Neuronal Functions of Gangliosides |
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1. Neurotrophic effects The finding that gangliosides enhance neuronal differentiation originated from the observation that meganeurites, abnormally developed neuronal processes, occurred in hereditary GM1 gangliosidosis. Since then the neurite extension effects of gangliosides have been examined in in vitro and in vivo systems. The latest reports indicate some mechanisms for expressing the neurotrophic effects of gangliosides. (a) Mutoh et al. (Ref. 1) revealed that ganglioside GM1 cooperates with NGF receptor to regulate the signal transduction. (b) LedeenŐs group (Ref. 2) found the occurrence of gangliosides in nucleus, suggesting the possible involvement of gangliosides in gene expression. 2. Neuronal functions Based on the fact that gangliosides are enriched in the nervous system, they have been speculated to participate in neuronal functions. Even after many studies, however substantial evidence for this has not yet been obtained. Lately, some new findings have shed light on the approach to neuronal functions. (a) The first report that gangliosides might facilitate long-term potentiation, LTP, as a molecular mechanism of learning and memory was the result of SeifertŐs group (1985). There have been several reports supporting or denying the ganglioside effect since then. A collaborative work of Kato (Yamagata University) and Ando (Tokyo Metropolitan Institute of Gerontology) has provided a definite answer, regarding the facilitating effects of gangliosides on LTP (Ref. 3)(Fig.1). (b) Cholinergic specific gangliosiosides named Chol-1a were isolated and characterized by AndoŐs group (1992). This was taken as a physiologically meaningful finding indicating that specific gangliosides may be involved in cholinergic functions. Molecular mechanisms underlying neuronal modulation by Chol-1a are now under investigation. (c) Studies using ganglioside synthase-knock-out mice have started to reveal the ganglioside functions. Since Furukawa et al. (Ref. 4) established GM2-knock- out mice, relevant neural functional defects would be expected to be found. |
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 Fig : Effect of ganglioside GQ1b on the ling-term potentiation (LTP)(Ref.3) LTP was not formed in low-calcium ion by tetanic stimulation (T)(A), but remarkably formed when incubated with GQ1b (B). |
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| 3. Neural diseases and therapeutic possibility
Senile dementia of the Alzheimer type (SDAT) is known as a major degenerative disease in which severe progressive neuronal cell losses occur. According to the idea that gangliosides may effectively act on SDAT, therapeutic trials have been reported (Ref.5) Gangliosides are also reported to suppress clinical symptoms in animal models of ParkinsonŐs disease (Ref. 6). |
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| Susumu
Ando (Department of Biomembrane, Tokyo Metropolitan Institute of Gerontology) |
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| Jun. 15, 1999 | |||||||||||||||||||||||
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