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4. Expression of excitatory amino acid transporter-1 (EAAT-1) in brain macrophages and microglia of patients with prion diseases

Author

Gwenaelle Le Pavec, Marie Bernadette Delisle, James W. Ironside, Françoise Gray, Anne Valérie Vallat-Decouvelaere, Christophe Créminon, Fabrice Chrétien, Pierluigi Gambetti, Piero Parchi, Dominique Dormont, Jacqueline Mikol, Gabriel Gras, Emmanuelle Uro-Coste, Chretien F., Le Pavec G., Vallat-Decouvelaere A.V., Delisle M.B., Uro-Coste E., Ironside J.W., Gambetti P., Parchi P., Creminon C., Dormont D., Mikol J., Gray F., and Gras G.

Subjects
Adult, Male, Amyloid, Heterozygote, Time Factors, Prions, Excitotoxicity, APOPTOSI, Biology, medicine.disease_cause, Insomnia, Fatal Familial, Severity of Illness Index, Neuroprotection, Creutzfeldt-Jakob Syndrome, Prion Proteins, Pathology and Forensic Medicine, MICROGLIA, Cellular and Molecular Neuroscience, Methionine, Degenerative disease, medicine, Humans, Protein Precursors, Child, Codon, Aged, Fatal familial insomnia, Microglia, Macrophages, Glutamate receptor, Brain, PRIONE, Valine, General Medicine, Middle Aged, medicine.disease, Excitatory Amino Acid Transporter 1, medicine.anatomical_structure, Neurology, EAAT-1, Case-Control Studies, Immunology, Neuroglia, Female, Neurology (clinical), IMMUNOISTOCHIMICA, Astrocyte
Abstract

The mechanisms of neuronal apoptosis in prion diseases are unclear. Experimental studies suggest that it may result from 2 associated mechanisms: glutamate-mediated excitotoxicity and oxidative stress. Recent studies showed that activated macrophages/microglia (AMM) express excitatory amino acid transporters (EAATs) in HIV infection, suggesting that they may play a neuroprotective role by clearing extra-cellular glutamate and producing anti-oxidant glutathione. In order to test this hypothesis in prion diseases, samples from cerebral cortex, striatum, thalamus, and cerebellum from 14 patients with Creutzfeldt-Jakob disease (8 sporadic, 2 familial, 2 iatrogenic, and 2 variant), and 4 with fatal familial insomnia (3 homozygous Met/Met at codon 129 of the PRNP gene, 1 heterozygous Met/Val), and 3 controls were immunostained for EAAT-1, GFAP, HLA-DR, CD68, IL-1, caspase 3, and PrP. In prion diseases, EAAT-1 immunopositivity was found in affected areas. Only AMM, interstitial, perivascular, perineuronal (sometimes around apoptotic neurons), or close to reactive astrocytes, expressed EAAT-1. Astrocyte EAAT-1 expression was scarcely detectable in controls and was not detected in prion disease cases. The proportion of AMM expressing EAAT-1 did not correlate with the severity of neuronal apoptosis, spongiosis, astrocytosis, microgliosis, or PrP deposition, but only with disease duration. Occasional EAAT-1 expressing AMM were found in patients with short survival, whereas diffuse EAAT-1 expression by AMM was observed in cases with long survival (24 to 33 months) that most often were heterozygous for Met/Val at codon 129 of the PRNP gene. Our findings suggest that AMM may develop a partial neuroprotective function in long-lasting prion diseases, although it does not seem to efficiently prevent neurological and neuropathological deterioration. Whether this neuroprotective function of microglia is the cause or the effect of longer survival needs to be clarified.

Published
2004

5. Ouabain and chloroquine trigger senolysis of BRAF-V600E-induced senescent cells by targeting autophagy.

Author

L'Hôte V, Courbeyrette R, Pinna G, Cintrat JC, Le Pavec G, Delaunay-Moisan A, Mann C, and Thuret JY

Subjects
Dose-Response Relationship, Drug, Humans, Proto-Oncogene Proteins B-raf genetics, Proto-Oncogene Proteins B-raf metabolism, Autophagy drug effects, Cellular Senescence drug effects, Chloroquine pharmacology, Ouabain pharmacology, Proto-Oncogene Proteins B-raf antagonists & inhibitors
Abstract

