Tilleux, Sébastien
Hermans, Emmanuel
[UCL]
Oxidative stress, neuroinflammation, and excitotoxicity are frequently considered distinct but common hallmarks of several neurological disorders, including Parkinson's disease, amyotrophic lateral sclerosis, multiple sclerosis, and Alzheimer's disease. Although neuron degeneration and death are the ultimate consequences of these pathological processes, it is now widely accepted that alterations in the function of surrounding glial cells are key features in the progression of these diseases. In response to alteration in their local environment, microglia, commonly considered the resident immune cells of the nervous parenchyma, become activated and release a variety of soluble factors. Among these, proinflammatory cytokines and free radicals actively participate in the degenerative insults. In addition, excitotoxic neuronal damage resulting from excessive glutamate is frequently associated with impaired handling of extracellular glutamate by gliotic astrocytes. Although several research projects have focused on the biochemical mechanisms of the regulation of glial glutamate transporters, a relationship between activation of microglia and modulation of astrocytic glutamate uptake is now suggested. The aim of this review is to summarize and discuss the data showing an influence of inflammatory mediators and related free radicals on the expression and activity of glial glutamate transporters.
- Aronica, Eur J Neurosci, 17, 2106 (2003)
- Bailey Samantha L., Carpentier Pamela A., McMahon Eileen J., Begolka Wendy Smith, Miller Stephen D., Innate and Adaptive Immune Responses of the Central Nervous System, 10.1615/critrevimmunol.v26.i2.40
- Barbour, Nature, 342, 918 (1989)
- Beart, Br J Pharmacol, 150, 1 (2006)
- Bender, Neurochem Res, 21, 567 (1996)
- Binns, Brain Res, 1041, 38 (2005)
- Block, Prog Neurobiol, 76, 77 (2005)
- Boston-Howes, J Biol Chem, 281, 14076 (2006)
- Bowman, Glia, 43, 281 (2003)
- Bridges, Pharmacol Ther, 107, 271 (2005)
- Bruijn, Neuron, 18, 327 (1997)
- Bsibsi, Glia, 53, 688 (2006)
- Carlson, J Immunol, 163, 3963 (1999)
- Carvey, J Neural Transm, 112, 601 (2005)
- Chao, Brain Behav Immun, 9, 355 (1995)
- Craft, Neurobiol Aging, 25, 1283 (2004)
- Dabir, J Neurosci, 26, 644 (2006)
- Danbolt, Prog Neurobiol, 65, 1 (2001)
- Danbolt, Biochemistry, 29, 6734 (1990)
- Doble, Pharmacol Ther, 81, 163 (1999)
- Duan, J Neurosci, 19, 10193 (1999)
- Dworkin, Arch Neurol, 60, 1524 (2003)
- Escartin, J Neurosci, 26, 5978 (2006)
- Figiel, J Neurosci, 20, 3596 (2000)
- Fine, J Biol Chem, 271, 15303 (1996)
- Fukamachi, Brain Res Dev Brain Res, 132, 131 (2001)
- Ganel, Neurobiol Dis, 21, 556 (2006)
- Gegelashvili, Prog Brain Res, 132, 267 (2001)
- Gegelashvili, Mol Pharmacol, 52, 6 (1997)
- Gilroy, Nat Rev Drug Discov, 3, 401 (2004)
- Glazner, J Neurochem, 75, 101 (2000)
- Gras, Brain Pathol, 13, 211 (2003)
