Abstract
Multiple Sclerosis (MS) is an inflammatory demyelinating disease of the central nervous system (CNS) where pathology is thought to be regulated by autoreactive T cells of the Th1 and Th17 phenotype. In this study we sought to understand the functions of Presenilin 1 (PSEN1) in regulating T cell effector responses in the experimental autoimmune encephalomyelitis (EAE) murine model of MS. PSEN1 is the catalytic subunit of γ-secretase a multimolecular protease that mediates intramembranous proteolysis. γ-secretase is known to regulate several pathways of immune importance. Here we examine the effects of disrupting PSEN1 functions on EAE and T effector differentiation using small molecule inhibitors of γ-secretase (GSI) and T cell-specific conditional knockout mice (PSEN1 cKO). Surprisingly, blocking PSEN1 function by GSI treatment or PSEN1 cKO had little effect on the development or course of MOG35-55-induced EAE. In vivo GSI administration reduced the number of myelin antigen-specific T cells and suppressed Th1 and Th17 differentiation following immunization. In vitro, GSI treatment inhibited Th1 differentiation in neutral but not IL-12 polarizing conditions. Th17 differentiation was also suppressed by the presence of GSI in all conditions and GSI-treated Th17 T cells failed to induce EAE following adoptive transfer. PSEN cKO T cells showed reduced Th1 and Th17 differentiation. We conclude that γ-secretase and PSEN1-dependent signals are involved in T effector responses in vivo and potently regulate T effector differentiation in vitro, however, they are dispensable for EAE.
Highlights
Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disorder of the central nervous system (CNS)
We tested the effects of administering Dibenzazepine (DBZ), a potent GSI [45] that has been shown to inhibit γ-secretase function in the CNS [46]
This project was designed to test the effects of disrupting Presenilin 1 (PSEN1)-dependent γ-secretase in regulating autoimmune T cell responses in MOG35-55 induced EAE
Summary
Multiple sclerosis (MS) is an inflammatory, demyelinating and neurodegenerative disorder of the central nervous system (CNS). It is thought that myelin-specific autoimmune T cells are important contributors to the CNS pathology (reviewed in [1, 2]). T cells with a Th1 or Th17 phenotypes have been associated with disease [4,5,6,7,8]. EAE has been extensively utilized to study the functions of T cells in regulating inflammation in the CNS. The generation of disability in EAE is associated with myelin-reactive T cells that produce IFNγ, IL-17 and GM-CSF [9,10,11,12,13,14]. T cells with a regulatory (Treg) phenotype are thought to negatively impact disease and promote homeostasis in EAE [15, 16]. There is an effort to define pathways that modify the generation of pathogenic T effector cells while promoting the function of anti-inflammatory Treg cells
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