Arginase and autoimmune inflammation in the central nervous system

Using a high throughput gene microarray technology that detects similar to22 000 genes, we found that arginase I was the most significantly up-regulated gene in the murine spinal cord during experimental autoimmune encephalomyelitis (EAE). By Northern blot and arginase enzyme assay, we detected high levels of arginase I mRNA and protein, respectively, in the spinal cord of EAE mice, but not in the spinal cord of normal mice or mice that had recovered from EAE. In vitro, both microglia and astrocytes produced arginase and nitric oxide synthase, two enzymes that are involved in arginine metabolism. To explore the roles of arginase in EAE, we injected the arginase inhibitor amino-6-boronohexanoic acid (ABH) into mice during the inductive and effector phases of the disease. Compared with mice that received vehicle control, mice treated with ABH developed milder EAE with delayed onset, reduced disease score and expedited recovery. Spleen mononuclear cells from ABH-treated mice produced more nitric oxide and secreted less interferon-gamma and tumour necrosis factor-a as compared to control mice. These results indicate that arginase plays important roles in autoimmune inflammation in the central nervous system.