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Partial cortical devascularization results in elevations of cortical nerve growth factor and increases nerve growth factor protein within basal forebrain cholinergic neurons
- Source :
- Neuroscience. 83(4)
- Publication Year :
- 1998
-
Abstract
- Previous studies have demonstrated that partial cortical devascularization results in increased levels of nerve growth factor protein within the tissue immediately surrounding the infarcted region. In the present study, we have used this lesion model to further characterize the nerve growth factor increase by investigating: (i) the time course for this phenomenon; (ii) the impact of the devascularizing lesion on cortical regions not directly impinged upon by the lesion; and (iii) the response of nerve growth factor-sensitive nucleus basalis neurons providing afferent cortical innervation to the increased availability of nerve growth factor within their target territory. Our results indicate that, within the infarcted cortex, nerve growth factor levels increase rapidly following the lesion (up 51% by one day post lesion), reach a maximum of 136% above controls by three days and undergo a slow decline back to baseline levels by 23 days. Within the frontal and cingulate cortices, which are not devascularized by the lesion and show no signs of pathological damage, nerve growth factor levels increase over a similar time course, and with a similar magnitude, to those in the lesioned cortex. Nerve growth factor-sensitive nucleus basalis neurons on the side ipsilateral to the lesion respond to increased cortical nerve growth factor levels with an increased accumulation of nerve growth factor within their cell bodies (revealed by nerve growth factor immunohistochemistry and quantitative enzyme-linked immunosorbent assay) which was apparent at three days following the lesion, but no longer discernible at seven or 14 days or later. The present study investigated a model of cortical devascularization for its ability to alter nerve growth factor levels within the cortex. Nerve growth factor levels were rapidly increased within the infarcted cortical tissue beneath the lesion but were also elevated to a similar extent, and with a similar time course, in cortical regions not directly impinged upon by the lesion. The retrograde impact of elevated cortical nerve growth factor levels was demonstrated by an increased accumulation of nerve growth factor within the cell bodies of nucleus basalis neurons providing innervation to the cortex. This lesion model should provide a potential avenue for investigating the functional role(s) of nerve growth factor in the intact and lesioned adult central nervous system, as well as the internal mechanisms for regulating its synthesis, release, uptake, and degradation.
- Subjects :
- Pathology
medicine.medical_specialty
Time Factors
Central nervous system
Enzyme-Linked Immunosorbent Assay
Biology
Nucleus basalis
Basal Ganglia
Functional Laterality
Lesion
Rats, Sprague-Dawley
Prosencephalon
Ischemia
Cortex (anatomy)
medicine
Animals
Nerve Growth Factors
Cholinergic neuron
Cerebral Cortex
Neurons
Basal forebrain
General Neuroscience
Anatomy
Cerebral Infarction
Cerebral Arteries
Immunohistochemistry
Rats
medicine.anatomical_structure
Nerve growth factor
Cerebral cortex
Regional Blood Flow
Female
medicine.symptom
Subjects
Details
- ISSN :
- 03064522
- Volume :
- 83
- Issue :
- 4
- Database :
- OpenAIRE
- Journal :
- Neuroscience
- Accession number :
- edsair.doi.dedup.....1c27dea93fb4475e084ec5030e1d33b6