomma
, Susan K. Halstead
, Laura C. de Koning
, Eveline J. A. Wiegers
, Dawn S. Gourlay
, Anne P. Tio-Gillen
, Wouter van Rijs
, Henning Andersen
, Giovanni Antonini
, Samuel Arends
, Shahram Attarian
, Fabio A. Barroso
, Kathleen J. Bateman
, Luana Benedetti
, Peter van den Bergh
, Jan Bürmann
, Mark Busby
, Carlos Casasnovas
, Efthimios Dardiotis
, Amy Davidson

Thomas E. Feasby, Janev Fehmi, Giuliana Galassi, Tania Garcia-Sobrino, Volkan Granit, Gerardo Gutiérrez-Gutiérrez, Robert D. M. Hadden, Thomas Harbo, Hans-Peter Hartung, Imran Hasan, James K. L. Holt, Zhahirul Islam, Summer Karafiath, Hans D. Katzberg, Noah Kolb, Susumu Kusunoki, Satoshi Kuwabara, Motoi Kuwahara, Helmar C. Lehmann, Sonja E. Leonhard, Lorena Martín-Aguilar, Soledad Monges, Eduardo Nobile-Orazio, Julio Pardo, Yann Pereon, Luis Querol, Ricardo C. Reisin, Simon Rinaldi, Paolo Ripellino, Rhys C. Roberts, Olivier Scheidegger, Nortina Shahrizaila, Kazim A. Sheikh, Nicholas J. Silvestri, Soren H. Sindrup, Beth Stein, Cheng Y. Tan, Hatice Tankisi, Leo H. Visser, Waqar Waheed, Ruth Huizinga, Bart C. Jacobs^*, Hugh J. Willison, J. M. Addington, S. Ajroud-Driss, H. Andersen, G. Antonini, S. Arends, S. Attarian, U. A. Badrising, C. Balducci, F. A. Barroso, K. Bateman, I. R. Bella, L. Benedetti, B. van den Berg, P. Y. K. van den Bergh, T. E. Bertorini, R. Bhavaraju-Sanka, F. M. Bozzano, T. H. Brannagan, C. Briani, J. Bürmann, M. Busby, S. Butterworth, G. Capodivento, C. Casasnovas, G. Cavaletti, C. C. Chao, S. Chen, E. Cisneros, K. G. Claeys, M. E. Conti, D. R. Cornblath, J. S. Cosgrove, M. C. Dalakas, P. van Damme, E. Dardiotis, A. Davidson, G. W. van Dijk, M. M. Dimachkie, A. Y. Doets, P. A. van Doorn, A. Echaniz-Laguna, F. Eftimov, C. G. Faber, R. Fazio, T. E. Feasby, J. Fehmi, J. Fernández-Travieso, C. Fokke, T. Fujioka, E. A. Fulgenzi, G. Galassi, T. Garcia-Sobrino, M. P. J. Garssen, C. Giannotta, C. J. Gijsbers, J. M. Gilchrist, H. J. Gilhuis, J. M. Goldstein, K. C. Gorson, N. A. Goyal, V. Granit, A. M. Grapperon, G. Guttiérrez-Guttiérrez, L. Gutman, R. D. M. Hadden, T. Harbo, H. P. Hartung, S. Hayat, R. A. Hendriks, Jakob V. Holbech, J. K. L. Holt, S. T. Hsieh, M. Htut, R. A. C. Hughes, R. Huizinga, A. M. Humm, T. Hundsberger, B. Islam, Z. Islam, B. C. Jacobs, I. Jahan, K. Jellema, I. Jericó Pascual, K. Kaida, S. Karafiath, H. D. Katzberg, H. Kerkhoff, M. A. Khoshnoodi, L. Kiers, N. Kokubun, N. A. Kolb, L. C. de Koning, R. van Koningsveld, A. J. van der Kooi, J. C. H. M. Kramers, K. Kuitwaard, T. Kuntzer, S. Kusunoki, S. Kuwabara, J. Y. Kwan, S. S. Ladha, L. Landschoff Lassen, A. M. Lascano, V. Lawson, H. C. Lehmann, S. E. Leonhard, C. Lleixa-Rodriguez, L. W. G. Luijten, M. P. T. Lunn, A. Magot, H. Manji, C. Marchesoni, G. A. Marfia, C. Márquez Infante, L. Martín-Aguilar, E. Martinez Hernandez, G. Mataluni, M. Mattiazi, C. J. McDermott, G. D. Meekins, J. A. L. Miller, Q. D. Mohammad, M. S. Monges, M. Morales de la Prida, G. Morís de la Tassa, P. Nair, C. Nascimbene, L. Nobbio, E. Nobile-Orazio, R. J. Nowak, M. Osei-Bonsu, J. Pardo, F. Pelouto, Y. Péréon, M. T. Pulley, L. Querol, S. W. Reddel, T. van der Ree, R. C. Reisin, S. Rinaldi, P. Ripellino, R. C. Roberts, I. Rojas-Marcos, J. Roodbol, S. A. Rudnicki, G. M. Sachs, J. P. A. Samijn, L. Santoro, A. Savransky, O. Scheidegger, A. Schenone, L. Schwindling, M. J. Sedano Tous, N. Shahrizaila, K. A. Sheikh, N. J. Silvestri, S. H. Sindrup, V. Siokas, C. L. Sommer, B. Stein, A. M. Stino, T. Suichi, H. Tankisi, R. C. M. Thomma, P. Tsouni, P. Twydell, J. D. Varrato, J. C. Verboon, C. Verhamme, F. H. Vermeij, J. Verschuuren, L. H. Visser, M. V. Vytopil, W. Waheed, C. Walgaard, Y. Z. Wang, E. J. A. Wiegers, H. J. Willison, P. W. Wirtz, M. van Woerkom, Y. Yamagishi, K. Yoshikawa, L. L. Zhang, L. Zhou, S. A. Zivkovic

