Demyelination caused by the copper chelator cuprizone halts T cell mediated autoimmune neuroinflammation

Mana, Paula; Fordham, Susan; Staykova, Maria; Correcha, Manuel; Silva, Diego; Willenborg, D; Linares, David

Demyelination caused by the copper chelator cuprizone halts T cell mediated autoimmune neuroinflammation

Date

2009

Authors

Mana, Paula

Fordham, Susan

Staykova, Maria

Correcha, Manuel

Silva, Diego

Willenborg, D

Linares, David

Publisher

Elsevier

Abstract

Myelin reactive T cells are central in the development of the autoimmune response leading to CNS destruction in Multiple Sclerosis and Experimental Autoimmune Encephalomyelitis (EAE). Investigations on the mechanisms underlying the activation and expansion of myelin reactive T have stressed the importance of non-autoimmune conditions impinging the autoimmune repertoire potentially involved in the disease. Here, we show that CNS injury caused by the toxic cuprizone results in the generation of immunoreactivity towards several myelin components. Paradoxically, exposure to CNS injury does not increase the susceptibility to develop EAE, but render mice protected to the pathogenic autoimmune response against myelin antigens.