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1.
Toxicol In Vitro ; 89: 105587, 2023 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-36933581

RESUMO

Fenpyroximate (FEN) is an acaricide that inhibits mitochondrial electron transport at the NADH-coenzyme Q oxidoreductase (complex I). The present study was designed to investigate the molecular mechanisms underling FEN toxicity on cultured human colon carcinoma cells (HCT116). Our data showed that FEN induced HCT116 cell mortality in a concentration dependent manner. FEN arrested cell cycle in G0/G1 phase and increased DNA damage as assessed by comet assay. Induction of apoptosis was confirmed in HCT116 cells exposed to FEN by AO-EB staining and Annexin V-FITC/PI double staining assay. Moreover, FEN induced a loss in mitochondrial membrane potential (MMP), increased p53 and Bax mRNA expression and decreased bcl2 mRNA level. An increase in caspase 9 and caspase 3 activities was also detected. All toghether, these data suggest that FEN induce apoptosis in HCT116 cells via mitochondrial pathway. To check the implication of oxidative stress in FEN-induced cell toxicity, we examined the oxidative stress statue in HCT116 cells exposed to FEN and we tested the effect of a powerful antioxidant, N-acetylcystein (NAC), on FEN-caused toxicity. It was observed that FEN enhanced ROS generation and MDA levels and disturbed SOD and CAT activities. Besides, cell treatment with NAC significantly protected cells from mortality, DNA damage, loss of MMP, and caspase 3 activity induced by FEN. To the best of our knowledge, this is the first study showing that FEN induced mitochondrial apoptosis via ROS generation and oxidative stress.


Assuntos
Acaricidas , Neoplasias do Colo , Humanos , Células HCT116 , Acaricidas/farmacologia , Espécies Reativas de Oxigênio/metabolismo , Caspase 3/metabolismo , Estresse Oxidativo , Apoptose , RNA Mensageiro/metabolismo , Potencial da Membrana Mitocondrial
2.
Neurotoxicology ; 91: 177-187, 2022 07.
Artigo em Inglês | MEDLINE | ID: mdl-35580743

RESUMO

Fenpyroximate (FEN) is an acaricide used in agriculture / horticulture to control spider mites and leafhoppers. It inhibits the transport of mitochondrial electrons at the level of NADH-coenzyme Q oxidoreductase (complex I). Despite the implication of inhibition of mitochondrial complex I in neurotoxicity, especially in neurodegenerative diseases, data concerning FEN neurotoxicity remain limited. Thus, the present study was designed to investigate the toxic effect of FEN on rat brain tissue and on human neuroblastoma cells (SH-SY5Y). Rat exposure to FEN at three different doses (4.8, 9.6 and 48 mg / Kg bw) for 28 consecutive days resulted in histopathological modifications in brain tissue and a significant decrease in acetylcholinesterase activity. Further, FEN significantly enhanced lipid peroxidation and protein oxidation in rat brain and disturbed activities of antioxidant enzymes (SOD, CAT, GPx, and GST). Besides, FEN was found to induce DNA damage in a significant and dose-dependent manner in rat brain as assessed by the comet assay. To better understand FEN neurotoxic effect, we monitored our study on SH-SY5Y cells. We confirm our data found in rat brain tissue. In fact, FEN induced cell mortality in a concentration dependent manner. It over-produced intracellular ROS and lipid peroxidation and enhanced SOD and CAT activities. FEN was also found to induce DNA damage in SH-SY5Y cells. Moreover, FEN induced a loss of mitochondrial membrane potential, which confirms FEN mitochondrial impairing activity. Acridine Orange-Bromure Etidium (AO-BE) cell staining indicated that FEN enhanced the percentage of apoptotic cells in a concentration dependent manner. Further, pretreatment with a general caspases inhibitor (ZVAD-FMK), reduced significantly the FEN induced cell mortality. We also shown that FEN increased caspase 3 activity. These findings suggested, for the first time, the possibility of the involvement of mitochondrial pathway in FEN-induced cell apoptosis.


Assuntos
Neuroblastoma , Acetilcolinesterase/genética , Animais , Apoptose , Benzoatos , Encéfalo , Linhagem Celular Tumoral , Sobrevivência Celular , Dano ao DNA , Humanos , Estresse Oxidativo , Pirazóis , Ratos , Ratos Wistar , Superóxido Dismutase/genética
3.
Neurotoxicology ; 89: 184-190, 2022 03.
Artigo em Inglês | MEDLINE | ID: mdl-35167857

RESUMO

Epoxiconazole is among the most widely applied pesticides worldwide. The increased use of these products could cause toxic effects on human health which are mainly associated with its residues in food or occupational exposure in agriculture. The brain is the principal target of lipophilic compounds exposure, while the data of brain injury induced by Epoxiconazole remains unclear. The purpose of our investigation was to assess the cytotoxic and genotoxic effects of the epoxiconazole in rat Pheochromocytoma (PC 12). We found that epoxiconazole could reduce the viability and proliferation of PC12 cells, induce the DNA damage, nuclear condensation, cytoskeleton network disruption and enhance the apoptotic cell death. Intracellular biochemical assay proved that EPX induces the loss of mitochondrial membrane potential (ΔΨm) and activates caspase-3. Indeed, EPX instigated ROS generation in neuronal cells, which is accompanied by an increase of lipid peroxidation as confirmed by the high levels of MDA. Interestingly, Pre-treatment of PC12 cells with the ROS scavenger N-acetylcysteine mitigated EPX-provoked DNA fragmentation and enhancement of apoptosis. Our results demonstrate that the genotoxic and cytotoxic outcomes of EPX are mediated through a ROS-dependent pathway in PC12 cells.


Assuntos
Neoplasias das Glândulas Suprarrenais , Feocromocitoma , Neoplasias das Glândulas Suprarrenais/induzido quimicamente , Animais , Apoptose , Sobrevivência Celular , Dano ao DNA , Compostos de Epóxi , Estresse Oxidativo , Células PC12 , Feocromocitoma/induzido quimicamente , Ratos , Espécies Reativas de Oxigênio/metabolismo , Triazóis
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