The expression of BRAF-V600E triggers oncogene-induced senescence in normal cells and is implicated in the development of several cancers including melanoma. Here, we report that cardioglycosides such as ouabain are potent senolytics in BRAF senescence. Sensitization by ATP1A1 knockdown and protection by supplemental potassium showed that senolysis by ouabain was mediated by the Na,K-ATPase pump. Both ion transport inhibition and signal transduction result from cardioglycosides binding to Na,K-ATPase. An inhibitor of the pump that does not trigger signaling was not senolytic despite blocking ion transport, demonstrating that signal transduction is required for senolysis. Ouabain triggered the activation of Src, p38, Akt, and Erk in BRAF-senescent cells, and signaling inhibitors prevented cell death. The expression of BRAF-V600E increased ER stress and autophagy in BRAF-senescent cells and sensitized the cell to senolysis by ouabain. Ouabain inhibited autophagy flux, which was restored by signaling inhibitors. Consequently, we identified autophagy inhibitor chloroquine as a novel senolytic in BRAF senescence based on the mode of action of cardioglycosides. Our work underlies the interest of characterizing the mechanisms of senolytics to discover novel compounds and identifies the endoplasmic reticulum stress-autophagy tandem as a new vulnerability in BRAF senescence that can be exploited for the development of further senolytic strategies., (© 2021 The Authors. Aging Cell published by Anatomical Society and John Wiley & Sons Ltd.)

Published
2021
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6. Physiologically relevant reconstitution of iron-sulfur cluster biosynthesis uncovers persulfide-processing functions of ferredoxin-2 and frataxin.

Author

Gervason S, Larkem D, Mansour AB, Botzanowski T, Müller CS, Pecqueur L, Le Pavec G, Delaunay-Moisan A, Brun O, Agramunt J, Grandas A, Fontecave M, Schünemann V, Cianférani S, Sizun C, Tolédano MB, and D'Autréaux B

Subjects
Carbon-Sulfur Lyases metabolism, Ferredoxins isolation & purification, Friedreich Ataxia pathology, Iron metabolism, Iron-Binding Proteins isolation & purification, Iron-Sulfur Proteins chemistry, Iron-Sulfur Proteins genetics, Mutagenesis, Site-Directed, Nuclear Magnetic Resonance, Biomolecular, Oxidation-Reduction, Proton Magnetic Resonance Spectroscopy, Recombinant Proteins genetics, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Zinc metabolism, Frataxin, Ferredoxins metabolism, Iron-Binding Proteins metabolism, Iron-Sulfur Proteins metabolism, Sulfides metabolism
Abstract

Iron-sulfur (Fe-S) clusters are essential protein cofactors whose biosynthetic defects lead to severe diseases among which is Friedreich's ataxia caused by impaired expression of frataxin (FXN). Fe-S clusters are biosynthesized on the scaffold protein ISCU, with cysteine desulfurase NFS1 providing sulfur as persulfide and ferredoxin FDX2 supplying electrons, in a process stimulated by FXN but not clearly understood. Here, we report the breakdown of this process, made possible by removing a zinc ion in ISCU that hinders iron insertion and promotes non-physiological Fe-S cluster synthesis from free sulfide in vitro. By binding zinc-free ISCU, iron drives persulfide uptake from NFS1 and allows persulfide reduction into sulfide by FDX2, thereby coordinating sulfide production with its availability to generate Fe-S clusters. FXN stimulates the whole process by accelerating persulfide transfer. We propose that this reconstitution recapitulates physiological conditions which provides a model for Fe-S cluster biosynthesis, clarifies the roles of FDX2 and FXN and may help develop Friedreich's ataxia therapies.

Published
2019
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7. RNF185 is a novel E3 ligase of endoplasmic reticulum-associated degradation (ERAD) that targets cystic fibrosis transmembrane conductance regulator (CFTR).

Author

El Khouri E, Le Pavec G, Toledano MB, and Delaunay-Moisan A

Subjects
Animals, Caenorhabditis elegans, Cystic Fibrosis Transmembrane Conductance Regulator genetics, DNA-Binding Proteins genetics, HEK293 Cells, Humans, Mice, Mitochondrial Proteins genetics, Mutation, Proteasome Endopeptidase Complex genetics, Protein Biosynthesis physiology, Protein Stability, Ubiquitin-Protein Ligases genetics, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, DNA-Binding Proteins metabolism, Endoplasmic Reticulum-Associated Degradation physiology, Mitochondrial Proteins metabolism, Proteasome Endopeptidase Complex metabolism, Ubiquitin-Protein Ligases metabolism
Abstract

