CCN3 is dynamically regulated bytreatment and disease state in multiplesclerosis
2020
Background: Multiple sclerosis (MS) is an immune-mediated disease that damages myelin in the central nervous
system (CNS). We investigated the profile of CCN3, a known regulator of immune function and a potential mediator
of myelin regeneration, in multiple sclerosis in the context of disease state and disease-modifying treatment.
Methods: CCN3 expression was analysed in plasma, immune cells, CSF and brain tissue of MS patient groups and
control subjects by ELISA, western blot, qPCR, histology and in situ hybridization.
Results: Plasma CCN3 levels were comparable between collective MS cohorts and controls but were significantly
higher in progressive versus relapsing-remitting MS and between patients on interferon-β versus natalizumab.
Higher body mass index was associated with higher CCN3 levels in controls as reported previously, but this
correlation was absent in MS patients. A significant positive correlation was found between CCN3 levels in matched
plasma and CSF of MS patients which was absent in a comparator group of idiopathic intracranial hypertension
patients. PBMCs and CD4+ T cells significantly upregulated CCN3 mRNA in MS patients versus controls. In the CNS,
CCN3 was detected in neurons, astrocytes and blood vessels. Although overall levels of area immunoreactivity were
comparable between non-affected, demyelinated and remyelinated tissue, the profile of expression varied
dramatically.
Conclusions: This investigation provides the first comprehensive profile of CCN3 expression in MS and provides
rationale to determine if CCN3 contributes to neuroimmunological functions in the CNS.
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