- Guo, Hum Mol Genet, 12, 2519 (2003)
- Halliwell, J Neurochem, 97, 1634 (2006)
- Hayley, Curr Pharm Des, 11, 947 (2005)
- Hermann, Neurobiol Dis, 8, 590 (2001)
- Hoozemans, Int J Dev Neurosci, 24, 157 (2006)
- Howland, Proc Natl Acad Sci U S A, 99, 1604 (2002)
- Hu, Neuroimmunomodulation, 7, 153 (2000)
- Jack C. S., Arbour N., Manusow J., Montgrain V., Blain M., McCrea E., Shapiro A., Antel J. P., TLR Signaling Tailors Innate Immune Responses in Human Microglia and Astrocytes, 10.4049/jimmunol.175.7.4320
- Kanai, Nature, 360, 467 (1992)
- Kanai, Pflugers Arch, 447, 469 (2004)
- Kim, J Neurochem, 86, 1458 (2003)
- Klegeris, FASEB J, 20, 2000 (2006)
- Klegeris, J Neuroimmunol, 78, 152 (1997)
- Knecht, Neurosci Lett, 229, 201 (1997)
- Korn, FASEB J, 19, 1878 (2005)
- Kreutzberg, Trends Neurosci, 19, 312 (1996)
- Kwong, J Neurochem, 97, 1659 (2006)
- Le Bars, Ann Fr Anesth Reanim, 21, 315 (2002)
- Legay, Eur J Neurosci, 17, 1820 (2003)
- Levy, Eur J Neurosci, 7, 2036 (1995)
- Li, J Neurochem, 97, 759 (2006)
- Li, J Neuropathol Exp Neurol, 56, 901 (1997)
- Liao, Neurosci Lett, 299, 113 (2001)
- Lievens, Neurobiol Dis, 8, 807 (2001)
- Liu, Methods Mol Med, 79, 387 (2003)
- Longoni, Neurol Sci, 27, s107 (2006)
- Lopez-Redondo, Brain Res Mol Brain Res, 76, 429 (2000)
- Lucas, Br J Pharmacol, 147, s232 (2006)
- Mancuso, J Alzheimers Dis, 10, 59 (2006)
- Maragakis, Neurobiol Dis, 15, 461 (2004)
- Martin, Ann Neurol, 42, 335 (1997)
- Masliah, Exp Neurol, 163, 381 (2000)
- Mattson, J Neurosci Res, 49, 681 (1997)
- McCarty, Med Hypotheses, 67, 251 (2006)
- Mennini, Eur J Pharmacol, 479, 291 (2003)
- Minghetti, Glia, 19, 152 (1997)
- Minghetti, J Neuroimmunol, 82, 31 (1998)
- Miralles, Brain Res, 922, 21 (2001)
- Mollace, Pharmacol Rev, 57, 217 (2005)
- Moncada, J Neurochem, 97, 1676 (2006)
- Munir, Neurochem Int, 37, 147 (2000)
- Nakajima, Neurosci Lett, 307, 171 (2001)
- Nakamura, Biol Pharm Bull, 25, 945 (2002)
- Noda, Neuroscience, 92, 1465 (1999)
- O'Shea Ross D., Lau Chew L., Farso Mark C., Diwakarla Shanti, Zagami Chrissandra J., Svendsen Brian B., Feeney Sandra J., Callaway Jennifer K., Jones Nicole M., Pow David V., Danbolt Niels C., Jarrott Bevyn, Beart Philip M., Effects of lipopolysaccharide on glial phenotype and activity of glutamate transporters: Evidence for delayed up-regulation and redistribution of GLT-1, 10.1016/j.neuint.2005.12.028
- Okada, J UOEH, 27, 161 (2005)
- Pardo, Int Rev Psychiatry, 17, 485 (2005)
- Persson, Glia, 51, 111 (2005)
- Phillis, Brain Res Brain Res Rev, 52, 201 (2006)
- Piani, J Neuroimmunol, 48, 99 (1993)
- Pickering, Exp Physiol, 90, 663 (2005)
- Raghavendra, Eur J Neurosci, 20, 467 (2004)
- Rao, Neurochem Res, 26, 497 (2001)
- Robinson, J Neurochem, 80, 1 (2002)
- Romera, J Neurosci, 24, 1350 (2004)
- Ross, Nat Med, 10, s10 (2004)
- Rossi, Nature, 403, 316 (2000)
- Rothstein, Neuron, 16, 675 (1996)
- Rothstein, N Engl J Med, 326, 1464 (1992)
