The regulation of the extracellular matrix molecule neurocan in the rat hippocampus is activity-dependent (CROSBI ID 522104)
Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija
Podaci o odgovornosti
Schwazacher SW, Vukšić Mario, Haas CA, Burbach G, Sloviter RS, Deller T
engleski
The regulation of the extracellular matrix molecule neurocan in the rat hippocampus is activity-dependent
A candidate molecule that could be involved in the regulation of physiological and pathological neuronal activity is the chondroitin sulphate proteoglycan neurocan. Like several other extracellular matrix molecules it is involved in important cell functions such as proliferation, migration, morphological differentiation and synaptic plasticity. In order to test whether neuronal activity can regulate neurocan expression in the adult brain, we have used a well established animal model of hippocampal excitotoxicity (Sloviter RS, 1987, Science 235:73-76). In this model, 24h high frequency stimulation of the perforant path, the main afferent input to the hippocampus, was performed in adult rats. In situ hybridization revealed upregulation of neurocan mRNA in astrocytes within the ipsi- and contralateral hippocamus 0-1 days after 24 hours of high frequency stimulation. mRNA upregulation was confirmed by laser-microdissection of selected hippocampal regions and subsequent quantitative RT-PCR. Neurocan-immunoreactivity exhibited a more defined localization to the dentate gyrus with strongest immunostaining in the hilar area and ipsilateral outer molecular layer. The expression of neurocan was dependent on the intensity and duration of perforant path stimulation. Under conditions of low frequency paired pulse stimulation, neurocan mRNA upregulation and immunoreactivity was restricted to the ipsilateral outer molecular layer, i.e. the termination site of the stimulated afferent fibers. Our results demonstrate that neurocan is strongly expressed in the dentate gyrus of adult rats following high frequency stimulation of the perforant path as well as under conditions of forced afferent stimulation. This suggest an activity-dependent regulation of neurocan in the adult nervous system.
neurocan; activity-dependent regulation
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Podaci o prilogu
2005.
objavljeno
Podaci o matičnoj publikaciji
Goettingen NWG Conference
Podaci o skupu
Goettingen NWG Conference
predavanje
17.02.2005-20.02.2005
Göttingen, Njemačka