^*Corresponding author for this work

Erasmus University Rotterdam
University of Glasgow
Aarhus University
Azienda Ospedaliero-Universitaria Sant'Andrea
Haga Ziekenhuis
Hopital La Timone
Fundación para la Lucha contra las Enfermedades Neurológicas de la Infancia
University of Cape Town
IRCCS San Martino Polyclinic Hospital
Université catholique de Louvain
MVZ Pfalzklinikum
Leeds Teaching Hospitals NHS Trust
L'Hospitalet de Llobregat
University of Thessaly
University of Calgary
University of Oxford
University of Modena and Reggio Emilia
University Hospital
Montefiore Health System
Hospital Universitario Infanta Sofía
King’s College London and King’s College Hospital
Heinrich Heine University Düsseldorf
University of Sydney
Medical University of Vienna
Gut-Brain Axis Laboratory
The Walton Centre NHS Foundation Trust
Utah Valley University
University Health Network (Toronto)
University of Vermont
Kindai University
Chiba University
University of Cologne
Autonomous University of Barcelona
Hospital de Pediatria SAMIC Prof. Dr. Juan P. Garrahan
University of Milan
Hôtel Dieu-HME-University Hospital of Nantes
Center for Biomedical Research On Rare Diseases (CIBERER)
Hospital Británico de Buenos Aires
Ente Ospedaliero Cantonale
Università della Svizzera italiana
Cambridge University Hospitals NHS Foundation Trust
University of Bern
University of Malaya
University of Texas Health Science Center at Houston
SUNY Buffalo
University of Southern Denmark
St. Joseph’s Health
ETZ Elisabeth

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

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Abstract

Guillain-Barré syndrome is an acute polyradiculoneuropathy in which preceding infections often elicit the production of antibodies that target peripheral nerve antigens, principally gangliosides. Anti-ganglioside antibodies are thought to play a key role in the clinical diversity of the disease and can be helpful in clinical practice. Extensive research into clinical associations of individual anti-ganglioside antibody specificities has been performed. Recent research has highlighted glycolipid complexes, glycolipid combinations that may alter antibody binding, as targets. In this study, we investigated antibody reactivity patterns to glycolipids and glycolipid complexes using combinatorial array, in relation to clinical features in Guillain-Barré syndrome. In total, 1413 patients from the observational International Guillain-Barré syndrome Outcome Study (0-91 years, 60.3% male) and 1061 controls (healthy, family, infectious, vaccination, other neurological disease) were included. Acute-phase sera from patients were screened for IgM, IgG, and IgA reactivity against 15 glycolipids and one phospholipid and their heteromeric complexes, similarly to archived control sera. Antibody specificities and reactivity patterns were analysed in relation to clinical features. Of all patients, 1309 (92.6%) were positive for at least one anti-glycolipid (complex) antibody. Anti-GM1 and anti-GQ1b (complex) antibodies best distinguished motor Guillain-Barré syndrome and Miller Fisher syndrome from controls, with antibodies to glycolipid complexes outperforming antibodies to single glycolipids. Three models consisting of anti-glycolipid (complex) antibodies distinguished patients with Guillain-Barré syndrome, the motor variant, and Miller Fisher syndrome from controls with high sensitivity and specificity, performing better than antibodies to single glycolipids used in clinical practice. Seven patient clusters with particular antibody reactivity patterns were identified. These clusters were distinguished by geographical region, clinical variants, preceding Campylobacter jejuni infection, electrophysiological subtypes, the Medical Research Council sum score at study entry, and the ability to walk 10m unaided at 26 weeks. Two patient clusters with distinct anti-GM1 (complex) reactivity (broad versus restricted) differed in frequency of the axonal subtype. In cumulative incidence analyses, 15 anti-glycolipid (complex) antibodies were associated with the time required to regain the ability to walk 10m unaided. After adjustment for known prognostic factors, IgG anti-GQ1b:GM4, GQ1b:PS and GQ1b:Sulfatide remained associated with faster recovery. Addition of anti-glycolipid antibodies to clinical prognostic models slightly improved their discriminative capacity, though insufficiently to improve the models. Measurement of anti-glycolipid antibodies by combinatorial array increases the diagnostic yield compared to assaying single glycolipids, identifies clinically relevant antibody reactivity patterns to glycolipids and glycolipid complexes, and may be useful in outcome prediction in Guillain-Barré syndrome.