In the endoplasmic reticulum (ER), misfolded or improperly assembled proteins are exported to the cytoplasm and degraded by the ubiquitin-proteasome pathway through a process called ER-associated degradation (ERAD). ER-associated E3 ligases, which coordinate substrate recognition, export, and proteasome targeting, are key components of ERAD. Cystic fibrosis transmembrane conductance regulator (CFTR) is one ERAD substrate targeted to co-translational degradation by the E3 ligase RNF5/RMA1. RNF185 is a RING domain-containing polypeptide homologous to RNF5. We show that RNF185 controls the stability of CFTR and of the CFTRΔF508 mutant in a RING- and proteasome-dependent manner but does not control that of other classical ERAD model substrates. Reciprocally, its silencing stabilizes CFTR proteins. Turnover analyses indicate that, as RNF5, RNF185 targets CFTR to co-translational degradation. Importantly, however, simultaneous depletion of RNF5 and RNF185 profoundly blocks CFTRΔF508 degradation not only during translation but also after synthesis is complete. Our data thus identify RNF185 and RNF5 as a novel E3 ligase module that is central to the control of CFTR degradation.

Published
2013
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8. MICAL-like1 mediates epidermal growth factor receptor endocytosis.

Author

Abou-Zeid N, Pandjaitan R, Sengmanivong L, David V, Le Pavec G, Salamero J, and Zahraoui A

Subjects
Actin Cytoskeleton metabolism, Adaptor Proteins, Signal Transducing genetics, Animals, Cell Adhesion Molecules metabolism, Cell Line, Cytoskeletal Proteins genetics, Dogs, Gene Knockdown Techniques, Humans, LIM Domain Proteins genetics, Lysosomal-Associated Membrane Protein 1 metabolism, Microfilament Proteins, Mixed Function Oxygenases, Protein Binding, Protein Structure, Tertiary, Protein Transport, RNA Interference, Recombinant Fusion Proteins genetics, Two-Hybrid System Techniques, rab GTP-Binding Proteins metabolism, Adaptor Proteins, Signal Transducing metabolism, Cytoskeletal Proteins metabolism, Endocytosis, ErbB Receptors metabolism, LIM Domain Proteins metabolism, Recombinant Fusion Proteins metabolism
Abstract

Small GTPase Rabs are required for membrane protein sorting/delivery to precise membrane domains. Rab13 regulates epithelial tight junction assembly and polarized membrane transport. Here we report that Molecule Interacting with CasL (MICAL)-like1 (MICAL-L1) interacts with GTP-Rab13 and shares a similar domain organization with MICAL. MICAL-L1 has a calponin homology (CH), LIM, proline rich and coiled-coil domains. It is associated with late endosomes. Time-lapse video microscopy shows that green fluorescent protein-Rab7 and mcherry-MICAL-L1 are present within vesicles that move rapidly in the cytoplasm. Depletion of MICAL-L1 by short hairpin RNA does not alter the distribution of a late endosome/lysosome-associated protein but affects the trafficking of epidermal growth factor receptor (EGFR). Overexpression of MICAL-L1 leads to the accumulation of EGFR in the late endosomal compartment. In contrast, knocking down MICAL-L1 results in the distribution of internalized EGFR in vesicles spread throughout the cytoplasm and promotes its degradation. Our data suggest that the N-terminal CH domain associates with the C-terminal Rab13 binding domain (RBD) of MICAL-L1. The binding of Rab13 to RBD disrupts the CH/RBD interaction, and may induce a conformational change in MICAL-L1, promoting its activation. Our results provide novel insights into the MICAL-L1/Rab protein complex that can regulate EGFR trafficking at late endocytic pathways.

Published
2011
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9. Characterization of human monocyte-derived microglia-like cells.

