Tissue Transglutaminase contributes to experimental multiple sclerosis pathogenesis and clinical outcome by promoting macrophage migration

In human post-mortem material, we showed the appearance of TG2 immunoreactivity in leukocytes in MS lesions, and particular in macrophages in rat chronic-relapsing experimental autoimmune encephalomyelitis (cr-EAE), an experimental MS model. Clinical deficits as observed in mouse EAE were reduced in TG2 knock-out mice compared to littermate wild-type mice, supporting a role of TG2 in EAE pathogenesis. To establish if the enzyme TG2 represents an attractive therapeutic target, cr-EAE rats were treated with TG2 activity inhibitors during ongoing disease. Reduction of TG2 activity in cr-EAE animals dramatically attenuated clinical deficits and demyelination. The mechanism underlying these beneficial effects pointed toward a reduction in macrophage migration into the CNS due to attenuated cytoskeletal flexibility and RhoA GTPase activity. Moreover, iNOS and TNFα levels were selectively reduced in the CNS of cr-EAE rats treated with a TG2 activity inhibitor, whereas other relevant inflammatory mediators were not affected in CNS or spleen by reducing TG2 activity. We conclude that modulating TG2 activity opens new avenues for therapeutic intervention in MS which does not affect peripheral levels of inflammatory mediators.