Original language	English
Pages (from-to)	4000-4015
Number of pages	16
Journal	Brain
Volume	148
Issue number	11
DOIs	https://doi.org/10.1093/brain/awaf102
Publication status	Published - 1 Nov 2025

Keywords

autoantibody
peripheral neuropathy

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10.1093/brain/awaf102

Large-scale-profiling-of-antibody-reactivity-to-glycolipids-in-patients-with-guillain-barre-syndrome.pdfFinal published version, 1.34 MBLicence: CC BY

Cite this

Thomma, R. C. M., Halstead, S. K., de Koning, L. C., Wiegers, E. J. A., Gourlay, D. S., Tio-Gillen, A. P., van Rijs, W., Andersen, H., Antonini, G., Arends, S., Attarian, S., Barroso, F. A., Bateman, K. J., Benedetti, L., van den Bergh, P., Bürmann, J., Busby, M., Casasnovas, C., Dardiotis, E., ... Zivkovic, S. A. (2025). Large-scale profiling of antibody reactivity to glycolipids in patients with Guillain-Barré syndrome. Brain, 148(11), 4000-4015. https://doi.org/10.1093/brain/awaf102

@article{2f0be311b5cc4f34af253b05a908ba98,

title = "Large-scale profiling of antibody reactivity to glycolipids in patients with Guillain-Barr{\'e} syndrome",

abstract = "Guillain-Barr{\'e} syndrome is an acute polyradiculoneuropathy in which preceding infections often elicit the production of antibodies that target peripheral nerve antigens, principally gangliosides. Anti-ganglioside antibodies are thought to play a key role in the clinical diversity of the disease and can be helpful in clinical practice. Extensive research into clinical associations of individual anti-ganglioside antibody specificities has been performed. Recent research has highlighted glycolipid complexes, glycolipid combinations that may alter antibody binding, as targets. In this study, we investigated antibody reactivity patterns to glycolipids and glycolipid complexes using combinatorial array, in relation to clinical features in Guillain-Barr{\'e} syndrome. In total, 1413 patients from the observational International Guillain-Barr{\'e} syndrome Outcome Study (0-91 years, 60.3\% male) and 1061 controls (healthy, family, infectious, vaccination, other neurological disease) were included. Acute-phase sera from patients were screened for IgM, IgG, and IgA reactivity against 15 glycolipids and one phospholipid and their heteromeric complexes, similarly to archived control sera. Antibody specificities and reactivity patterns were analysed in relation to clinical features. Of all patients, 1309 (92.6\%) were positive for at least one anti-glycolipid (complex) antibody. Anti-GM1 and anti-GQ1b (complex) antibodies best distinguished motor Guillain-Barr{\'e} syndrome and Miller Fisher syndrome from controls, with antibodies to glycolipid complexes outperforming antibodies to single glycolipids. Three models consisting of anti-glycolipid (complex) antibodies distinguished patients with Guillain-Barr{\'e} syndrome, the motor variant, and Miller Fisher syndrome from controls with high sensitivity and specificity, performing better than antibodies to single glycolipids used in clinical practice. Seven patient clusters with particular antibody reactivity patterns were identified. These clusters were distinguished by geographical region, clinical variants, preceding Campylobacter jejuni infection, electrophysiological subtypes, the Medical Research Council sum score at study entry, and the ability to walk 10m unaided at 26 weeks. Two patient clusters with distinct anti-GM1 (complex) reactivity (broad versus restricted) differed in frequency of the axonal subtype. In cumulative incidence analyses, 15 anti-glycolipid (complex) antibodies were associated with the time required to regain the ability to walk 10m unaided. After adjustment for known prognostic factors, IgG anti-GQ1b:GM4, GQ1b:PS and GQ1b:Sulfatide remained associated with faster recovery. Addition of anti-glycolipid antibodies to clinical prognostic models slightly improved their discriminative capacity, though insufficiently to improve the models. Measurement of anti-glycolipid antibodies by combinatorial array increases the diagnostic yield compared to assaying single glycolipids, identifies clinically relevant antibody reactivity patterns to glycolipids and glycolipid complexes, and may be useful in outcome prediction in Guillain-Barr{\'e} syndrome.",

