Tadashi Matsuura scite author profile

Production of nitric oxide by macrophages is believed to be an important microbicidal mechanism for a variety of intracellular pathogens, including Toxoplasma gondii. Mice with a targeted disruption of the inducible nitric oxide synthase gene (iNOS) were infected orally with T. gondii tissue cysts. Time to death was prolonged compared with parental controls. Histologic analysis of tissue from infected mice showed scattered small foci of inf lammation with parasites in various tissues of iNOS؊͞؊ mice, whereas tissue from the parental C57BL͞6 mice had more extensive tissue inf lammation with few visible parasites. In particular, extensive ulceration and necrosis of distal small intestine and fatty degeneration of the liver was seen in the parental mice at day 7 postinfection, as compared with the iNOS؊͞؊ mice where these tissues appeared normal. Serum interferon ␥ and tumor necrosis factor ␣ levels postinfection were equally elevated in both mouse strains. Treatment of the parental mice with a NO synthase inhibitor, aminoguanidine, prevented early death in these mice as well as the hepatic degeneration and small bowel necrosis seen in acutely infected control parentals. These findings indicate that NO production during acute infection with T. gondii can kill intracellular parasites but can be detrimental, even lethal, to the host.

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IL‐10 mediates immunosuppression following primary infection with Toxoplasma gondii in mice

Khan

Matsuura

Kasper

1995

Parasite Immunology

103

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Suppression of the host immune response by Toxoplasma gondii has been observed in both human and experimental murine infection. In this study, inbred mice were infected with T. gondii. At day 7 post-infection, the lymphoproliferative response to both mitogen and superantigen as well as parasite antigen were found to be significantly depressed. Using a transwell system, it was determined that the reduced proliferative response was due to soluble factor(s) being expressed by splenocytes from the infected mice. Isolation of the splenocytes into an adherent and nonadherent population suggested that both macrophages and T cells were able to produce at least one soluble factor. Tissue culture supernatant derived from the splenocytes of the infected mice contain increased levels of IL-10, whereas measurable IL-2 levels could not be quantitated. At day 7 post-infection, both a biologic assay for IFN-gamma in culture supernatant and the expression of IFN-gamma mRNA in the splenocytes were reduced. Antibody to IL-10 was able to partially neutralize (almost 50%) the in vitro immune downregulation of the tissue culture supernatant. Anti-IL-10 in combination with a nitric oxide (NO) antagonist was able to reverse the inhibitory activity of the culture supernatant by 85%. Since IL-10 is a potent antagonist of IFN-gamma, it may represent a critical cytokine involved in mediating T. gondii induced immunosuppression in the infected host.

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Activation–mediated CD4⁺ T cell unresponsiveness during acute Toxoplasma gondii infection in mice

Khan¹,

Matsuura²,

Kasper³

1996

Int Immunol

100

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Infection of mice with Toxoplasma gondii has been shown to induce a transient state of immune down-regulation. Earlier reports have demonstrated the role of cytokines, in particular IL-10, in this host response. Here evidence is presented that T. gondii, a major opportunistic pathogen of the newborn and those with AIDS, is able to induce CD4(+) T cell apoptosis in the infected murine host. We have examined the changes in the CD4(+) T cell population that occur during acute infection in an experimental mouse model. Seventy-six percent of the CD4(+) T cell population increased in volume by day 7 post-infection and expressed T cell maturation markers (CD44(hi), IL-2Rhi, Mel-14(lo)). Further noted was a clonal activation of several CD4(+) T cell to mitogen or parasite antigen stimulation was observed, in particular Vbeta5 T cells. Addition of rIL-2 partially restored the CD4(+) T cell proliferative response in vitro. The T cell activation marker CTLA-4 could not be detected and the co-stimulatory molecule, CD28, was down-regulated. Electrophoretic and morphologic analysis of these cells post-culture demonstrated a DNA fragmentation pattern and cell death consistent with apoptosis. These studies demonstrate for the first time in a protozoan parasite that activation induced CD4(+) T cell unresponsiveness occurs during acute T. gondii infection in mice, and may be important in immune down-regulation and parasite persistence in the infected host.

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Interleukin-12 enhances murine survival against acute toxoplasmosis

1994

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Protective immunity against Toxoplasma gondii is mediated by the host cellular immune response. Interleukin-12 (IL-12), a recently described cytokine that stimulates NK cells to produce gamma interferon (IFN-y), is able to enhance host protection against this parasite in SCID mice. Administration of IL-12 to A/J mice significantly increased survival over that of control mice when IL-12 was delivered early in the course of acute infection. If it was administered at day 3 or thereafter, there was no observed difference in mortality between treated and control mice. Antibody depletion of IL-12 increased susceptibility to infection, as measured by mortality, only when the IL-12 was administered before day 3 postinfection. Mice treated with IL-12 at day 0 postinfection exhibited a significant rise above the control in both IL-2 and IFN-y production. Once infection has been established in the host (3 days), administration of exogenous IL-12 is unable to alter parasite-induced downregulation of IFN-y production. Thus, IL-12 appears to play an important, but transitory, role in protection against acute infection with T. gondii in the normal murine host.

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Improved Performance of the Fourth-Generation FloTrac/Vigileo System for Tracking Cardiac Output Changes

Suehiro

Tanaka

Mikawa

et al. 2015

Journal of Cardiothoracic and Vascular Anesthesia

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