Abstract
The present study is concerned with the cellular origins and identities of the hippocampal enkephalin and CCK-immunoreactive fibers and terminals. In the hippocampus of the rat, the guinea pig and the European hedgehog a system of enkephalin immunoreactive nerves emerges in the hilus of area dentata and can be followed to the apical dendrites of the hippocampal regio inferior pyramidal cells. This pattern of immunoreactive nerves corresponds to the hippocampal mossy fiber system as visualized by the Timm staining. Cholecystokinin immunoreactive nerve fibers and terminals reveal the same distribution in the guinea pig and the European hedgehog whereas in the rat the mossy fiber zone contains little or no cholecystokinin immunoreactivity. In the guinea pig degeneration of the mossy fibers after stereotactic lesions of the mossy fibers causes a complete loss of both enkephalin and cholecystokinin immunoreactivity in the mossy fiber zone. Only a few enkephalin immunoreactive cell bodies were scattered throughout the granular cell layer of area dentata, but inhibition of the axoplasmic transport by colchicine dramatically increased the number of enkephalin immunoreactive granule cell bodies. Enkephalin immunoreactive cell bodies were also detected in the hilus, throughout the pyramidal cell layer as well as in the stratum radiatum and stratum moleculare. Cholecystokinin immunoreactive cell bodies were seen in the hilus of the area dentata and in the stratum oriens, stratum pyramidale and stratum radiatum and the cell-rich layer of subiculum. No cholecystokinin immunoreactive cell bodies were observed in the granular cell layer of area dentata. Even after colchicine treatment the granule cells were devoid of cholecystokinin immunoreactivity. In the rat a system of nerves displaying enkephalin immunoreactivity was also observed in the superficial one-third of the molecular layer of area dentata, a zone which corresponds to the termination of the lateral perforant path. Another observation was that in the rat, but not in the guinea pig and the hedgehog, the terminal zone of both the medial perforant path and the zone of commissural and associational fibers of area dentata contained cholecystokinin immunoreactive molecules. In summary, our data show: (1) that the hippocampal mossy fibers contain enkephalin immunoreactive molecules; (2) that the cholecystokinin immunoreactivity in the mossy fiber zone is most likely also localized in the mossy fibers per se, although the granule cells seem devoid of cholecystokinin immunoreactivity; (3) zinc, here visualized as a Timm-positive substance, is also localized in the mossy fiber terminals; further, (4) other intrinsic cell bodies than the granule cells may contribute to both the enkephalin and cholecystokinin immunoreactive terminals within the hippocampus; (5) in the rat the lateral perforant path may be enkephalinergic; and (6) both the terminal zone of the medial perforant path and the associational and commissural fibers of the rat contain cholecystokinin immunoreactivity.
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