keywords = "autoantibody, peripheral neuropathy",

author = "Thomma, \{Robin C. M.\} and Halstead, \{Susan K.\} and \{de Koning\}, \{Laura C.\} and Wiegers, \{Eveline J. A.\} and Gourlay, \{Dawn S.\} and Tio-Gillen, \{Anne P.\} and \{van Rijs\}, Wouter and Henning Andersen and Giovanni Antonini and Samuel Arends and Shahram Attarian and Barroso, \{Fabio A.\} and Bateman, \{Kathleen J.\} and Luana Benedetti and \{van den Bergh\}, Peter and Jan B{\"u}rmann and Mark Busby and Carlos Casasnovas and Efthimios Dardiotis and Amy Davidson and Feasby, \{Thomas E.\} and Janev Fehmi and Giuliana Galassi and Tania Garcia-Sobrino and Volkan Granit and Gerardo Guti{\'e}rrez-Guti{\'e}rrez and Hadden, \{Robert D. M.\} and Thomas Harbo and Hans-Peter Hartung and Imran Hasan and Holt, \{James K. L.\} and Zhahirul Islam and Summer Karafiath and Katzberg, \{Hans D.\} and Noah Kolb and Susumu Kusunoki and Satoshi Kuwabara and Motoi Kuwahara and Lehmann, \{Helmar C.\} and Leonhard, \{Sonja E.\} and Lorena Mart{\'i}n-Aguilar and Soledad Monges and Eduardo Nobile-Orazio and Julio Pardo and Yann Pereon and Luis Querol and Reisin, \{Ricardo C.\} and Simon Rinaldi and Paolo Ripellino and Roberts, \{Rhys C.\} and Olivier Scheidegger and Nortina Shahrizaila and Sheikh, \{Kazim A.\} and Silvestri, \{Nicholas J.\} and Sindrup, \{Soren H.\} and Beth Stein and Tan, \{Cheng Y.\} and Hatice Tankisi and Visser, \{Leo H.\} and Waqar Waheed and Ruth Huizinga and Jacobs, \{Bart C.\} and Willison, \{Hugh J.\} and Addington, \{J. M.\} and S. Ajroud-Driss and H. Andersen and G. Antonini and S. Arends and S. Attarian and Badrising, \{U. A.\} and C. Balducci and Barroso, \{F. A.\} and K. Bateman and Bella, \{I. R.\} and L. Benedetti and \{van den Berg\}, B. and \{van den Bergh\}, \{P. Y. K.\} and Bertorini, \{T. E.\} and R. Bhavaraju-Sanka and Bozzano, \{F. M.\} and Brannagan, \{T. H.\} and C. Briani and J. B{\"u}rmann and M. Busby and S. Butterworth and G. Capodivento and C. Casasnovas and G. Cavaletti and Chao, \{C. C.\} and S. Chen and E. Cisneros and Claeys, \{K. G.\} and Conti, \{M. E.\} and Cornblath, \{D. R.\} and Cosgrove, \{J. S.\} and Dalakas, \{M. C.\} and \{van Damme\}, P. and E. Dardiotis and A. Davidson and \{van Dijk\}, \{G. W.\} and Dimachkie, \{M. M.\} and Doets, \{A. Y.\} and \{van Doorn\}, \{P. A.\} and A. Echaniz-Laguna and F. Eftimov and Faber, \{C. G.\} and R. Fazio and Feasby, \{T. E.\} and J. Fehmi and J. Fern{\'a}ndez-Travieso and C. Fokke and T. Fujioka and Fulgenzi, \{E. A.\} and G. Galassi and T. Garcia-Sobrino and Garssen, \{M. P. J.\} and C. Giannotta and Gijsbers, \{C. J.\} and Gilchrist, \{J. M.\} and Gilhuis, \{H. J.\} and Goldstein, \{J. M.\} and Gorson, \{K. C.\} and Goyal, \{N. A.\} and V. Granit and Grapperon, \{A. M.\} and G. Gutti{\'e}rrez-Gutti{\'e}rrez and L. Gutman and Hadden, \{R. D. M.\} and T. Harbo and Hartung, \{H. P.\} and S. Hayat and Hendriks, \{R. A.\} and Holbech, \{Jakob V.\} and Holt, \{J. K. L.\} and Hsieh, \{S. T.\} and M. Htut and Hughes, \{R. A. C.\} and R. Huizinga and Humm, \{A. M.\} and T. Hundsberger and B. Islam and Z. Islam and Jacobs, \{B. C.\} and I. Jahan and K. Jellema and \{Jeric{\'o} Pascual\}, I. and K. Kaida and S. Karafiath and Katzberg, \{H. D.\} and H. Kerkhoff and Khoshnoodi, \{M. A.\} and L. Kiers and N. Kokubun and Kolb, \{N. A.\} and \{de Koning\}, \{L. C.\} and \{van Koningsveld\}, R. and \{van der Kooi\}, \{A. J.\} and Kramers, \{J. C. H. M.\} and K. Kuitwaard and T. Kuntzer and S. Kusunoki and S. Kuwabara and Kwan, \{J. Y.\} and Ladha, \{S. S.\} and \{Landschoff Lassen\}, L. and Lascano, \{A. M.\} and V. Lawson and Lehmann, \{H. C.\} and Leonhard, \{S. E.\} and C. Lleixa-Rodriguez and Luijten, \{L. W. G.\} and Lunn, \{M. P. T.\} and A. Magot and H. Manji and C. Marchesoni and Marfia, \{G. A.\} and \{M{\'a}rquez Infante\}, C. and L. Mart{\'i}n-Aguilar and \{Martinez Hernandez\}, E. and G. Mataluni and M. Mattiazi and McDermott, \{C. J.\} and Meekins, \{G. D.\} and Miller, \{J. A. L.\} and Mohammad, \{Q. D.\} and Monges, \{M. S.\} and \{de la Prida\}, \{M. Morales\} and \{de la Tassa\}, \{G. Mor{\'i}s\} and P. Nair and C. Nascimbene and L. Nobbio and E. Nobile-Orazio and Nowak, \{R. J.\} and M. Osei-Bonsu and J. Pardo and F. Pelouto and Y. P{\'e}r{\'e}on and Pulley, \{M. T.\} and L. Querol and Reddel, \{S. W.\} and \{van der Ree\}, T. and Reisin, \{R. C.\} and S. Rinaldi and P. Ripellino and Roberts, \{R. C.\} and I. Rojas-Marcos and J. Roodbol and Rudnicki, \{S. A.\} and Sachs, \{G. M.\} and Samijn, \{J. P. A.\} and L. Santoro and A. Savransky and O. Scheidegger and A. Schenone and L. Schwindling and \{Sedano Tous\}, \{M. J.\} and N. Shahrizaila and Sheikh, \{K. A.\} and Silvestri, \{N. J.\} and Sindrup, \{S. H.\} and V. Siokas and Sommer, \{C. L.\} and B. Stein and Stino, \{A. M.\} and T. Suichi and H. Tankisi and Thomma, \{R. C. M.\} and P. Tsouni and P. Twydell and Varrato, \{J. D.\} and Verboon, \{J. C.\} and C. Verhamme and Vermeij, \{F. H.\} and J. Verschuuren and Visser, \{L. H.\} and Vytopil, \{M. V.\} and W. Waheed and C. Walgaard and Wang, \{Y. Z.\} and Wiegers, \{E. J. A.\} and Willison, \{H. J.\} and Wirtz, \{P. W.\} and \{van Woerkom\}, M. and Y. Yamagishi and K. Yoshikawa and Zhang, \{L. L.\} and L. Zhou and Zivkovic, \{S. A.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by Oxford University Press on behalf of the Guarantors of Brain.",

