Ruth Schneider1, Barbara Bellenberg2, Barbara Gisevius2, Sarah Hirschberg2, Roman Sankowski2, Marco Prinz2, Ralf Gold2, Carsten Lukas2, Aiden Haghikia2. 1. From the Department of Neurology (R. Schneider, B.G., S.H., R.G., A.H.), Institute of Neuroradiology (R. Schneider, B.B., C.L.), and Department of Radiology and Nuclear Medicine (C.L.), St. Josef Hospital, Ruhr University Bochum; Institute of Neuropathology (R. Sankowski, M.P.), Medical Faculty, Signalling Research Centers BIOSS and CIBSS (M.P.), and Center for Basics in NeuroModulation (NeuroModulBasics) (M.P.), Faculty of Medicine, University of Freiburg, Germany. ruth.schneider@rub.de. 2. From the Department of Neurology (R. Schneider, B.G., S.H., R.G., A.H.), Institute of Neuroradiology (R. Schneider, B.B., C.L.), and Department of Radiology and Nuclear Medicine (C.L.), St. Josef Hospital, Ruhr University Bochum; Institute of Neuropathology (R. Sankowski, M.P.), Medical Faculty, Signalling Research Centers BIOSS and CIBSS (M.P.), and Center for Basics in NeuroModulation (NeuroModulBasics) (M.P.), Faculty of Medicine, University of Freiburg, Germany.
Abstract
OBJECTIVE: To investigate cross-sectional associations of CSF levels of neurofilament light chain (NfL) and of the newly emerging marker chitinase 3-like protein 1 (CHI3L1) with brain and spinal cord atrophy, which are established MRI markers of disease activity in MS, to study CHI3L1 and NfL in relapsing (RMS) and progressive MS (PMS), and to assess the expression of CHI3L1 in different cell types. METHODS: In a single-center study, 131 patients with MS (42 RMS and 89 PMS) were assessed for NfL and CHI3L1 concentrations in CSF, MRI-based spinal cord and brain volumetry, MS subtype, age, disease duration, and disability. We included 42 matched healthy controls receiving MRI. CHI3L1 expression of human brain cell types was examined in 2 published single-cell RNA sequencing data sets. RESULTS: CHI3L1 was associated with spinal cord volume (B = -1.07, 95% CI -2.04 to -0.11, p = 0.029) but not with brain volumes. NfL was associated with brain gray matter (B = -7.3, 95% CI -12.0 to -2.7, p = 0.003) but not with spinal cord volume. CHI3L1 was suitable to differentiate between progressive or relapsing MS (p = 0.015, OR 1.0103, CI for OR 1.002-1.0187), and its gene expression was found in MS-associated microglia and macrophages and in astrocytes of MS brains. CONCLUSIONS: NfL and CHI3L1 in CSF were differentially related to brain and spinal cord atrophy. CSF CHI3L1 was associated with spinal cord volume loss and was less affected than NfL by disease duration and age, whereas CSF NfL was associated with brain gray matter atrophy. CSF NfL and CHI3L1 measurement provides complementary information regarding brain and spinal cord volumes. CLASSIFICATION OF EVIDENCE: This study provides Class II evidence that CSF CHI3L1 is associated with spinal cord volume loss and that CSF NfL is associated with gray matter atrophy.
OBJECTIVE: To investigate cross-sectional associations of CSF levels of neurofilament light chain (NfL) and of the newly emerging marker chitinase 3-like protein 1 (CHI3L1) with brain and spinal cord atrophy, which are established MRI markers of disease activity in MS, to study CHI3L1 and NfL in relapsing (RMS) and progressive MS (PMS), and to assess the expression of CHI3L1 in different cell types. METHODS: In a single-center study, 131 patients with MS (42 RMS and 89 PMS) were assessed for NfL and CHI3L1 concentrations in CSF, MRI-based spinal cord and brain volumetry, MS subtype, age, disease duration, and disability. We included 42 matched healthy controls receiving MRI. CHI3L1 expression of human brain cell types was examined in 2 published single-cell RNA sequencing data sets. RESULTS:CHI3L1 was associated with spinal cord volume (B = -1.07, 95% CI -2.04 to -0.11, p = 0.029) but not with brain volumes. NfL was associated with brain gray matter (B = -7.3, 95% CI -12.0 to -2.7, p = 0.003) but not with spinal cord volume. CHI3L1 was suitable to differentiate between progressive or relapsing MS (p = 0.015, OR 1.0103, CI for OR 1.002-1.0187), and its gene expression was found in MS-associated microglia and macrophages and in astrocytes of MS brains. CONCLUSIONS:NfL and CHI3L1 in CSF were differentially related to brain and spinal cord atrophy. CSFCHI3L1 was associated with spinal cord volume loss and was less affected than NfL by disease duration and age, whereas CSFNfL was associated with brain gray matter atrophy. CSFNfL and CHI3L1 measurement provides complementary information regarding brain and spinal cord volumes. CLASSIFICATION OF EVIDENCE: This study provides Class II evidence that CSFCHI3L1 is associated with spinal cord volume loss and that CSFNfL is associated with gray matter atrophy.
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