Tumor necrosis factor receptor 2 promotes neuroprotection during chronic autoimmune neuroinflammation

Abstract

Abstract Multiple sclerosis (MS) is an inflammatory autoimmune disorder affecting the central nervous system (CNS) which affects over 400,000 Americans and over 2.5 million people worldwide. Although most patients are initially diagnosed with relapsing-remitting MS, the majority of these patients later develop a chronic-progressive form of MS, for which there is no well-established mouse model. The most common genetic factor associated with MS susceptibility is the Human Leukocyte Antigen (HLA)-DR2b haplotype. Additionally, studies in the experimental autoimmune encephalomyelitis (EAE) mouse model of MS, showed that lack of TNF signaling through its receptor TNFR2 leads to disease exacerbation and severe demyelination. Here, we developed a mouse model which expresses HLA-DR2b and lacks TNFR2, designated DR2bΔR2. Strikingly, DR2bΔR2 mice develop progressive EAE with pathology and clinical features observed in progressive MS patients. Adoptive transfer studies revealed that the clinical phenotype of EAE in DR2bΔR2 mice are largely dependent on TNFR2 expression in the CNS. Subsequently, we showed that DR2bΔR2 mice have a significant increase of lesions in the cerebellum, associated with reduced of oligodendrocyte progenitor cells (OPC) recruitment or function. Moreover, we showed that DR2bΔR2 mice are presented with chronic astrogliosis in demyelinating lesions. Our studies provide key insights into CNS repair and regulatory mechanisms controlled by TNFR2 during neuroinflammation and provide novel therapeutic strategies for treating progressive MS.