[A quantitative study of the synaptic alterations in spinal dorsal horn during the induction and maintenance of long-term potentiation].

By using stereological morphometric techniques, we examined the ultrastructure of synapses in lamine II of the spinal dorsal horn of Sprague Dawley rats 30 min, 3 h and 5 h after long-term potentiation (LTP) induction. We found that the numerical density per unit volume (Nv) of total synapses, the thickness of the postsynaptic density (PSD), width of the synaptic cleft increased significantly after the establishment of LTP. (1) Thirty minutes after the formation of LTP, the thickness of the PSD increased from 0.029 +/-0.0064 microm (control) to 0.036 +/-0.009 microm (P<0.05) and the width of the synaptic cleft increased from 0.0181+/-0.0024 microm (control) to 0.0197+/-0.0029 microm (P< 0.05); the number of synaptic vesicles decreased from 0.122 +/-0.011/microm(2) to 0.085 +/-0.010/microm(2) (P<0.05); (2) 3 h after the formation of LTP, the thickness of PSD and the width of the synaptic cleft had no difference compared with those 30 min after LTP. The number of synaptic vesicles increased from 0.122 +/-0.011/microm(2) to 0.138 +/-0.015/microm(2); the curvature of the synaptic interface increased from 1.153+/-0.195 to 1.386 +/-0.311 (P<0.05, compared with control). Nv of negative synapses increased from 0.0187 +/-0.0056 to 0.0543 +/-0.0152 (P<0.05, compared with control), Nv of perforated synapses also increased from 0.0135 +/-0.0053 to 0.0215 +/-0.0076 (P<0.05, compared with control). These data suggest that the increase in thickness of PSD might be the major morphological change during the induction of LTP, while the increase in curvature of the synaptic interface, and the number of perforated synapses might be responsible for the maintenance of the spinal LTP.