Author

Leone C, Le Pavec G, Même W, Porcheray F, Samah B, Dormont D, and Gras G

Subjects
Cell Culture Techniques, Cell Differentiation, Cell Division, HIV-1, Humans, Macrophages physiology, Microglia physiology, Microglia virology, Monocytes physiology, Patch-Clamp Techniques, Reference Values, Macrophages cytology, Microglia cytology, Monocytes cytology
Abstract

Microglial cells are central to brain immunity and intervene in many human neurological diseases. The aim of this study was to develop a convenient cellular model for human microglial cells, suitable for HIV studies. Microglia derive from the hematogenous myelomonocytic lineage, possibly as a distinct subpopulation but in any case able to invade the CNS, proliferate, and differentiate into ameboid and then ramified microglia in the adult life. We thus attempted to derive microglia-like cells from human monocytes. When cultured with astrocyte-conditioned medium (ACM), monocytes acquired a ramified morphology, typical of microglia. They overexpressed substance P and the calcium binding protein Iba-1 and dimly expressed class II MHC, three characteristics of microglial cells. Moreover, they also expressed a potassium inward rectifier current, another microglia-specific feature. These monocyte-derived microglia-like cells (MDMi) were CD4(+)/CD14(+), evocative of an activated microglia phenotype. When treated with lipopolysaccharide (LPS), MDMi lost their overexpression of substance P, which returned to untreated monocyte-derived macrophage (MDM) level. Compared with MDM, MDMi expressed higher CD4 but lower CCR5 levels; they could be infected by HIV-1(BaL), but produced less virus progeny than MDM did. This model of human microglia may be an interesting alternative to primary microglia for large scale in vitro HIV studies and may help to better understand HIV-associated microgliosis and chronic inflammation in the brain.

Published
2006
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10. Expression of excitatory amino acid transporter-1 (EAAT-1) in brain macrophages and microglia of patients with prion diseases.

Author

Chrétien F, Le Pavec G, Vallat-Decouvelaere AV, Delisle MB, Uro-Coste E, Ironside JW, Gambetti P, Parchi P, Créminon C, Dormont D, Mikol J, Gray F, and Gras G

Subjects
Adult, Aged, Amyloid genetics, Brain pathology, Case-Control Studies, Child, Codon, Creutzfeldt-Jakob Syndrome genetics, Creutzfeldt-Jakob Syndrome pathology, Female, Heterozygote, Humans, Insomnia, Fatal Familial genetics, Insomnia, Fatal Familial pathology, Male, Methionine, Middle Aged, Prion Proteins, Prions, Protein Precursors genetics, Severity of Illness Index, Time Factors, Valine, Brain metabolism, Creutzfeldt-Jakob Syndrome metabolism, Excitatory Amino Acid Transporter 1 metabolism, Insomnia, Fatal Familial metabolism, Macrophages metabolism, Microglia metabolism
Abstract

The mechanisms of neuronal apoptosis in prion diseases are unclear. Experimental studies suggest that it may result from 2 associated mechanisms: glutamate-mediated excitotoxicity and oxidative stress. Recent studies showed that activated macrophages/microglia (AMM) express excitatory amino acid transporters (EAATs) in HIV infection, suggesting that they may play a neuroprotective role by clearing extra-cellular glutamate and producing anti-oxidant glutathione. In order to test this hypothesis in prion diseases, samples from cerebral cortex, striatum, thalamus, and cerebellum from 14 patients with Creutzfeldt-Jakob disease (8 sporadic, 2 familial, 2 iatrogenic, and 2 variant), and 4 with fatal familial insomnia (3 homozygous Met/Met at codon 129 of the PRNP gene, 1 heterozygous Met/Val), and 3 controls were immunostained for EAAT-1, GFAP, HLA-DR, CD68, IL-1, caspase 3, and PrP. In prion diseases, EAAT-1 immunopositivity was found in affected areas. Only AMM, interstitial, perivascular, perineuronal (sometimes around apoptotic neurons), or close to reactive astrocytes, expressed EAAT-1. Astrocyte EAAT-1 expression was scarcely detectable in controls and was not detected in prion disease cases. The proportion of AMM expressing EAAT-1 did not correlate with the severity of neuronal apoptosis, spongiosis, astrocytosis, microgliosis, or PrP deposition, but only with disease duration. Occasional EAAT-1 expressing AMM were found in patients with short survival, whereas diffuse EAAT-1 expression by AMM was observed in cases with long survival (24 to 33 months) that most often were heterozygous for Met/Val at codon 129 of the PRNP gene. Our findings suggest that AMM may develop a partial neuroprotective function in long-lasting prion diseases, although it does not seem to efficiently prevent neurological and neuropathological deterioration. Whether this neuroprotective function of microglia is the cause or the effect of longer survival needs to be clarified.

Published
2004
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11. [Neurotoxicity and neuroprotection, two aspects of microglial activation in human immunodeficiency virus (HIV) infection].