year = "2025",

month = nov,

day = "1",

doi = "10.1093/brain/awaf102",

language = "English",

volume = "148",

pages = "4000--4015",

journal = "Brain",

issn = "0006-8950",

publisher = "Oxford University Press",

number = "11",

}

Thomma, RCM, Halstead, SK, de Koning, LC, Wiegers, EJA, Gourlay, DS, Tio-Gillen, AP, van Rijs, W, Andersen, H, Antonini, G, Arends, S, Attarian, S, Barroso, FA, Bateman, KJ, Benedetti, L, van den Bergh, P, Bürmann, J, Busby, M, Casasnovas, C, Dardiotis, E, Davidson, A, Feasby, TE, Fehmi, J, Galassi, G, Garcia-Sobrino, T, Granit, V, Gutiérrez-Gutiérrez, G, Hadden, RDM, Harbo, T, Hartung, H-P, Hasan, I, Holt, JKL, Islam, Z, Karafiath, S, Katzberg, HD, Kolb, N, Kusunoki, S, Kuwabara, S, Kuwahara, M, Lehmann, HC, Leonhard, SE, Martín-Aguilar, L, Monges, S, Nobile-Orazio, E, Pardo, J, Pereon, Y, Querol, L, Reisin, RC, Rinaldi, S, Ripellino, P, Roberts, RC, Scheidegger, O, Shahrizaila, N, Sheikh, KA, Silvestri, NJ, Sindrup, SH, Stein, B, Tan, CY, Tankisi, H, Visser, LH, Waheed, W, Huizinga, R, Jacobs, BC, Willison, HJ, Addington, JM, Ajroud-Driss, S, Andersen, H, Antonini, G, Arends, S, Attarian, S, Badrising, UA, Balducci, C, Barroso, FA, Bateman, K, Bella, IR, Benedetti, L, van den Berg, B, van den Bergh, PYK, Bertorini, TE, Bhavaraju-Sanka, R, Bozzano, FM, Brannagan, TH, Briani, C, Bürmann, J, Busby, M, Butterworth, S, Capodivento, G, Casasnovas, C, Cavaletti, G, Chao, CC, Chen, S, Cisneros, E, Claeys, KG, Conti, ME, Cornblath, DR, Cosgrove, JS, Dalakas, MC, van Damme, P, Dardiotis, E, Davidson, A, van Dijk, GW, Dimachkie, MM, Doets, AY, van Doorn, PA, Echaniz-Laguna, A, Eftimov, F, Faber, CG, Fazio, R, Feasby, TE, Fehmi, J, Fernández-Travieso, J, Fokke, C, Fujioka, T, Fulgenzi, EA, Galassi, G, Garcia-Sobrino, T, Garssen, MPJ, Giannotta, C, Gijsbers, CJ, Gilchrist, JM, Gilhuis, HJ, Goldstein, JM, Gorson, KC, Goyal, NA, Granit, V, Grapperon, AM, Guttiérrez-Guttiérrez, G, Gutman, L, Hadden, RDM, Harbo, T, Hartung, HP, Hayat, S, Hendriks, RA, Holbech, JV, Holt, JKL, Hsieh, ST, Htut, M, Hughes, RAC, Huizinga, R, Humm, AM, Hundsberger, T, Islam, B, Islam, Z, Jacobs, BC, Jahan, I, Jellema, K, Jericó Pascual, I, Kaida, K, Karafiath, S, Katzberg, HD, Kerkhoff, H, Khoshnoodi, MA, Kiers, L, Kokubun, N, Kolb, NA, de Koning, LC, van Koningsveld, R, van der Kooi, AJ, Kramers, JCHM, Kuitwaard, K, Kuntzer, T, Kusunoki, S, Kuwabara, S, Kwan, JY, Ladha, SS, Landschoff Lassen, L, Lascano, AM, Lawson, V, Lehmann, HC, Leonhard, SE, Lleixa-Rodriguez, C, Luijten, LWG, Lunn, MPT, Magot, A, Manji, H, Marchesoni, C, Marfia, GA, Márquez Infante, C, Martín-Aguilar, L, Martinez Hernandez, E, Mataluni, G, Mattiazi, M, McDermott, CJ, Meekins, GD, Miller, JAL, Mohammad, QD, Monges, MS, de la Prida, MM, de la Tassa, GM, Nair, P, Nascimbene, C, Nobbio, L, Nobile-Orazio, E, Nowak, RJ, Osei-Bonsu, M, Pardo, J, Pelouto, F, Péréon, Y, Pulley, MT, Querol, L, Reddel, SW, van der Ree, T, Reisin, RC, Rinaldi, S, Ripellino, P, Roberts, RC, Rojas-Marcos, I, Roodbol, J, Rudnicki, SA, Sachs, GM, Samijn, JPA, Santoro, L, Savransky, A, Scheidegger, O, Schenone, A, Schwindling, L, Sedano Tous, MJ, Shahrizaila, N, Sheikh, KA, Silvestri, NJ, Sindrup, SH, Siokas, V, Sommer, CL, Stein, B, Stino, AM, Suichi, T, Tankisi, H, Thomma, RCM, Tsouni, P, Twydell, P, Varrato, JD, Verboon, JC, Verhamme, C, Vermeij, FH, Verschuuren, J, Visser, LH, Vytopil, MV, Waheed, W, Walgaard, C, Wang, YZ, Wiegers, EJA, Willison, HJ, Wirtz, PW, van Woerkom, M, Yamagishi, Y, Yoshikawa, K, Zhang, LL, Zhou, L & Zivkovic, SA 2025, 'Large-scale profiling of antibody reactivity to glycolipids in patients with Guillain-Barré syndrome', Brain, vol. 148, no. 11, pp. 4000-4015. https://doi.org/10.1093/brain/awaf102

