Journal of neuroscience research
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Comparative Study
Binding and transport of [3H](2S,4R)- 4-methylglutamate, a new ligand for glutamate transporters, demonstrate labeling of EAAT1 in cultured murine astrocytes.
Transporters for L-glutamate (excitatory amino acid transporters; EAATs), localized to astrocytes, are involved intimately in intermediary metabolism within the brain. Because (2S,4R)-4-methylglutamate (4MG) has affinity for glial EAATs, we employed [(3)H]4MG to define the characteristics of EAATs in cultured murine astrocytes and describe new approaches to analyze EAAT function. Specific binding of [(3)H]4MG in astrocytic membranes at 4 degrees C represented 90% of total binding. ⋯ Studies with [(3)H]D-Asp reinforced evidence that [(3)H]4MG was binding to EAATs. These data were consistent with Western blot analyses, which indicated abundant expression of EAAT1 but not EAAT2. [(3)H]4MG was also accumulated rapidly (apparent t(1/2) approximately 4 min) into whole astrocytes by a sodium- and temperature-sensitive process (K(m) of 146 +/- 24 microM, V(max) = 336 +/- 27 nmol/mg protein/min), which possessed an EAAT1-like pharmacologic profile. These findings confirm that 4MG is a substrate for EAAT1 and that the binding assay developed using [(3)H]4MG can be utilized in various preparations including cultured astrocytes.
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Comparative Study
Acute transplantation of olfactory ensheathing cells or Schwann cells promotes recovery after spinal cord injury in the rat.
We compared the neurological and electrophysiological outcome, glial reactivity, and spared spinal cord connectivity promoted by acute transplantation of olfactory ensheathing cells (group OEC) or Schwann cells (group SC) after a mild injury to the rat spinal cord. Animals were subjected to a photochemical injury of 2.5 min irradiation at the T8 spinal cord segment. After lesion, a suspension containing 180,000 OECs or SCs was injected. ⋯ OEC-transplanted animals had reduced astrocytic reactivity and proteoglycan expression in comparison with SC-transplanted and DM rats. Taken together, these results indicate that transplantation of both OEC and SC has potential for restoration of injured spinal cords. OEC grafts showed superior ability to reduce glial reactivity and to improve functional recovery.