Author

Vallat-Decouvelaere AV, Gray F, Chrétien F, Le Pavec G, Dormont D, and Gras G

Subjects
Animals, Excitatory Amino Acid Transporter 1 physiology, Excitatory Amino Acid Transporter 2 physiology, Glutamic Acid metabolism, Humans, Macrophages immunology, Oxidative Stress physiology, Receptors, Glutamate physiology, HIV Infections immunology, Microglia immunology
Abstract

Microglial cells and macrophages are the only cells within the central nervous system, in which productive HIV infection has been unquestionably demonstrated. Those cells play a key role in the origin of the neuronal dysfunction underlying HIV-related cognitive disorders. The neurotoxicity of the cells is both direct, related to HIV proteins, and indirect, through the release by activated macrophages and microglial cells (AMM) of multiple neurotoxic factors. The mechanisms of neuronal damage, the final irreversible stage of which is neuronal apoptosis, are only partly understood but appear to involve oxidative stress and glutamate-receptor mediated toxicity. On the other hand, recent experimental in vitro and in vivo studies, and neuropathological studies in HIV infected patients at different stages of the disease, tend to show that AMM express excitatory amino acid transporters (EAAT) suggesting that in addition to their neurotoxic properties, they also have a neuroprotective role by clearing extra-cellular glutamate and producing antioxidant glutathione. This neuroprotective role could counteract, at least in the early stages of the disease, the neurotoxicity of AMM explaining the discrepancy between the conspicuous microglial activation at that stage and the absence of cognitive disorder, neuronal loss and neuronal apoptosis. It could also explain the regression of the cognitive disorders in some patients who received highly active antiretroviral treatment.

Published
2004
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12. Differential regulation of gelatinase A and B and TIMP-1 and -2 by TNFalpha and HIV virions in astrocytes.

Author

Lévêque T, Le Pavec G, Boutet A, Tardieu M, Dormont D, and Gras G

Subjects
Astrocytes enzymology, Astrocytes virology, Gene Expression Regulation, Enzymologic drug effects, Humans, Matrix Metalloproteinase 2 genetics, Matrix Metalloproteinase 9 genetics, Matrix Metalloproteinase Inhibitors, Neurosecretory Systems physiology, Tissue Inhibitor of Metalloproteinase-1 genetics, Virion physiology, Astrocytes drug effects, HIV physiology, Matrix Metalloproteinase 2 metabolism, Matrix Metalloproteinase 9 metabolism, Tissue Inhibitor of Metalloproteinase-1 metabolism, Tissue Inhibitor of Metalloproteinase-2 metabolism, Tumor Necrosis Factor-alpha pharmacology
Abstract

Changes in the fine balance between matrix metalloproteinases and their tissue inhibitors, which drives extracellular matrix turnover, may be critical to central nervous system inflammation in HIV infection as well as in neurotoxicity. Although they do not produce virus when infected by HIV, astrocytes may be directly affected by the virion, because some viral proteins are known to transduce signaling in brain cells and are also sensitive to the major proinflammatory cytokine TNFalpha. We therefore studied the effects of HIV and TNFalpha on MMP-2, MMP-9 and their inhibitors, TIMP-1 and TIMP-2, in astrocytes, by zymography and ELISA, respectively, or by RT-PCR for both of them. HIV slightly increased the production of pro-MMP-2 and pro-MMP-9 by astrocytes, in a dose-dependent manner. TNFalpha strongly induced pro-MMP-9. TIMP-1 and TIMP-2 levels were affected only slightly, if at all, by HIV and TNFalpha. Thus, astrocyte/HIV contact may lead to extracellular matrix activation, which may be strongly amplified by the inflammatory response. Our data strongly suggest that, besides their physiological production of MMP-2, astrocytes would be a major source of MMP-9 in the inflamed brain.

Published
2004
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13. Expression of excitatory amino acid transporter-1 in brain macrophages and microglia of HIV-infected patients. A neuroprotective role for activated microglia?