TY - JOUR

T1 - Large-scale profiling of antibody reactivity to glycolipids in patients with Guillain-Barré syndrome

AU - Thomma, Robin C. M.

AU - Halstead, Susan K.

AU - de Koning, Laura C.

AU - Wiegers, Eveline J. A.

AU - Gourlay, Dawn S.

AU - Tio-Gillen, Anne P.

AU - van Rijs, Wouter

AU - Andersen, Henning

AU - Antonini, Giovanni

AU - Arends, Samuel

AU - Attarian, Shahram

AU - Barroso, Fabio A.

AU - Bateman, Kathleen J.

AU - Benedetti, Luana

AU - van den Bergh, Peter

AU - Bürmann, Jan

AU - Busby, Mark

AU - Casasnovas, Carlos

AU - Dardiotis, Efthimios

AU - Davidson, Amy

AU - Feasby, Thomas E.

AU - Fehmi, Janev

AU - Galassi, Giuliana

AU - Garcia-Sobrino, Tania

AU - Granit, Volkan

AU - Gutiérrez-Gutiérrez, Gerardo

AU - Hadden, Robert D. M.

AU - Harbo, Thomas

AU - Hartung, Hans-Peter

AU - Hasan, Imran

AU - Holt, James K. L.

AU - Islam, Zhahirul

AU - Karafiath, Summer

AU - Katzberg, Hans D.

AU - Kolb, Noah

AU - Kusunoki, Susumu

AU - Kuwabara, Satoshi

AU - Kuwahara, Motoi

AU - Lehmann, Helmar C.

AU - Leonhard, Sonja E.

AU - Martín-Aguilar, Lorena

AU - Monges, Soledad

AU - Nobile-Orazio, Eduardo

AU - Pardo, Julio

AU - Pereon, Yann

AU - Querol, Luis

AU - Reisin, Ricardo C.

AU - Rinaldi, Simon

AU - Ripellino, Paolo

AU - Roberts, Rhys C.

AU - Scheidegger, Olivier

AU - Shahrizaila, Nortina

AU - Sheikh, Kazim A.

AU - Silvestri, Nicholas J.

AU - Sindrup, Soren H.

AU - Stein, Beth

AU - Tan, Cheng Y.

AU - Tankisi, Hatice

AU - Visser, Leo H.

AU - Waheed, Waqar

AU - Huizinga, Ruth

AU - Jacobs, Bart C.

AU - Willison, Hugh J.

AU - Addington, J. M.

AU - Ajroud-Driss, S.

AU - Andersen, H.

AU - Antonini, G.

AU - Arends, S.

AU - Attarian, S.

AU - Badrising, U. A.

AU - Balducci, C.

AU - Barroso, F. A.

AU - Bateman, K.

AU - Bella, I. R.

AU - Benedetti, L.

AU - van den Berg, B.

AU - van den Bergh, P. Y. K.

AU - Bertorini, T. E.

AU - Bhavaraju-Sanka, R.

AU - Bozzano, F. M.

AU - Brannagan, T. H.

AU - Briani, C.

AU - Bürmann, J.

AU - Busby, M.

AU - Butterworth, S.

AU - Capodivento, G.

AU - Casasnovas, C.

AU - Cavaletti, G.

AU - Chao, C. C.

AU - Chen, S.

AU - Cisneros, E.

AU - Claeys, K. G.

AU - Conti, M. E.

AU - Cornblath, D. R.

AU - Cosgrove, J. S.

AU - Dalakas, M. C.

AU - van Damme, P.

AU - Dardiotis, E.

AU - Davidson, A.

AU - van Dijk, G. W.

AU - Dimachkie, M. M.

AU - Doets, A. Y.

AU - van Doorn, P. A.

AU - Echaniz-Laguna, A.

AU - Eftimov, F.

AU - Faber, C. G.

AU - Fazio, R.

AU - Feasby, T. E.

