No effect of sustained systemic growth retardation on the distribution of Reelin-expressing interneurons in the neuron-producing hippocampal dentate gyrus in rats

▶ Reelin signaling plays a role in neuronal migration and positioning. ▶ Neuronal migration is unaffected by systemic growth retardation. ▶ Postnatal neurogenesis is unaffected by systemic growth retardation. ▶ Reelin signaling is unaffected by systemic growth retardation. ▶ Systemic growth retardat...

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Veröffentlicht in:Reproductive toxicology (Elmsford, N.Y.) N.Y.), 2010-12, Vol.30 (4), p.591-599
Hauptverfasser: Ohishi, Takumi, Wang, Liyun, Ogawa, Bunichiro, Fujisawa, Kenichi, Taniai, Eriko, Hayashi, Hitomi, Mitsumori, Kunitoshi, Shibutani, Makoto
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Sprache:eng
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Zusammenfassung:▶ Reelin signaling plays a role in neuronal migration and positioning. ▶ Neuronal migration is unaffected by systemic growth retardation. ▶ Postnatal neurogenesis is unaffected by systemic growth retardation. ▶ Reelin signaling is unaffected by systemic growth retardation. ▶ Systemic growth retardation does not cause a delay in brain development. Reelin signaling plays a role in neuronal migration and positioning during brain development. To clarify the effect of systemic growth retardation on the distribution of Reelin-expressing interneurons in the hilus of the hippocampal dentate gyrus, pregnant rats were fed a synthetic diet with either a normal (20% casein) or low (10% casein) protein concentration from gestational day 10 to postnatal day (PND) 21 at weaning. Male offspring were immunohistochemically examined at PND 21 and on PND 77. Protein-restricted offspring displayed systemic growth retardation through PND 77 and had decreased absolute brain weights and an increased number of external granular cells in the cerebellar cortex, suggestive of retarded brain growth at weaning. However, maternal protein restriction did not change the cellular distribution of immunoreactivity for Reelin, Calbindin-D-28K, or glutamic acid decarboxylase 67 or of NeuN-positive postmitotic neurons in the dentate hilus either at PND 21 or PND 77, which suggests that the population of γ-aminobutyric acid-ergic interneurons involving synthesis of Reelin was not affected. Furthermore, as well as the distribution of hilar neurons expressing neurogenesis-related FoxG1, cell proliferation and apoptosis in the subgranular zone were unaffected through PND 77. These results suggest that systemic growth retardation caused by maternal protein restriction does not affect neuronal migration and postnatal neurogenesis of the dentate gyrus resulting in unaltered distribution of Reelin-synthesizing interneurons.
ISSN:0890-6238
1873-1708
DOI:10.1016/j.reprotox.2010.08.009