Tetrahydroaminoacridine‐induced ribosomal changes and inhibition of protein synthesis in rat hepatocyte suspensions

Tacrine (tetrahydroaminoacridine) is currently the only drug approved for the treatment of Alzheimer's disease. Unfortunately, tetrahydroaminoacridine therapy is often limited by this drug's propensity to induce reversible hepatotoxicity. Using suspensions of freshly isolated rat hepatocyt...

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Published in:Hepatology (Baltimore, Md.) Md.), 1994-07, Vol.20 (1), p.240-246
Main Authors: Fariss, Marc W., Johnsen, Sharon A., Walton, Lloyd P., Mumaw, Virgil R., Ray, Sidhartha D.
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Cell Survival - drug effects
Cholinergic system
Depression, Chemical
DNA - metabolism
Liver - cytology
Liver - drug effects
Liver - metabolism
Male
Medical sciences
Neuropharmacology
Neurotransmitters. Neurotransmission. Receptors
Pharmacology. Drug treatments
Protein Biosynthesis
Rats
Rats, Sprague-Dawley
Ribosomes - drug effects
Ribosomes - ultrastructure
RNA - metabolism
Suspensions
Tacrine - toxicity
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container_title Hepatology (Baltimore, Md.)
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description Tacrine (tetrahydroaminoacridine) is currently the only drug approved for the treatment of Alzheimer's disease. Unfortunately, tetrahydroaminoacridine therapy is often limited by this drug's propensity to induce reversible hepatotoxicity. Using suspensions of freshly isolated rat hepatocytes, we investigated the mechanism of tetrahydroaminoacridine cytotoxicity by examining the effect of tetrahydroaminoacridine on hepatocyte viability, protein synthesis, protein, DNA and RNA levels and ultrastructure. Our experimental findings support the explanation that tetrahydroaminoacridine‐induced hepatotoxicity results from tetrahydroaminoacridine's adverse effect on protein synthesis and ribosomal structure and function. We found that viable, tetrahydroaminoacridine‐treated hepatocytes (1.0 to 2.0 mmol/L or 118 to 235 μg/106 cells) demonstrated a dose‐dependent and dramatic aggregation of ribosomes on endoplasmic reticulum as well as the aggregation of other nucleic acids found in the nucleus (chromatin) and in mitochondria. These electron microscopy data suggest that tetrahydroaminoacridine treatment results in severe ribosomal dysfunction. This was confirmed by the observed rapid loss of cellular RNA content (but not DNA or protein) and the rapid and complete inhibition of protein synthesis in tetrahydroaminoacridine‐treated cells (lowest concentration tested was 0.5 mmol/L or 58 μg/106 cells). Thus tetrahydroaminoacridine treatment appears to aggregate hepatocellular nucleic acids, and in doing so adversely affects ribosomal function and protein synthesis. We propose that these adverse effects of exposure to tetrahydroaminoacridine are responsible for tetrahydroaminoacridine‐induced hepatotoxicity. (Hepatology 1994;20:•••.)
doi_str_mv 10.1002/hep.1840200134
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identifier ISSN: 0270-9139
ispartof Hepatology (Baltimore, Md.), 1994-07, Vol.20 (1), p.240-246
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subjects Animals
Biological and medical sciences
Cell Survival - drug effects
Cholinergic system
Depression, Chemical
DNA - metabolism
Liver - cytology
Liver - drug effects
Liver - metabolism
Male
Medical sciences
Neuropharmacology
Neurotransmitters. Neurotransmission. Receptors
Pharmacology. Drug treatments
Protein Biosynthesis
Rats
Rats, Sprague-Dawley
Ribosomes - drug effects
Ribosomes - ultrastructure
RNA - metabolism
Suspensions
Tacrine - toxicity
title Tetrahydroaminoacridine‐induced ribosomal changes and inhibition of protein synthesis in rat hepatocyte suspensions
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