Aberrant Complement Activation Is Associated With Structural Brain Damage in Multiple Sclerosis.
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BORIS DOI
Date of Publication
March 2025
Publication Type
Article
Division/Institute
Contributor
Oechtering, Johanna | |
Schaedelin, Sabine Anna | |
Stein, Kerstin | |
Maleska Maceski, Aleksandra | |
Benkert, Pascal | |
Cagol, Alessandro | |
Leber, Selina | |
Galbusera, Riccardo | |
Ruberte, Esther | |
Hu, Wayne | |
Qureshi, Ferhan | |
Orleth, Annette | |
Demuth, Lilian | |
Willemse, Eline | |
Heijnen, Ingmar | |
Regeniter, Axel | |
Derfuss, Tobias J | |
Fischer-Barnicol, Bettina | |
Achtnichts, Lutz | |
Mueller, Stefanie | |
Lalive, Patrice H | |
Bridel, Claire | |
D'Souza, Marcus | |
Pot, Caroline | |
Du Pasquier, Renaud A | |
Gobbi, Claudio | |
Zecca, Chiara | |
Wiendl, Heinz | |
Lieb, Johanna Maria | |
Lamers, Christina | |
Trendelenburg, Marten | |
Leppert, David | |
Granziera, Cristina | |
Kuhle, Jens | |
Lünemann, Jan D |
Subject(s)
Series
Neurology, Neuroimmunology and Neuroinflammation
ISSN or ISBN (if monograph)
2332-7812
Publisher
Lippincott, Williams & Wilkins
Language
English
Publisher DOI
PubMed ID
39752618
Description
Background And Objectives
Levels of activated complement proteins in the CSF are increased in people with multiple sclerosis (MS) and are associated with clinical disease severity. In this study, we determined whether complement activation profiles track with quantitative MRI metrics and liquid biomarkers indicative of disease activity and progression.
Methods
Complement components and activation products (Factor H and I, C1q, C3, C4, C5, Ba, Bb, C3a, C4a, C5a, and sC5b-9) and liquid biomarkers (neurofilament light chain, glial fibrillary acidic protein [GFAP], CXCL-13, CXCL-9, and IL-12b) were quantified in the CSF of 112 patients with clinically isolated syndromes and 127 patients with MS; longitudinal MRIs according to a standardized protocol of the Swiss MS cohort were assessed. We used multivariable models to analyze associations of the 12 complement parameters as individual independent variables and longitudinal brain volumes, T2-weighted (T2w) lesion volumes, contrast-enhancing (CELs) and paramagnetic rim lesions (PRLs), and molecular biomarkers as dependent variables, respectively.
Results
Strongest associations with accelerated brain atrophy were found for C4a: doubling of C4a CSF levels was associated with an additional brain volume loss of -0.24% (95% CI -0.31% to -0.16%; p < 0.0001) per year, followed by Ba and C3a (-0.22% [-0.29% to -0.15%]) and -0.13% ([-0.21 to -0.06]; both p < 0.001). Doubling of C3a, Ba, and C4a levels correlated with 2.2- (1.6-3.0; p < 0.0001), 2.0- (1.3-3.1; p = 0.0038), and 1.8-fold (1.2-2.6; p = 0.0029) increased longitudinal T2w lesion volumes; C3a and Ba were associated with 2.5- (1.4-4.6; p = 0.0022) and 3.3-fold (1.5-7.2; p = 0.0024) higher odds for CELs and 2.6- (1.7-4.0; p < 0.0001) and 2.3-fold (1.3-4.3; p = 0.006) increased PRL incidence rates. C1q, C3a, and C4a were associated with higher GFAP levels, and CXCL-13, CXCL-9, and IL-12b analyses showed consistent patterns with strongest associations for C1q, followed by Ba, C3a, and C4a.
Discussion
Intrathecal complement activation is consistently associated with MRI metrics and liquid biomarkers indicative for MS disease activity and progression. Our results demonstrate that aberrant complement activation is strongly associated with structural brain damage in MS. Therapeutic targeting of the complement system might limit disability accumulation due to MS.
Levels of activated complement proteins in the CSF are increased in people with multiple sclerosis (MS) and are associated with clinical disease severity. In this study, we determined whether complement activation profiles track with quantitative MRI metrics and liquid biomarkers indicative of disease activity and progression.
Methods
Complement components and activation products (Factor H and I, C1q, C3, C4, C5, Ba, Bb, C3a, C4a, C5a, and sC5b-9) and liquid biomarkers (neurofilament light chain, glial fibrillary acidic protein [GFAP], CXCL-13, CXCL-9, and IL-12b) were quantified in the CSF of 112 patients with clinically isolated syndromes and 127 patients with MS; longitudinal MRIs according to a standardized protocol of the Swiss MS cohort were assessed. We used multivariable models to analyze associations of the 12 complement parameters as individual independent variables and longitudinal brain volumes, T2-weighted (T2w) lesion volumes, contrast-enhancing (CELs) and paramagnetic rim lesions (PRLs), and molecular biomarkers as dependent variables, respectively.
Results
Strongest associations with accelerated brain atrophy were found for C4a: doubling of C4a CSF levels was associated with an additional brain volume loss of -0.24% (95% CI -0.31% to -0.16%; p < 0.0001) per year, followed by Ba and C3a (-0.22% [-0.29% to -0.15%]) and -0.13% ([-0.21 to -0.06]; both p < 0.001). Doubling of C3a, Ba, and C4a levels correlated with 2.2- (1.6-3.0; p < 0.0001), 2.0- (1.3-3.1; p = 0.0038), and 1.8-fold (1.2-2.6; p = 0.0029) increased longitudinal T2w lesion volumes; C3a and Ba were associated with 2.5- (1.4-4.6; p = 0.0022) and 3.3-fold (1.5-7.2; p = 0.0024) higher odds for CELs and 2.6- (1.7-4.0; p < 0.0001) and 2.3-fold (1.3-4.3; p = 0.006) increased PRL incidence rates. C1q, C3a, and C4a were associated with higher GFAP levels, and CXCL-13, CXCL-9, and IL-12b analyses showed consistent patterns with strongest associations for C1q, followed by Ba, C3a, and C4a.
Discussion
Intrathecal complement activation is consistently associated with MRI metrics and liquid biomarkers indicative for MS disease activity and progression. Our results demonstrate that aberrant complement activation is strongly associated with structural brain damage in MS. Therapeutic targeting of the complement system might limit disability accumulation due to MS.
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| oechtering-et-al-2025-aberrant-complement-activation-is-associated-with-structural-brain-damage-in-multiple-sclerosis.pdf | text | Adobe PDF | 510.81 KB | Attribution-NonCommercial-NoDerivatives (CC BY-NC-ND 4.0) | published |