- Rothstein, Nature, 433, 73 (2005)
- Rothstein, Ann Neurol, 38, 73 (1995)
- Salinska, Folia Neuropathol, 43, 322 (2005)
- Sardar, Neuroreport, 10, 3513 (1999)
- Sastre, Int J Dev Neurosci, 24, 167 (2006)
- Schlag, Mol Pharmacol, 53, 355 (1998)
- Seal, Annu Rev Pharmacol Toxicol, 39, 431 (1999)
- Seifert, Nat Rev Neurosci, 7, 194 (2006)
- Sepkuty, J Neurosci, 22, 6372 (2002)
- Sims, Crit Rev Neurobiol, 13, 169 (1999)
- Sitcheran, EMBO J, 24, 510 (2005)
- Smith, Neuroreport, 12, 2885 (2001)
- Sorg, Mol Med, 3, 431 (1997)
- Spreux-Varoquaux, J Neurol Sci, 193, 73 (2002)
- Sternberg, J Clin Invest, 100, 2641 (1997)
- Su, Proc Natl Acad Sci U S A, 100, 1955 (2003)
- Sung, J Neurosci, 23, 2899 (2003)
- Swanson, J Neurosci, 17, 932 (1997)
- Szekely, Neuroepidemiology, 23, 159 (2004)
- Szymocha, J Virol, 74, 6433 (2000)
- Tanaka, Science, 276, 1699 (1997)
- Tanaka, J Neurosci Res, 83, 557 (2006)
- Tanga, Neurochem Int, 45, 397 (2004)
- Teismann, Cell Tissue Res, 318, 149 (2004)
- Toyomoto, FEBS Lett, 562, 211 (2004)
- Trotti, J Biol Chem, 271, 5976 (1996)
- Trotti, J Biol Chem, 270, 9890 (1995)
- Vallat-Decouvelaere Anne Valérie, Chrétien Fabrice, Gras Gabriel, Le Pavec Gwenaelle, Dormont Dominique, Gray Françoise, Expression of Excitatory Amino Acid Transporter-1 in Brain Macrophages and Microglia of HIV-Infected Patients. A Neuroprotective Role for Activated Microglia?, 10.1093/jnen/62.5.475
- Vallejo-Illarramendi, Neurobiol Dis, 21, 154 (2006)
- van Landeghem, J Neurotrauma, 23, 1518 (2006)
- Vanoni, J Cell Sci, 117, 5417 (2004)
- Vermeiren, J Neurochem, 94, 405 (2005)
- Vilhardt, Int J Biochem Cell Biol, 37, 17 (2005)
- Volterra, Ann N Y Acad Sci, 738, 153 (1994a)
- Volterra, Mol Pharmacol, 46, 986 (1994b)
- Wang, J Neurochem, 88, 939 (2004)
- Wang, Virology, 312, 60 (2003)
- Watase, Eur J Neurosci, 10, 976 (1998)
- Willard, Exp Brain Res, 134, 58 (2000)
- Ye, Neuroreport, 7, 2181 (1996)
- Yi, Neurochem Int, 48, 394 (2006)
- Zeevalk, Antioxid Redox Signal, 7, 1117 (2005)
- Zelenaia, Mol Pharmacol, 57, 667 (2000)
- Zerangue, J Biol Chem, 270, 6433 (1995)
- Zhang, FASEB J, 19, 533 (2005)
- Zhao Weihua, Xie Wenjie, Le Weidong, Beers David R., He Yi, Henkel Jenny S., Simpson Ericka P., Yen Albert A., Xiao Qin, Appel Stanley H., Activated Microglia Initiate Motor Neuron Injury by a Nitric Oxide and Glutamate-Mediated Mechanism, 10.1093/jnen/63.9.964
- Zhao, FASEB J, 20, 1162 (2006)
- Zhou, J Neurosci Res. (2006)
- Zielasek, Adv Neuroimmunol, 6, 191 (1996)
- Zipp, Trends Neurosci, 29, 518 (2006)
- Zoia, Neurobiol Aging, 26, 825 (2005)
- Zou, Brain Res, 1034, 11 (2005)
Bibliographic reference |
Tilleux, Sébastien ; Hermans, Emmanuel. Neuroinflammation and regulation of glial glutamate uptake in neurological disorders. In: Journal of Neuroscience Research, Vol. 85, no. 10, p. 2059-2070 (2007) |
Permanent URL |
http://hdl.handle.net/2078.1/10965 |