E.M.E. Burudi scite author profile

One of the consequences of HIV infection is damage to the CNS. To characterize the virologic, immunologic, and functional factors involved in HIV-induced CNS disease, we analyzed the viral loads and T cell infiltrates in the brains of SIV-infected rhesus monkeys whose CNS function (sensory evoked potential) was impaired. Following infection, CNS evoked potentials were abnormal, indicating early CNS disease. Upon autopsy at 11 wk post-SIV inoculation, the brains of infected animals contained over 5-fold more CD8+ T cells than did uninfected controls. In both infected and uninfected groups, these CD8+ T cells presented distinct levels of activation markers (CD11a and CD95) at different sites: brain > CSF > spleen = blood > lymph nodes. The CD8+ cells obtained from the brains of infected monkeys expressed mRNA for cytolytic and proinflammatory molecules, such as granzymes A and B, perforin, and IFN-γ. Therefore, the neurological dysfunctions correlated with increased numbers of CD8+ T cells of an activated phenotype in the brain, suggesting that virus-host interactions contributed to the related CNS functional defects.

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Acute SIV infection of the brain leads to upregulation of IL6 and interferon-regulated genes: expression patterns throughout disease progression and impact on neuroAIDS

Roberts¹,

Burudi²,

Flynn³

et al. 2004

Journal of Neuroimmunology

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Identification and functional characterization of the mannose receptor in astrocytes

Burudi

Riese

Stahl

et al. 1999

Glia

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IFN‐γ‐induced IDO and WRS expression in microglia is differentially regulated by IL‐4

Yadav

Burudi

Alirezaei

et al. 2007

Glia

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Indoleamine 2,3-dioxygenase (IDO), a tryptophan catabolizing enzyme, has been implicated in the pathogenesis of various neurological disorders. IDO expression is induced by IFN-γ and leads to neurotoxicity by generating quinolinic acid. Additionally, it inhibits the immune response through both tryptophan depletion and generating other tryptophan catabolites. IL-4 and IL-13 have been shown to control IDO expression by antagonizing the effects of IFN-γ in different cell types. Here, we investigated the effects of these cytokines on IDO expression in microglia. Interestingly, we observed that both IL-4 and IL-13 greatly enhanced IFN-γ induced IDO expression. However, tryptophanyl-tRNA synthetase (WRS), which is coinduced with IDO by IFN-γ, is downregulated by IL-4 and IL-13. The effect of IL-4 and IL-13 was independent of STAT-6. Modulation of IDO but not WRS was eliminated by inhibition of protein phosphatase 2A (PP2A) activity. The phosphatidylinositol 3-kinase (PI3K) pathway further differentiated the regulation of these two enzymes, as inhibiting the PI3K pathway eliminated IFN-γ induction of IDO, whereas such inhibition greatly enhanced WRS expression. These findings show discordance between modulations of expression of two distinct enzymes utilizing tryptophan as a common substrate, and raise the possibility of their involvement in regulating immune responses in various neurological disorders.

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Regional and cellular expression of the mannose receptor in the post-natal developing mouse brain

Burudi

Régnier‐Vigouroux

2001

Cell and Tissue Research

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The mannose receptor, a glycoprotein expressed in a soluble and membrane form by macrophages, plays an important role in homeostasis and immunity. Using biochemical and immunohistochemical analyses, we demonstrate that this receptor, both in its soluble and membrane forms, is expressed in vivo in the post-natal murine brain and that its expression is developmentally regulated. Its expression is at its highest in the first week of life and dramatically decreases thereafter, being maintained at a low level throughout adulthood. The receptor is present in most brain regions at an early post-natal age, the site of the most intense expression being the meninges followed by the cerebral cortex, brain stem and the cerebellum. With age, expression of the mannose receptor is maintained in regions such as the cerebral cortex and the brain stem, whereas it disappears from others such as the hippocampus or the striatum. In healthy brain, no expression can be detected in oligodendrocytes, ependymal cells, endothelial cells or parenchymal microglia. The mannose receptor is expressed by perivascular macrophages/microglia and meningeal macrophages, where it might be important for the brain immune defence, and by two populations of endogenous brain cells, astrocytes and neurons. The developmentally dependent, regionally regulated expression of the mannose receptor in glial and neuronal cells strongly suggests that this receptor plays an important role in homeostasis during brain development and/or neuronal function.

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Simian immunodeficiency virus model of HIV induced central nervous system dysfunction

Burudi

Fox

2001

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Regulation of Indoleamine 2,3-Dioxygenase Expression in Simian Immunodeficiency Virus-Infected Monkey Brains

Burudi

Marcondes

Watry

et al. 2002

J Virol

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Pharmacokinetics of melarsoprol in uninfected vervet monkeys

Burri

Onyango²,

Auma³

et al. 1994

Acta Tropica

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E.M.E. Burudi

Highly Activated CD8+ T Cells in the Brain Correlate with Early Central Nervous System Dysfunction in Simian Immunodeficiency Virus Infection

Acute SIV infection of the brain leads to upregulation of IL6 and interferon-regulated genes: expression patterns throughout disease progression and impact on neuroAIDS

Identification and functional characterization of the mannose receptor in astrocytes

IFN‐γ‐induced IDO and WRS expression in microglia is differentially regulated by IL‐4

Regional and cellular expression of the mannose receptor in the post-natal developing mouse brain

Simian immunodeficiency virus model of HIV induced central nervous system dysfunction

Regulation of Indoleamine 2,3-Dioxygenase Expression in Simian Immunodeficiency Virus-Infected Monkey Brains

Pharmacokinetics of melarsoprol in uninfected vervet monkeys

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