Abstract
The dual specific phosphatase, MAP kinase phosphatase-2 (MKP-2) has recently been demonstrated to negatively regulate macrophage arginase-1 expression, while at the same time to positively regulate iNOS expression. Consequently, MKP-2 is likely to play a significant role in the host interplay with intracellular pathogens. Here we demonstrate that MKP-2−/− mice on the C57BL/6 background have enhanced susceptibility compared with wild-type counterparts following infection with type-2 strains of Toxoplasma gondii as measured by increased parasite multiplication during acute infection, increased mortality from day 12 post-infection onwards and increased parasite burdens in the brain, day 30 post-infection. MKP-2−/− mice did not, however, demonstrate defective type-1 responses compared with MKP-2+/+ mice following infection although they did display significantly reduced serum nitrite levels and enhanced tissue arginase-1 expression. Early resistance to T. gondii in MKP-2+/+, but not MKP-2−/−, mice was nitric oxide (NO) dependent as infected MKP-2+/+, but not MKP-2−/− mice succumbed within 10 days post-infection with increased parasite burdens following treatment with the iNOS inhibitor L-NAME. Conversely, treatment of infected MKP-2−/− but not MKP-2+/+ mice with nor-NOHA increased parasite burdens indicating a protective role for arginase-1 in MKP-2−/− mice. In vitro studies using tachyzoite-infected bone marrow derived macrophages and selective inhibition of arginase-1 and iNOS activities confirmed that both iNOS and arginase-1 contributed to inhibiting parasite replication. However, the effects of arginase-1 were transient and ultimately the role of iNOS was paramount in facilitating long-term inhibition of parasite multiplication within macrophages.
Highlights
Toxoplasma gondii is an obligate intracellular protozoan parasite of significant public health importance, being a major cause of congenital infection and abortion as well as a significant and often fatal infection in immune compromised hosts
We have recently shown MAP kinase phosphatase2 (MKP-2) to increase inducible nitric oxide synthase (iNOS) and decrease arginase-1 levels and mice lacking this gene were found to be more susceptible to T. gondii
Inhibition of iNOS activity in genetically intact mice demonstrated it was of paramount importance in controlling parasite growth
Summary
Toxoplasma gondii is an obligate intracellular protozoan parasite of significant public health importance, being a major cause of congenital infection and abortion as well as a significant and often fatal infection in immune compromised hosts. The rapid onset of immunity, initiated in large part by the well characterized T. gondii pathogen associated molecular patterns (PAMPS) controls parasite replication [1,2,3,4], and results in the life-long chronic stage of infection associated with encystment of the parasites in skeletal muscle and the central nervous system [reviewed in 5]. Protection against acute disease is mediated primarily by the interaction of neutrophils, dendritic cells, macrophages and natural killer (NK) cells that as part of the innate response limits parasite growth, but initiates an effective cytotoxic CD8+ T cell response that is responsible for long-term protection and prevention of encephalitis via IFN-c production [6,7,8,9]. Several IFNc-regulated genes including iNOS [6,10], indoleamine 2,3 dioxygenase (IDO) [11,12], and more recently, p47 GTPases, have been implicated in playing significant roles in mediating these protective responses [13,14,15,16,17,18,19,20,21]
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