Author

Vallat-Decouvelaere AV, Chrétien F, Gras G, Le Pavec G, Dormont D, and Gray F

Subjects
AIDS Dementia Complex metabolism, AIDS Dementia Complex pathology, Adult, Aged, Biomarkers, Brain cytology, Brain pathology, Glial Fibrillary Acidic Protein metabolism, HIV Infections pathology, HLA-DR Antigens metabolism, Humans, Male, Middle Aged, Brain metabolism, Excitatory Amino Acid Transporter 1 metabolism, HIV Infections metabolism, Macrophages metabolism, Microglia metabolism, Neuroprotective Agents metabolism
Abstract

Recent experimental studies showed that activated macrophages/microglia (AMM) express excitatory amino acid transporters (EAATs), suggesting that, in addition to their neurotoxic properties, they also have a neuroprotective role by clearing extracellular glutamate and producing antioxidant glutathione. To test this hypothesis in human, the brain of 12 HIV-positive patients and 3 controls were immunostained for EAAT-1. EAAT-1 was expressed by AMM in all HIV-infected cases but not in HIV-negative controls. Expression varied according to the disease stage. In 5 cases with active HIV-encephalitis (HIVE), AMM strongly expressed EAAT-1 in the white matter and basal ganglia, analogous to HLA-DR and CD68 expression. There was weaker expression in the cortex and perineuronal microglial cells were not involved. In a case with "burnt out" HIVE following highly active antiretroviral therapy (HAART), EAAT-1 expression was mild, identical to that of HLA-DR and CD68 in the white matter and cortex and involved perineuronal microglial cells. In 3 AIDS patients without HIVE and in 3 pre-AIDS cases, EAAT-1 expression in the white matter was weaker than HLA-DR and CD68 expression; there was stronger correlation in the gray matter where perineuronal microglial cells were stained predominantly. Our findings in humans tend to confirm that AMM, particularly perineuronal microglial cells, play a neuroprotective role in the early stages of HIV infection and, possibly, following treatment. This is in keeping with the early microglial activation seen in pre-AIDS cases, and the late occurrence of neuronal loss. It may also explain the reversible cognitive disorders following treatment in some cases.

Published
2003
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14. Regulated expression of sodium-dependent glutamate transporters and synthetase: a neuroprotective role for activated microglia and macrophages in HIV infection?

Author

Gras G, Chrétien F, Vallat-Decouvelaere AV, Le Pavec G, Porcheray F, Bossuet C, Léone C, Mialocq P, Dereuddre-Bosquet N, Clayette P, Le Grand R, Créminon C, Dormont D, Rimaniol AC, and Gray F

Subjects
AIDS Dementia Complex physiopathology, Animals, Brain metabolism, Brain pathology, Gene Expression Regulation, Glutamate Plasma Membrane Transport Proteins, HIV Infections immunology, HIV Infections pathology, Humans, Macrophages immunology, Macrophages pathology, Mice, Microglia immunology, Microglia pathology, Neuroprotective Agents metabolism, Rats, Amino Acid Transport System X-AG genetics, Glutamate-Ammonia Ligase genetics, HIV Infections metabolism, Macrophages metabolism, Microglia metabolism, Symporters genetics
Abstract

It is now widely accepted that neuronal damage in HIV infection results mainly from microglial activation and involves apoptosis, oxidative stress and glutamate-mediated neurotoxicity. Glutamate toxicity acts via 2 distinct pathways: an excitotoxic one in which glutamate receptors are hyperactivated, and an oxidative one in which cystine uptake is inhibited, resulting in glutathione depletion and oxidative stress. A number of studies show that astrocytes normally take up glutamate, keeping extracellular glutamate concentration low in the brain and preventing excitotoxicity. This action is inhibited in HIV infection, probably due to the effects of inflammatory mediators and viral proteins. Other in vitro studies as well as in vivo experiments in rodents following mechanical stimulation, show that activated microglia and brain macrophages express high affinity glutamate transporters. These data have been confirmed in chronic inflammation of the brain, particularly in SIV infection, where activated microglia and brain macrophages also express glutamine synthetase. Recent studies in humans with HIV infection show that activated microglia and brain macrophages express the glutamate transporter EAAT-1 and that expression varies according to the disease stage. This suggests that, besides their recognized neurotoxic properties in HIV infection, these cells also have a neuroprotective function, and may partly make up for the inhibited astrocytic function, at least temporarily. This hypothesis might explain the discrepancy between microglial activation which occurs early in the disease, and neuronal apoptosis and neuronal loss which is a late event. In this review article, we discuss the possible neuroprotective and neurotrophic roles of activated microglia and macrophages that may be generated by the expression of high affinity glutamate transporters and glutamine synthetase, 2 major effectors of glial glutamate metabolism, and the implications for HIV-induced neuronal dysfunction, the underlying cause of HIV dementia.

Published
2003
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