Expression of neurotrophins and the low-affinity NGF receptor in septal and hippocampal reaggregate cultures: local physiologic effects of NGF synthesized in the septal region

doi:10.1016/0165-3806(92)90110-I

Developmental Brain Research

Volume 70, Issue 1, 20 November 1992, Pages 123-133

https://doi.org/10.1016/0165-3806(92)90110-I Get rights and content

Abstract

Nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3) are members of a family of trophic factors designated the neurotrophins, each of which can bind to the low-affinity NGF receptor (LNGFR). To investigate the mechanisms that regulate the expression of the neurotrophins and the LNGFR in the developing brain, we grew cells from the embryonic mouse septum and hippocampus in reaggregating cell culture and compared neurotrophin and LNGFR expression in developing reaggregates with that seen in the developing septum and hippocampus in situ. NGF, BDNF, NT-3 and LNGFR were each expressed in septal and hippocampal reaggregates as well as the native septum and hippocampus. Additionally, the temporal expression profiles observed in reaggregates were generally similar to those seen in the respective brain regions in situ. In order to determine whether NGF can modulate neurotrophin or LNGFR expression, reaggregates were cultured in the continual presence of either exogenous NGF or anti-NGF antibodies. NGF-treated septal cultures expressed twice the level of LNGFR mRNA as was seen in untreated septal cultures; on the other hand, septal cultures grown in the presence of anti-NGF antibodies, to neutralized endogenously synthesized NGF, displayed a 3-fold decrease in LNGFR mRNA expression compared to untreated cultures. No effects of NGF or anti-NGF were observed on LNGFR expression in hippocampal reaggregates, or on neurotrophin mRNA expression in either reaggregate type. These results suggest that regulatory mechanisms intrinsic to the septal and hippocampal regions control neurotrophin and LNGFR expression. NGF is likely to be one of these regulatory cues since it acts locally in septal reaggregates to control the developmental expression of LNGFR mRNA. The possible roles of locally synthesized NGF and other neurotrophins in the development of septal neurons are discussed.

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An immortalized septal cell line that expresses trkAa mRNA in response to basic fibroblast growth factor
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Cells dissociated from embryonic rat septum were transfected with SV40 large T antigen gene by the calcium phosphate precipitation method. One of the cloned lines (EG6) had a flat morphology and expressed nestin gene, a marker of neural stem cells. Upon stimulation with basic fibroblast growth factor (bFGF), morphological changes of EG6 cells were induced, e.g. shrinkage of cell body and extension of neuritic processes. Furthermore, bFGF induced expression of the high affinity NGF receptor (trkA) gene. EG6 cell line thus will be useful for studies of roles of bFGF in the developing CNS as well as for studies of the regulation of trkA gene expression.
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Neonatal mice received subcutaneous injections of either antibody against murine NGF raised in goat (3 mg, injection volume 50 μl) or preimmune serum on postnatal days 2, 4, 6, 8, 10, and 12. They were tested on postnatal days 15–16 or 20–21 for learning and 24-h retention of a passive avoidance step-through task. Immunostaining for choline acetyltransferase (ChAT) was measured in two cholinergic forebrain areas (septum and caudate-putamen) on postnatal day 16 or 21. Locomotor activity and exploratory behavior in an open-field test were also assessed on day 17 or 22, following a single administration of either scopolamine (2 mg/kg) or saline solution. While anti-NGF treatment did not affect acquisition on day 15, impairment in retention was evident on day 16. On days 20–21, no effects were found either on acquisition or on retention capabilities. Analysis of ChAT immunostaining revealed a significant increase of ChAT-immunopositive cells in the medial septal area in 16-day-old but not in 21-day-old mice. Behavior in the open-field test and age-typical response to scopolamine were not altered by anti-NGF at either of the two ages considered. These data support the view that immunological neutralization of endogenous NGF specifically affects the maturation of retention capabilities in altricial rodents, and confirm the involvement of forebrain cholinergic mechanisms in early memnrv processes.
Age-related vulnerability of developing cholinergic basal forebrain neurons following excitotoxic lesions of the hippocampus
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Previous studies have demonstrated that depleting the hippocampus of endogenous neurotrophins via excitotoxic lesions fails to alter the viability of adult cholinergic septal/diagonal band neurons. Since cholinergic basal forebrain neurons may be more vulnerable during development, we investigated whether excitotoxic lesions produced in neonatal animals alter the viability of these cells. Postnatal Day 7, 10, 14, and 28 rats pups received unilateral intrahippocampal injections of ibotenic acid and were sacrificed 4 weeks later. At 7, 10, and 14 days of age, significant reductions in the number of choline acetyltransferase (ChAT)- and p75 nerve growth factor receptor (NGFr)-immunoreactive neurons were observed within the medial septum ipsilateral to the hippocampal lesion. In contrast, rats receiving similar lesions on Day 28 failed to display a significant reduction in ChAT-immunoreactive medial septal neurons. The magnitude of ChAT-immunoreactive neuronal loss within the medial septum and the age at which the lesion was made were inversely correlated (r² = 0.887), indicating that cholinergic septal neurons become less vulnerable to target removal as the cells develop. Similar results were observed in the vertical limb of the diagonal band although a small but significant loss of ChAT-immunoreactive neurons was seen in this structure ipsilateral to the hippocampal lesion when lesions were performed on Postnatal Day 28. At all age groups, many remaining cholinergic septal/diagonal band neurons appeared dystrophic with stunted fiber outgrowth. The present study demonstrates that unlike adult rats, removal of hippocampal target neurons during development alters the viability and morphology of cholinergic neurons of the medial septum and diagonal band. This suggests that target neurons which synthesize endogenous neurotrophins are needed for normal development of cholinergic basal forebrain neurons, but may not be required for the normal maintenance of the adult cell.
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Research reportExpression of neurotrophins and the low-affinity NGF receptor in septal and hippocampal reaggregate cultures: local physiologic effects of NGF synthesized in the septal region

Abstract

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Research report
Expression of neurotrophins and the low-affinity NGF receptor in septal and hippocampal reaggregate cultures: local physiologic effects of NGF synthesized in the septal region