Na+-Dependent High-Affinity Glutamate Transport in Macrophages

谷氨酸受体 细胞生物学 兴奋毒性 生物 星形胶质细胞 小胶质细胞 细胞内 生物化学 神经科学 中枢神经系统 炎症 免疫学 受体
作者
Anne‐Cécile Rimaniol,Stéphane Haı̈k,Marc Martín,Roger Le Grand,François D. Boussin,Nathalie Dereuddre‐Bosquet,Gabriel Gras,Dominique Dormont
出处
期刊:Journal of Immunology [American Association of Immunologists]
卷期号:164 (10): 5430-5438 被引量:91
标识
DOI:10.4049/jimmunol.164.10.5430
摘要

Excessive accumulation of glutamate in the CNS leads to excitotoxic neuronal damage. However, glutamate clearance is essentially mediated by astrocytes through Na+-dependent high-affinity glutamate transporters (excitatory amino acid transporters (EAATs)). Nevertheless, EAAT function was recently shown to be developmentally restricted in astrocytes and undetectable in mature astrocytes. This suggests a need for other cell types for clearing glutamate in the brain. As blood monocytes infiltrate the CNS in traumatic or inflammatory conditions, we addressed the question of whether macrophages expressed EAATs and were involved in glutamate clearance. We found that macrophages derived from human blood monocytes express both the cystine/glutamate antiporter and EAATs. Kinetic parameters were similar to those determined for neonatal astrocytes and embryonic neurons. Freshly sorted tissue macrophages did not possess EAATs, whereas cultured human spleen macrophages and cultured neonatal murine microglia did. Moreover, blood monocytes did not transport glutamate, but their stimulation with TNF-alpha led to functional transport. This suggests that the acquisition of these transporters by macrophages could be under the control of inflammatory molecules. Also, monocyte-derived macrophages overcame glutamate toxicity in neuron cultures by clearing this molecule. This suggests that brain-infiltrated macrophages and resident microglia may acquire EAATs and, along with astrocytes, regulate extracellular glutamate concentration. Moreover, we showed that EAATs are involved in the regulation of glutathione synthesis by providing intracellular glutamate. These observations thus offer new insight into the role of macrophages in excitotoxicity and in their response to oxidative stress.
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