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Target Concepts:
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Query: EC:3.4.11.18 (
MAP
)
7,412
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Primary cultures of rat cerebellar neurons were used to study mechanisms of arsenic neurotoxicity. Exposure to 5, 10, or 15 microM sodium arsenite reduced cerebellar neuron viability and induced nuclear fragmentation and condensation as well as DNA degradation to oligonucleosome fragments. Exposure to 1 or 5 mM
dimethylarsinic acid
caused similar changes. Therefore, both inorganic arsenite and organic
dimethylarsinic acid
induce apoptosis in cerebellar neurons, with the inorganic form being more toxic. Cotreatment with cycloheximide or actinomycin D, inhibitors of protein or RNA synthesis, respectively, or with the caspase inhibitor zVAD, completely blocked arsenite-induced cerebellar neuron apoptosis. This implies that arsenite-induced cerebellar neuron apoptosis requires new gene expression and caspase activation. Interestingly, sodium arsenite selectively activated p38 and JNK3, but not JNK1 or JNK2 in cerebellar neurons. Blocking the p38 or JNK signaling pathways using the inhibitors SB203580 or CEP-1347 protected cerebellar neurons against arsenite-induced apoptosis. These data suggest that arsenite neurotoxicity may be due to apoptosis caused by activation of p38 and JNK3
MAP
kinases.
...
PMID:Arsenic induces apoptosis in rat cerebellar neurons via activation of JNK3 and p38 MAP kinases. 1144 28
Arsenic trioxide, As(2)O(3), has successfully been used to treat acute promyelocytic leukemia (APL). Induction of apoptosis in cancerous cells has been proposed to be the underlying mechanism for the therapeutic efficacy of arsenic. To further understand the cytotoxicity of arsenic compounds in APL cells, HL-60 cells were exposed to graded concentrations of the following arsenicals for up to 48 h: arsenic trioxide (As(III)), sodium arsenate (As(V)), phenylarsine oxide (PAO(III)), monomethylarsonous acid (MMA(III)), monomethylarsonic acid (MMA(V)) and
dimethylarsinic acid
(DMA(V)), and the viability and modes of cell death assessed. The arsenic-exposed cells were stained with annexin V-PE and 7-aminoactinomycin D (7-AAD) and analyzed by flow cytometry in order to detect apoptotic and viable cells while cell morphology was visualized using scanning and transmission electron microscopy. Acridine orange staining and microtubule-associated protein 1 light chain 3 (MAP-LC3) detection were used to recognize autophagic cell death. The results showed that the compounds reduced viable HL-60 cells by inducing apoptosis in a concentration-dependent manner. None of the compounds tested caused a significant change in binding of acridine orange or redistribution of
MAP
-LC3. Potencies of the six different arsenic compounds tested were ranked as PAO(III)>MMA(III)> or =As(III)>As(V)>MMA(V)>DMA(V). An increase in caspase-3 activity by PAO(III), MMA(III) and DMA(V) implied that these compounds induced apoptosis in HL-60 cells through a caspase-dependent mechanism, but the other arsenic compounds failed to activate caspase-3, suggesting that they induce apoptosis by an alternative pathway.
...
PMID:Differential cytotoxic effects of arsenic compounds in human acute promyelocytic leukemia cells. 1946 42
