ISSN:
1460-9568
Source:
Blackwell Publishing Journal Backfiles 1879-2005
Topics:
Medicine
Notes:
Horizontal slices which included the entorhinal area in continuity with the hippocampus were taken from the ventral levels of the cerebral hemispheres of rat pups from two age groups, from the 6th to the 8th postnatal days (‘young') and the 12th to the 15th days (‘old’). The slices were divided into an entorhinal part and a hippocampal part (which consisted of the hippocampus proper, dentate gyrus and subiculum) by a knife cut passing through the deep white matter of the entorhinal area. The slices were recombined in their normal orientation by matching the cut edges in the following age combinations: young/young, old/old, young/old and old/young. After 14 days in culture, crystals of biocytin were placed on the superficial layers of the entorhinal area. In the young/young combination the same placement of biocytin simultaneously labelled projections passing in both directions across the interface, i.e. (i) orthograde transport of biocytin taken up by entorhinal projection neurons resulted in labelling of axons passing from the entorhinal area across the interface between the cocultures to reach the correct terminal zone in the outer molecular layer of the dentate gyrus, and (ii) retrograde transport of biocytin taken up by axons and their terminals in the entorhinal area labelled the slender subicular and adjacent hippocampal field CA1 pyramidal cells whose axons project to the entorhinal area. In the old/old cocultures there were no projections in either direction. In the mixed age combinations, young entorhinal cortical tissue projected correctly across the interface to old dentate gyrus, but old entorhinal tissue did not project to young dentate gyrus. Conversely, the pyramids of young subicular tissue projected across the interface to old entorhinal tissue, but old subicular tissue did not project to young entorhinal cortex. Therefore, the crucial factor in the age-related failure of the formation of projections was the age of the axons of the projecting neurons. The fail-age for the formation of entorhino-dentate projections was the same as that for the formation of the subiculo-entorhinal projections passing in the opposite direction across the same interface. Thus the greater age of the pathway and the target fields did not prevent the younger axons from successfully finding their routes through the tissue and recognizing the correct terminal fields. General tissue factors, such as the formation of scar tissue and the onset of myelination (which occurs in the perforant path around the 10th day of life), also did not affect the outcome, since in the young/old and old/young combinations the projection failed in one direction across the interface while it succeeded in the opposite direction across the same interface.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1111/j.1460-9568.1995.tb01106.x
Permalink