D. Benvegnù scite author profile

The use of CNS cultures for detection and quantification of neuronotrophic activity in the CNS has been analyzed. In particular the development, i.e., neurotransmitter uptake characteristics, and survival of dopaminergic and GABAergic neurons in fetal mouse (E13)- dissociated mesencephalic cells cultured in serum-free, hormone- supplemented medium have been assessed as a function of culture time and cell density. At all times, more than 98% of the cells were classified as neurons on the basis of immunocytochemical criteria. Results indicate that the increase of cell density in vitro significantly enhances specific high-affinity dopamine uptake per dopaminergic cell and cell survival. This effect is not limited to the dopaminergic cells and suggests that the development of neurotransmitter-related traits and cell survival are influenced by cell density-derived trophic signals. The above-mentioned cultures and parameters have also been used to detect neuronotrophic activity in adult mammalian brain extracts or more purified preparations. In particular, bovine striatal extracts contain activity capable of increasing high-affinity neurotransmitter uptake parameters and cell survival of at least the dopaminergic and GABAergic neurons present in the culture system. The neuronotrophic activity from bovine striatum has been partially purified and is associated with a fraction whose main component is a basic protein of approximately 14 kDa.

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Morphological and Biochemical Effects of Gangliosides in Neuroblastoma Cells

Leon

et al. 1982

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The role of gangliosides in neuronal differentiation was studied by addition of a mixture of bovine brain gangliosides to cultured neuroblastoma N₂A cells. In ganglioside-treated cells the rate and degree of neurite formation was enhanced. Biochemical correlates indicate that the ganglioside-induced morphological differentiation is accompanied by a significant elongation of G₁phase, a decrease in the rate of ³H-thymidine incorporation into cellular DNA and an increase of intracellular cAMP content.

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Interactions of G_M1 Ganglioside with Crude Rat Brain Neuronal Membranes

Toffano

Benvegnù

Bonetti

et al. 1980

Journal of Neurochemistry

142

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The binding of GM1 ganglioside to crude preparations of rat brain neuronal membranes was studied, the following results being obtained: (a) the binding process followed a biphasic kinetics, which displayed a break at 0.07-0.08 x 10(-6) M GM1 concentration; (b) the features of the binding process at GM1 concentrations below the break and, over the break, above 10(-6) M appeared to be different. Below the break the process proceeded slowly and brought a stable and irreversible association of GM1 molecules to the membranes. Over 10(-6) M the process was much more rapid and caused GM1 molecules to interact in such a way that they were releasable by washing and could exchange with newly added free ganglioside; (c) the two binding processes displayed the characteristics of a saturation phenomenon; (d) in both cases, GM1 taken up was freely available to galactose oxidase, indicating that the oligosaccharide chains protrude from the membrane surface. We postulate that GM1 occurs, below and above the break, in different physical forms, each of them having a different mechanism of interaction with the membrane. Above 10(-6) M GM1 interacts as micelles, and the basis of the micelle-membrane interaction is a fusion process. Below the break, in the 10(-8)--10(-7) M range, the binding is the result of hydrophobic interactions between sites on the membrane and the hydrophobic portion of individual ganglioside molecules, most likely in the monomeric form.

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Development and survival of neurons in dissociated fetal mesencephalic serum-free cell cultures: II. Modulatory effects of gangliosides

et al. 1988

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This paper analyzes the effects of exogenously supplied GM1 on the development, i.e., specific neurotransmitter uptake capability and survival, of the dopaminergic neurons present in fetal mouse- dissociated mesencephalic cells. Exogenous GM1, but not asialo-GM1, sialic acid, or the oligosaccharide chain of GM1, enhances in a time- and concentration-dependent manner the specific 3H-dopamine uptake (increase of the apparent Vmax and decrease of the apparent Km value) and the long-term survival of the dopaminergic neurons. The GM1 effects on the behavior of the dopaminergic neurons require the presence of cell-derived neuronotrophic influences present within the culture system and are associated with an increase in the response of the cells to the trophic influences. GM1 effects are not limited to dopaminergic neurons, and depend on the stable association of the ganglioside molecule with the cells. It is suggested that GM1 is not a trophic agent per se, but rather potentiates neuronotrophic activities and/or exerts independent influences to which neurons respond only if appropriately supported.

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Esrrb guides naive pluripotent cells through the formative transcriptional programme

et al. 2023

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D. Benvegnù

Development and survival of neurons in dissociated fetal mesencephalic serum-free cell cultures: I. Effects of cell density and of an adult mammalian striatal-derived neuronotrophic factor (SDNF)

Morphological and Biochemical Effects of Gangliosides in Neuroblastoma Cells

Interactions of G_M1 Ganglioside with Crude Rat Brain Neuronal Membranes

Development and survival of neurons in dissociated fetal mesencephalic serum-free cell cultures: II. Modulatory effects of gangliosides

Esrrb guides naive pluripotent cells through the formative transcriptional programme

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D. Benvegnù

Development and survival of neurons in dissociated fetal mesencephalic serum-free cell cultures: I. Effects of cell density and of an adult mammalian striatal-derived neuronotrophic factor (SDNF)

Morphological and Biochemical Effects of Gangliosides in Neuroblastoma Cells

Interactions of GM1 Ganglioside with Crude Rat Brain Neuronal Membranes

Development and survival of neurons in dissociated fetal mesencephalic serum-free cell cultures: II. Modulatory effects of gangliosides

Esrrb guides naive pluripotent cells through the formative transcriptional programme

Contact Info

Product

Resources

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Interactions of G_M1 Ganglioside with Crude Rat Brain Neuronal Membranes