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* Department of Pharmacology, University of Sassari Medical School, Sassari, Italy;
Neuropharmacology, OASI Institute for Research and Care on Mental Retardation and Brain Aging, Troina, Italy;
Molecular Cell Biology, Vrije Universiteit Medical Center, Van der Boechorststraat, Amsterdam, The Netherlands;
Centre Hospitalier de l’Université Laval Research Center and Department of Anatomy and Physiology, Laval University, Quebec, Canada;
¶ Department of Neuroinflammation, Division of Neurosciences, Imperial College School of Medicine, London, United Kingdom; and
|| Department of Immunobiology, Biomedical Primate Research Center, Rijswijk, The Netherlands
Glucocorticoid (GC) hormones play a central role in the bidirectional communication between the neuroendocrine and the immune systems and exert, via GC receptors (GR), potent immunosuppressive and anti-inflammatory effects. In this study, we report that GR deficiency of transgenic mice expressing GR antisense RNA from early embryonic life has a dramatic impact in programming the susceptibility to experimental autoimmune encephalomyelitis (EAE), an animal model for multiple sclerosis. GR deficiency renders mice resistant to myelin oligodendrocyte glycoprotein-induced EAE, and such mice do not develop clinical or histological signs of disease compared with EAE-susceptible wild-type mice. Resistance to EAE in GR-deficient mice is associated not with endogenous GC levels, but with a significant reduction in spleen and lymph node cell proliferation. The use of NO inhibitors in vitro indicates that NO is the candidate immunosuppressor molecule. GR-deficient mice develop 3- to 6-fold higher nitrite levels in the periphery and are resistant to NO inhibition by GCs. Specific inhibition of NO production in vivo by treatment with the inducible NO synthase inhibitor, L-N6-(1-iminoethyl)-lysine, suppressed circulating nitrites, increased myelin oligodendrocyte glycoprotein-specific cell proliferation, and rendered GR-deficient mice susceptible to EAE. Thus, life-long GR deficiency triggers inducible NO synthase induction and NO generation with consequent down-regulation of effector cell proliferation. These findings identify a novel link among GR, NO, and EAE susceptibility and highlight NO as critical signaling molecule in bidirectional communication between the hypothalamic-pituitary-adrenocortical axis and the immune system.
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