AU - Fehmi, J.

AU - Fernández-Travieso, J.

AU - Fokke, C.

AU - Fujioka, T.

AU - Fulgenzi, E. A.

AU - Galassi, G.

AU - Garcia-Sobrino, T.

AU - Garssen, M. P. J.

AU - Giannotta, C.

AU - Gijsbers, C. J.

AU - Gilchrist, J. M.

AU - Gilhuis, H. J.

AU - Goldstein, J. M.

AU - Gorson, K. C.

AU - Goyal, N. A.

AU - Granit, V.

AU - Grapperon, A. M.

AU - Guttiérrez-Guttiérrez, G.

AU - Gutman, L.

AU - Hadden, R. D. M.

AU - Harbo, T.

AU - Hartung, H. P.

AU - Hayat, S.

AU - Hendriks, R. A.

AU - Holbech, Jakob V.

AU - Holt, J. K. L.

AU - Hsieh, S. T.

AU - Htut, M.

AU - Hughes, R. A. C.

AU - Huizinga, R.

AU - Humm, A. M.

AU - Hundsberger, T.

AU - Islam, B.

AU - Islam, Z.

AU - Jacobs, B. C.

AU - Jahan, I.

AU - Jellema, K.

AU - Jericó Pascual, I.

AU - Kaida, K.

AU - Karafiath, S.

AU - Katzberg, H. D.

AU - Kerkhoff, H.

AU - Khoshnoodi, M. A.

AU - Kiers, L.

AU - Kokubun, N.

AU - Kolb, N. A.

AU - de Koning, L. C.

AU - van Koningsveld, R.

AU - van der Kooi, A. J.

AU - Kramers, J. C. H. M.

AU - Kuitwaard, K.

AU - Kuntzer, T.

AU - Kusunoki, S.

AU - Kuwabara, S.

AU - Kwan, J. Y.

AU - Ladha, S. S.

AU - Landschoff Lassen, L.

AU - Lascano, A. M.

AU - Lawson, V.

AU - Lehmann, H. C.

AU - Leonhard, S. E.

AU - Lleixa-Rodriguez, C.

AU - Luijten, L. W. G.

AU - Lunn, M. P. T.

AU - Magot, A.

AU - Manji, H.

AU - Marchesoni, C.

AU - Marfia, G. A.

AU - Márquez Infante, C.

AU - Martín-Aguilar, L.

AU - Martinez Hernandez, E.

AU - Mataluni, G.

AU - Mattiazi, M.

AU - McDermott, C. J.

AU - Meekins, G. D.

AU - Miller, J. A. L.

AU - Mohammad, Q. D.

AU - Monges, M. S.

AU - de la Prida, M. Morales

AU - de la Tassa, G. Morís

AU - Nair, P.

AU - Nascimbene, C.

AU - Nobbio, L.

AU - Nobile-Orazio, E.

AU - Nowak, R. J.

AU - Osei-Bonsu, M.

AU - Pardo, J.

AU - Pelouto, F.

AU - Péréon, Y.

AU - Pulley, M. T.

AU - Querol, L.

AU - Reddel, S. W.

AU - van der Ree, T.

AU - Reisin, R. C.

AU - Rinaldi, S.

AU - Ripellino, P.

AU - Roberts, R. C.

AU - Rojas-Marcos, I.

AU - Roodbol, J.

AU - Rudnicki, S. A.

AU - Sachs, G. M.

AU - Samijn, J. P. A.

AU - Santoro, L.

AU - Savransky, A.

AU - Scheidegger, O.

AU - Schenone, A.

AU - Schwindling, L.

AU - Sedano Tous, M. J.

AU - Shahrizaila, N.

AU - Sheikh, K. A.

AU - Silvestri, N. J.

AU - Sindrup, S. H.

AU - Siokas, V.

AU - Sommer, C. L.

AU - Stein, B.

AU - Stino, A. M.

AU - Suichi, T.

AU - Tankisi, H.

AU - Thomma, R. C. M.

AU - Tsouni, P.

AU - Twydell, P.

AU - Varrato, J. D.

AU - Verboon, J. C.

AU - Verhamme, C.

AU - Vermeij, F. H.

AU - Verschuuren, J.

AU - Visser, L. H.

AU - Vytopil, M. V.

AU - Waheed, W.

AU - Walgaard, C.

AU - Wang, Y. Z.

AU - Wiegers, E. J. A.

AU - Willison, H. J.

AU - Wirtz, P. W.

AU - van Woerkom, M.

AU - Yamagishi, Y.

AU - Yoshikawa, K.

AU - Zhang, L. L.

AU - Zhou, L.

AU - Zivkovic, S. A.

