Harrie P. van Assouw scite author profile

The use of in vitro drug metabolism data in the understanding of in vivo pharmacokinetic, safety and toxicity data has become a large area of scientific interest. This has stemmed from a trend in the pharmaceutical industry to use in vitro data generated from human tissue as a criterion to select compounds for further investigation. As well as measuring metabolic stability in vitro using human liver microsomal preparations, the identification of possible metabolite(s) formed may play a vital role in Hit-to-Lead and Lead optimisation processes. The data-dependent scan function mode with the ion-trap instrumentation provides the ability to measure the metabolic stability and identification of possible metabolites of a compound. A gradient liquid chromatographic method with a run time of 6 min/injection was developed for this purpose. The approach of simultaneous metabolic stability measurements and rapid identification of metabolites of drugs with high (verapamil), medium (propranolol and cisapride) and low (flunarazine) metabolic stabilities using ion-trap mass spectrometry is described. The metabolites identified after 15 min incubation for verapamil, propranolol and cisapride are in good agreement with those reported as the major metabolites in human in vivo studies.

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Neurotoxic action of veratridine in rat brain neuronal cultures: mechanism of neuroprotection by Ca++-antagonists non-selective for slow Ca++-channels

Pauwels

Assouw

Peeters

et al. 1990

European Journal of Pharmacology

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Attenuation of neurotoxicity following anoxia or glutamate receptor activation in EGF- and hippocampal extract-treated neuronal cultures

Pauwels

Assouw

Leysen

1989

Cellular Signalling

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Towards an improved survival of rat brain neurons in culture by cerebrospinal fluid of patients with senile dementia of Alzheimer's type

et al. 1993

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Chronic treatment with sabeluzole protects cultured rat brain neurons from the neurotoxic effects of excitatory amino acids

Pauwels

Assouw

Peeters

et al. 1992

Synapse

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The neuroprotective properties of the cognitive enhancer sabeluzole were investigated in rat brain neuronal cultures derived from the hippocampal formation of 17-day-old rat embryos. Measurement of the neuronal cytoskeletal microtubule-associated protein, MAP2, was used to assess survival of neurons after exposure of neuronal cultures to glutamate. MAP2 was quantified in neuronal cell homogenates by means of an enzyme-linked immunosorbent assay (ELISA) using a mouse monoclonal MAP2 antibody, peroxidase-labeled goat anti-mouse Ig antiserum, and 2,2'-azido-di-[3-ethylbenz-thiazoline] sulphonate (ABTS) as substrate. Exposure of 7-day-old neuronal cultures to 1 mM glutamate for 16 hours led to a three-fold increase in released lactate dehydrogenase (LDH) and a 40% decrease in cellular MAP2 content. Acute treatment of neuronal cultures with 10 microM sabeluzole yielded a 40% drop in released LDH induced by glutamate. Cultures treated chronically with 0.1 microM sabeluzole on days 1 and 4 in culture showed, after 1 week in culture, a MAP2 content and total LDH activity that was not different from control cultures. A 16-hour exposure to 1 mM glutamate did not induce LDH release or changes in MAP2 levels in sabeluzole-treated cultures. A single treatment with 0.1 microM sabeluzole between day 1 to 5 induced a 70-80% drop in glutamate-induced released LDH in 7-day-old neuronal cultures. Full and partial neuronal protection after chronic sabeluzole treatment at 0.1 microM was also observed for neurotoxicity induced by 5 mM N-methyl-D-aspartate (NMDA) and 1 mM kainic acid or 30 microM veratridine, respectively. Within a series of compounds such as Ca++ and Na+ channel antagonists, glutamate receptor antagonists and various neurotransmitter receptor antagonists, sabeluzole, chronically given, were the most potent for inhibition of released LDH induced by 1 mM glutamate (IC50-value: 34 +/- 13 nM). In conclusion, chronic sabeluzole treatment protects cultured rat brain neurons from excitotoxic aggression.

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