Targeting "bad" B cells in multiple sclerosis: Could laquinimod be part of the armamentarium?

Laquinimod is an orally available quinoline 3carboxamide derivative drug studied in phase II and III clinical trials for relapsing-remitting multiple sclerosis (RRMS), systemic lupus erythematosus, and Crohn disease. Laquinimod has shown promise in RRMS clinical trials, and identifying the mechanism underlying its disease-modifying effects could help target it to the patient population where it would be most effective. Studies in experimental autoimmune encephalomyelitis (EAE) models of multiple sclerosis (MS) have suggested that the drug may ameliorate disease by modulating innate and adaptive immune responses, for example via effects on macrophages/monocytes, dendritic cells (DCs), and T-helper (Th) cells. However, its key effector mechanisms and the cellular targets by which the drug ameliorates disease are still not fully resolved. The article by Varrin-Doyer et al. in this issue of Neurology® Neuroimmunology & Neuroinflammation sheds new light on this question and provides important insights that could be relevant for the treatment of MS. In elegant experiments, Varrin-Doyer et al. provide convincing evidence that treatment with laquinimod strongly ameliorates disease in 2 models of recombinant myelin oligodendrocyte glycoprotein (MOG)–induced EAE and spontaneous EAE in mice transgenic for a T-cell receptor specific for MOG3555 peptide and a MOG-specific immunoglobulin H chain knock-in (2D2 3 Th mice). In both of these models, the authors show that laquinimod treatment prevented the development of T-follicular-helper (Tfh) cells and decreased the production of MOG-specific immunoglobulinG antibodies. Interestingly, in a spontaneous model of EAE, associated with the formation of meningeal follicle-like structures that are populated by B and T cells, laquinimod therapy reduced the number and the size of these cellular aggregates. It is important to note that disease induced by recombinant MOG in this model is critically dependent on B cells and myelin antigen uptake via the B-cell receptor and presentation to autoimmune CD41 T cells. In contrast, simultaneous expression of a MOGspecific T-cell receptor and MOG-specific immunoglobulin H chain in the 2D2 3 Th mice leads to spontaneous disease replicating human neuromyelitis optica (NMO), and MOG-specific autoantibodies are pathognomonic in this condition. Thus, the results by Varrin-Doyer et al. show the efficacy of laquinimod in B-cell-driven EAE disease models with CNS pathology induced by different pathogenic effector mechanisms. The question to be asked then is how relevant is this observation for MS? B cells, one should recall, have moved in and out of the center of attention in the etiology of MS since the discovery of oligoclonal bands in the CSF of patients with MS in the 1940s. Obviously, a key role of B cells is the production of antibodies, and, consequently, detection of autoantibodies for diagnostic and prognostic purposes in patients with MS has been researched for many years. More recently, other functions of B cells have attracted attention that could account for their potential role in the etiology and pathogenesis of MS, which center on their antigen presentation and Tcell-activating properties, regulatory function (i.e., interleukin-10-producing regulatory B cells), and the enigmatic role of meningeal B-cell follicles. The rapid clinical improvement observed after B-cell depletion with rituximab and ocrelizumab in patients with MS supports the concept that B-cell functions besides antibody production may be important for modulating disease in RRMS, in particular since anti-CD20 therapy does not deplete long-living antibody-producing plasma cells, and therefore should have less of an immediate effect on potentially pathogenic autoantibodies. In contrast, the pathogenic role of autoantibodies in NMO is better established and supported by animal studies, such as spontaneous disease development in 2D2 3 Th transgenic mice. While the net effect of laquinimod in this study resulted in the impairment of the B-cell effector responses in the tested disease models, the logical next question is if this was due to direct effects of the drug on B cells, or whether this was indirectly achieved by modulating other cells. Along these lines, laquinimod inhibited