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Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus

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Zeitschriftentitel: The Journal of Neuroscience
Personen und Körperschaften: Deller, T, Frotscher, M, Nitsch, R
In: The Journal of Neuroscience, 15, 1995, 10, S. 6868-6878
Format: E-Article
Sprache: Englisch
veröffentlicht:
Society for Neuroscience
Schlagwörter:
General Neuroscience
author_facet Deller, T
Frotscher, M
Nitsch, R
Deller, T
Frotscher, M
Nitsch, R
author Deller, T
Frotscher, M
Nitsch, R
spellingShingle Deller, T
Frotscher, M
Nitsch, R
The Journal of Neuroscience
Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
General Neuroscience
author_sort deller, t
spelling Deller, T Frotscher, M Nitsch, R 0270-6474 1529-2401 Society for Neuroscience General Neuroscience http://dx.doi.org/10.1523/jneurosci.15-10-06868.1995 <jats:p>Recently a commissural fiber projection that terminates in the outer molecular layer of the fascia dentata was described in normal rats (Deller et al., 1995). In the present article, Phaseolus vulgaris leucoagglutinin (PHAL) tracing was used to analyze the contribution of this previously unknown projection to the commissural sprouting response after entorhinal cortex lesion. Rats 4–8 weeks after unilateral entorhinal lesion received a single PHAL deposit into the hilus of the fascia dentata contralateral to the lesion side. Unlesioned control animals received a similar PHAL deposit. The degree of axonal arborization and the bouton density per axon length were determined for individual PHAL-labeled commissural axons to the outer molecular layer of the dentate gyrus. A significant increase in both parameters was observed in the lesioned group. The PHAL-labeled commissural fibers established symmetric synapses in the denervated outer molecular layer. Postembedding immunocytochemistry indicated that some of these sprouting commissural fibers are GABAergic. Our findings provide morphological evidence for lamina-specific sprouting of an inhibitory commissural projection that normally terminates in the outer molecular layer. This suggests that inhibitory fibers participate in the replacement of the excitatory perforant pathway after entorhinal lesion.</jats:p> Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus The Journal of Neuroscience
doi_str_mv 10.1523/jneurosci.15-10-06868.1995
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series The Journal of Neuroscience
source_id 49
title Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_unstemmed Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_full Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_fullStr Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_full_unstemmed Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_short Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_sort morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
topic General Neuroscience
url http://dx.doi.org/10.1523/jneurosci.15-10-06868.1995
publishDate 1995
physical 6868-6878
description <jats:p>Recently a commissural fiber projection that terminates in the outer molecular layer of the fascia dentata was described in normal rats (Deller et al., 1995). In the present article, Phaseolus vulgaris leucoagglutinin (PHAL) tracing was used to analyze the contribution of this previously unknown projection to the commissural sprouting response after entorhinal cortex lesion. Rats 4–8 weeks after unilateral entorhinal lesion received a single PHAL deposit into the hilus of the fascia dentata contralateral to the lesion side. Unlesioned control animals received a similar PHAL deposit. The degree of axonal arborization and the bouton density per axon length were determined for individual PHAL-labeled commissural axons to the outer molecular layer of the dentate gyrus. A significant increase in both parameters was observed in the lesioned group. The PHAL-labeled commissural fibers established symmetric synapses in the denervated outer molecular layer. Postembedding immunocytochemistry indicated that some of these sprouting commissural fibers are GABAergic. Our findings provide morphological evidence for lamina-specific sprouting of an inhibitory commissural projection that normally terminates in the outer molecular layer. This suggests that inhibitory fibers participate in the replacement of the excitatory perforant pathway after entorhinal lesion.</jats:p>
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author Deller, T, Frotscher, M, Nitsch, R
author_facet Deller, T, Frotscher, M, Nitsch, R, Deller, T, Frotscher, M, Nitsch, R
author_sort deller, t
container_issue 10
container_start_page 6868
container_title The Journal of Neuroscience
container_volume 15
description <jats:p>Recently a commissural fiber projection that terminates in the outer molecular layer of the fascia dentata was described in normal rats (Deller et al., 1995). In the present article, Phaseolus vulgaris leucoagglutinin (PHAL) tracing was used to analyze the contribution of this previously unknown projection to the commissural sprouting response after entorhinal cortex lesion. Rats 4–8 weeks after unilateral entorhinal lesion received a single PHAL deposit into the hilus of the fascia dentata contralateral to the lesion side. Unlesioned control animals received a similar PHAL deposit. The degree of axonal arborization and the bouton density per axon length were determined for individual PHAL-labeled commissural axons to the outer molecular layer of the dentate gyrus. A significant increase in both parameters was observed in the lesioned group. The PHAL-labeled commissural fibers established symmetric synapses in the denervated outer molecular layer. Postembedding immunocytochemistry indicated that some of these sprouting commissural fibers are GABAergic. Our findings provide morphological evidence for lamina-specific sprouting of an inhibitory commissural projection that normally terminates in the outer molecular layer. This suggests that inhibitory fibers participate in the replacement of the excitatory perforant pathway after entorhinal lesion.</jats:p>
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spelling Deller, T Frotscher, M Nitsch, R 0270-6474 1529-2401 Society for Neuroscience General Neuroscience http://dx.doi.org/10.1523/jneurosci.15-10-06868.1995 <jats:p>Recently a commissural fiber projection that terminates in the outer molecular layer of the fascia dentata was described in normal rats (Deller et al., 1995). In the present article, Phaseolus vulgaris leucoagglutinin (PHAL) tracing was used to analyze the contribution of this previously unknown projection to the commissural sprouting response after entorhinal cortex lesion. Rats 4–8 weeks after unilateral entorhinal lesion received a single PHAL deposit into the hilus of the fascia dentata contralateral to the lesion side. Unlesioned control animals received a similar PHAL deposit. The degree of axonal arborization and the bouton density per axon length were determined for individual PHAL-labeled commissural axons to the outer molecular layer of the dentate gyrus. A significant increase in both parameters was observed in the lesioned group. The PHAL-labeled commissural fibers established symmetric synapses in the denervated outer molecular layer. Postembedding immunocytochemistry indicated that some of these sprouting commissural fibers are GABAergic. Our findings provide morphological evidence for lamina-specific sprouting of an inhibitory commissural projection that normally terminates in the outer molecular layer. This suggests that inhibitory fibers participate in the replacement of the excitatory perforant pathway after entorhinal lesion.</jats:p> Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus The Journal of Neuroscience
spellingShingle Deller, T, Frotscher, M, Nitsch, R, The Journal of Neuroscience, Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus, General Neuroscience
title Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_full Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_fullStr Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_full_unstemmed Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_short Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_sort morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
title_unstemmed Morphological evidence for the sprouting of inhibitory commissural fibers in response to the lesion of the excitatory entorhinal input to the rat dentate gyrus
topic General Neuroscience
url http://dx.doi.org/10.1523/jneurosci.15-10-06868.1995