PY - 2025/11/1

Y1 - 2025/11/1

N2 - Guillain-Barré syndrome is an acute polyradiculoneuropathy in which preceding infections often elicit the production of antibodies that target peripheral nerve antigens, principally gangliosides. Anti-ganglioside antibodies are thought to play a key role in the clinical diversity of the disease and can be helpful in clinical practice. Extensive research into clinical associations of individual anti-ganglioside antibody specificities has been performed. Recent research has highlighted glycolipid complexes, glycolipid combinations that may alter antibody binding, as targets. In this study, we investigated antibody reactivity patterns to glycolipids and glycolipid complexes using combinatorial array, in relation to clinical features in Guillain-Barré syndrome. In total, 1413 patients from the observational International Guillain-Barré syndrome Outcome Study (0-91 years, 60.3% male) and 1061 controls (healthy, family, infectious, vaccination, other neurological disease) were included. Acute-phase sera from patients were screened for IgM, IgG, and IgA reactivity against 15 glycolipids and one phospholipid and their heteromeric complexes, similarly to archived control sera. Antibody specificities and reactivity patterns were analysed in relation to clinical features. Of all patients, 1309 (92.6%) were positive for at least one anti-glycolipid (complex) antibody. Anti-GM1 and anti-GQ1b (complex) antibodies best distinguished motor Guillain-Barré syndrome and Miller Fisher syndrome from controls, with antibodies to glycolipid complexes outperforming antibodies to single glycolipids. Three models consisting of anti-glycolipid (complex) antibodies distinguished patients with Guillain-Barré syndrome, the motor variant, and Miller Fisher syndrome from controls with high sensitivity and specificity, performing better than antibodies to single glycolipids used in clinical practice. Seven patient clusters with particular antibody reactivity patterns were identified. These clusters were distinguished by geographical region, clinical variants, preceding Campylobacter jejuni infection, electrophysiological subtypes, the Medical Research Council sum score at study entry, and the ability to walk 10m unaided at 26 weeks. Two patient clusters with distinct anti-GM1 (complex) reactivity (broad versus restricted) differed in frequency of the axonal subtype. In cumulative incidence analyses, 15 anti-glycolipid (complex) antibodies were associated with the time required to regain the ability to walk 10m unaided. After adjustment for known prognostic factors, IgG anti-GQ1b:GM4, GQ1b:PS and GQ1b:Sulfatide remained associated with faster recovery. Addition of anti-glycolipid antibodies to clinical prognostic models slightly improved their discriminative capacity, though insufficiently to improve the models. Measurement of anti-glycolipid antibodies by combinatorial array increases the diagnostic yield compared to assaying single glycolipids, identifies clinically relevant antibody reactivity patterns to glycolipids and glycolipid complexes, and may be useful in outcome prediction in Guillain-Barré syndrome.

AB - Guillain-Barré syndrome is an acute polyradiculoneuropathy in which preceding infections often elicit the production of antibodies that target peripheral nerve antigens, principally gangliosides. Anti-ganglioside antibodies are thought to play a key role in the clinical diversity of the disease and can be helpful in clinical practice. Extensive research into clinical associations of individual anti-ganglioside antibody specificities has been performed. Recent research has highlighted glycolipid complexes, glycolipid combinations that may alter antibody binding, as targets. In this study, we investigated antibody reactivity patterns to glycolipids and glycolipid complexes using combinatorial array, in relation to clinical features in Guillain-Barré syndrome. In total, 1413 patients from the observational International Guillain-Barré syndrome Outcome Study (0-91 years, 60.3% male) and 1061 controls (healthy, family, infectious, vaccination, other neurological disease) were included. Acute-phase sera from patients were screened for IgM, IgG, and IgA reactivity against 15 glycolipids and one phospholipid and their heteromeric complexes, similarly to archived control sera. Antibody specificities and reactivity patterns were analysed in relation to clinical features. Of all patients, 1309 (92.6%) were positive for at least one anti-glycolipid (complex) antibody. Anti-GM1 and anti-GQ1b (complex) antibodies best distinguished motor Guillain-Barré syndrome and Miller Fisher syndrome from controls, with antibodies to glycolipid complexes outperforming antibodies to single glycolipids. Three models consisting of anti-glycolipid (complex) antibodies distinguished patients with Guillain-Barré syndrome, the motor variant, and Miller Fisher syndrome from controls with high sensitivity and specificity, performing better than antibodies to single glycolipids used in clinical practice. Seven patient clusters with particular antibody reactivity patterns were identified. These clusters were distinguished by geographical region, clinical variants, preceding Campylobacter jejuni infection, electrophysiological subtypes, the Medical Research Council sum score at study entry, and the ability to walk 10m unaided at 26 weeks. Two patient clusters with distinct anti-GM1 (complex) reactivity (broad versus restricted) differed in frequency of the axonal subtype. In cumulative incidence analyses, 15 anti-glycolipid (complex) antibodies were associated with the time required to regain the ability to walk 10m unaided. After adjustment for known prognostic factors, IgG anti-GQ1b:GM4, GQ1b:PS and GQ1b:Sulfatide remained associated with faster recovery. Addition of anti-glycolipid antibodies to clinical prognostic models slightly improved their discriminative capacity, though insufficiently to improve the models. Measurement of anti-glycolipid antibodies by combinatorial array increases the diagnostic yield compared to assaying single glycolipids, identifies clinically relevant antibody reactivity patterns to glycolipids and glycolipid complexes, and may be useful in outcome prediction in Guillain-Barré syndrome.

KW - autoantibody

KW - peripheral neuropathy

UR - https://www.scopus.com/pages/publications/105021047791

U2 - 10.1093/brain/awaf102

DO - 10.1093/brain/awaf102

M3 - Article

C2 - 40096525

SN - 0006-8950

VL - 148

SP - 4000

EP - 4015

JO - Brain

JF - Brain

IS - 11

ER -

Large-scale profiling of antibody reactivity to glycolipids in patients with Guillain-Barré syndrome

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