A. L. Vignoli scite author profile

We have observed that cultured neurons from chick spinal cord and the neuroblastoma hybrid line 108CC15 released lower amounts of acetylcholinesterase (AChE) when compared with the parental line, N18TG2. AChE activity extracted by hypotonic buffer, which can be regarded as the source of the released enzyme, was considerably higher in the parental than in the hybrid 108CC15 (respectively, ∼80% and ∼40% of cellular activity). On the other hand, evaluation of ectocellular, with respect to total, AChE activity showed that in N18TG2 cells only 7% of AChE was localized on the plasmalemma, whereas in the hybrid line the percentage of ectocellular activity was 3.7 times higher than in the parental line. We have also examined the effect of cytochalasin B and nocodazole. In the N18TG2 line, the former did not affect AChE release, which was significantly reduced by the latter. High K+ level in the culture medium, of both N18TG2 and hybrid 108CC15 cultures, induced an increase in AChE secretion; Ca2+ presence was required for high K+‐induced release. Muscle extracts increased AChE secretion in both the hybrid 108CC15 and the spinal cord neurons. The present data suggest that AChE secretion during neuronal development is modulated by depolarizing stimuli and by soluble factors produced by target cells and may be involved in the control of neuronal differentiation.

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Nitric oxide production in Caco-2 cells exposed to different inducers, inhibitors and natural toxins

Vignoli

Srivastava

Stammati

et al. 2001

Toxicology in Vitro

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Cellular and Molecular Aspects of Neuronal Differentiation

Augusti-Tocco

Biagioni

Plateroti

et al. 1991

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Metabolism of furazolidone: alternative pathways and modes of toxicity in different cell lines

et al. 1999

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1. The metabolism and cytotoxicity of the antimicrobial nitrofuran drug furazolidone have been studied in Caco-2, HEp-2 and V79 cell lines. Free radical production, metabolite pattern, formation of bound residues, inhibition of cellular replication and protection by the antioxidant glutathione were compared for the three cell lines. 2. All three cell lines produced the same nitro-anion radical with similar kinetics. Little further metabolic breakdown was observed in V79 cells, whereas Caco-2 and HEp-2 cells showed extensive degradation of furazolidone, but with different end patterns. 3. Under hypoxic conditions, the colony-forming ability was extensively impaired in HEp-2 cells whereas the other two cell lines were less affected, suggesting that irreversible damage to DNA occurred prevalently in HEp-2 cells. In V79 cells the absence of oxygen caused a 25-fold increase in the formation of protein-bound residues. 4. Brief exposure to furazolidone caused a 50% loss of endogenous glutathione in Caco-2 cells, but no loss could be detected in V79 and HEp-2 cells. Consistently, when glutathione was depleted by buthionine-[S,R]-sulphoximine (BSO) and diethylmaleate (DEM) treatment, the viability of V79 and HEp-2 cells was minimally affected by furazolidone, whereas that of Caco-2 cells was substantially reduced. 5. It is concluded that the cytotoxicity of furazolidone in these cell lines can be exerted by a number of different mechanisms, possibly related to different metabolic pathways. The cytotoxicity of nitrofuran drugs, therefore, cannot be ascribed to a single toxic intermediate, but in Caco-2 cells furazolidone is extensively metabolized and detoxified by GSH, in V79 is only partially activated and then bound to proteins, whereas in HEp-2, once activated, may react with DNA.

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A. L. Vignoli

Evidence for cytochrome P4501A2-mediated protein covalent binding of thiabendazole and for its passive intestinal transport: use of human and rabbit derived cells

Characterization of Acetylcholinesterase Secretion in Neuronal Cultures and Regulation by High K⁺ and Soluble Factors from Target Cells

Nitric oxide production in Caco-2 cells exposed to different inducers, inhibitors and natural toxins

Cellular and Molecular Aspects of Neuronal Differentiation

Metabolism of furazolidone: alternative pathways and modes of toxicity in different cell lines

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A. L. Vignoli

Evidence for cytochrome P4501A2-mediated protein covalent binding of thiabendazole and for its passive intestinal transport: use of human and rabbit derived cells

Characterization of Acetylcholinesterase Secretion in Neuronal Cultures and Regulation by High K+ and Soluble Factors from Target Cells

Nitric oxide production in Caco-2 cells exposed to different inducers, inhibitors and natural toxins

Cellular and Molecular Aspects of Neuronal Differentiation

Metabolism of furazolidone: alternative pathways and modes of toxicity in different cell lines

Contact Info

Product

Resources

About

Characterization of Acetylcholinesterase Secretion in Neuronal Cultures and Regulation by High K⁺ and Soluble Factors from Target Cells