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  • Title: Ultrastructural localization of dynorphin in the dentate gyrus in human temporal lobe epilepsy: a study of reorganized mossy fiber synapses.
    Author: Zhang N, Houser CR.
    Journal: J Comp Neurol; 1999 Mar 22; 405(4):472-90. PubMed ID: 10098940.
    Abstract:
    Substantial reorganization of mossy fibers from granule cells of the dentate gyrus occurs in a high percentage of humans with medically intractable temporal lobe epilepsy. To identify these fibers and determine their ultrastructural features in human surgical specimens, we used preembedding immunoperoxidase labeling of dynorphin A, an opioid peptide that is abundant in normal mossy fibers. In electron microscopic preparations, dynorphin A immunoreactivity was highly associated with dense core vesicles and was localized predominantly in axon terminals in the inner molecular layer of the dentate gyrus, although some dynorphin-labeled dense core vesicles were also observed in dendritic shafts and spines. The labeled terminal profiles were numerous, and, whereas they varied greatly in size, many were relatively large (2.3 microm in mean major diameter). The terminals contained high concentrations of clear round vesicles and numerous mitochondrial profiles, formed distinct asymmetric synapses, often had irregular shapes, and, thus, exhibited many features of normal mossy fiber terminals. The dynorphin-labeled terminals formed synaptic contacts primarily with dendritic spines, and some of these spines were embedded in large labeled terminals, suggesting that they were complex spines. The labeled terminals frequently formed multiple synaptic contacts with their postsynaptic elements, and perforated postsynaptic densities, with and without spinules, were present at some synapses. These findings suggest that the reorganized mossy fiber terminals in humans with temporal lobe epilepsy form abundant functional synapses in the inner molecular layer of the dentate gyrus, and many of these contacts have ultrastructural features that could be associated with highly efficacious synapses.
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