Molecular Physicochemical Properties of Selected Pesticides as Predictive Factors for Oxidative Stress and Apoptosis-Dependent Cell Death in Caco-2 and HepG2 Cells

Silva, Amélia M.; Martins-Gomes, Carlos; Ferreira, Sandrine S.; Souto, Eliana B.; Andreani, Tatiana

doi:10.3390/ijms23158107

Cited by 15 publications

(11 citation statements)

References 65 publications

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“…In addition, the cell types used might be a factor in obtaining different results. In a study with pure glyphosate, however, ROS level was not changed by 250-750 µM concentrations at 24 h [38]. In our study, decline of ROS at higher dose (200 µM) might be related to excessive cytotoxicity at high doses.…”

Section: Roundup Induces Ros Formationcontrasting

confidence: 69%

Evaluation of Roundup® Toxicity in Human Lung Cells

Endirlik¹,

Ökçesiz²,

Hamurcu³

et al. 2023

Ankara Ecz. Fak. Derg.

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Objective: In this study, toxic effects of Roundup, one of the most common glyphosate-based herbicides (GBHs), were assessed on human bronchial epithelial cells (BEAS-2B). Material and Method: MTT and neutral red uptake assays were implemented for evaluation of cell viability at 24 and 48 h. Apoptosis detection was made by Muse analyzer while Hoechst staining was employed to detect apoptotic nuclear changes. In addition, dichlorofluorescein diacetate assay was used for the assessment of reactive oxygen species (ROS) formation. Result and Discussion: Similar half maximal inhibitory concentrations (IC50) were obtained from cytotoxicity assays. Results showed that significant reduction in the viability of BEAS-2B cells started to occur from 200 µM at 24 h and 50 µM at48 h treatment times. Roundup treatments for both time points were found to dose-dependently cause apoptosis and were also observed to induce cellular ROS formation. These findings suggest that GBHs can stimulate ROS production, as well as apoptosis on healthy human lung cells which is important considering inhalation is one of the primary exposure routes to these group of chemicals.

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Section: Roundup Induces Ros Formationcontrasting

confidence: 69%

Evaluation of Roundup® Toxicity in Human Lung Cells

Endirlik¹,

Ökçesiz²,

Hamurcu³

et al. 2023

Ankara Ecz. Fak. Derg.

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“…Mitochondrial membrane potential (MMP) was evaluated using 5,5 ′′ ,6,6 ′′ -tetrachloro-1,1 ′′ ,3,3 ′′ -tetraethylbenzimidazolylcarbocyanineiodide (JC-1). Cells were processed as described for DCFDA but incubated with 200 µL of JC-1 (2 µM, in FBS-free DMEM) for 20 min (37 • C, in the dark) [65]. As JC-1 is a ratiometric indicator of MMP variations, the results are presented as the ratio of mean FL2/FL1 fluorescence intensities, normalized by the negative control (nonexposed cells).…”

Section: Flow Cytometry Assessment Of Intracellular Ros Mitochondrial...mentioning

confidence: 99%

Linking Variability in Phytochemical Composition with Safety Profile of Thymus carnosus Boiss. Extracts: Effect of Major Compounds and Evaluation of Markers of Oxidative Stress and Cell Death

Martins-Gomes,

Nunes,

Silva

2024

IJMS

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Natural products are generally considered safe for human consumption, but this classification is often based on ethnobotanical surveys or their use in traditional medicine over a long period of time. However, edaphoclimatic factors are known to produce different chemotypes, which may affect the safety profile and bioactivities, and are not commonly considered for plants exploited as crops worldwide. Thymus carnosus Boiss., a thyme species with various health-promoting effects, has potential pharmaceutical applications, but edaphoclimatic factors were found to significantly impact its phytochemical composition. Thus, we aimed to assess the safety profile of T. carnosus extracts obtained from plants harvested in two locations over three consecutive years and to establish an association with specific components, an essential study in the search for new sources of nutraceuticals. Thus, the antiproliferative effect of an aqueous decoction (AD), hydroethanolic (HE) extracts, and major extracts’ components of T. carnosus was evaluated on intestinal (Caco-2) and hepatic (HepG2) cell models, revealing effects dependent on extract type, cell line, and tested compounds. Flavonoids induced different cytotoxic patterns, which could be attributed to molecular structural differences. Flow cytometry analysis showed apoptosis and necrosis induction, mediated by the modulation of intracellular reactive oxygen species and mitochondrial membrane potential, effects that were dependent on the cell line and phytochemical composition and on the synergism between extracts components, rather than on the activity of an isolated compound. While ursolic acid was the component with the strongest impact on the difference between extraction methods, flavonoids assumed a pivotal role in the response of different cell lines to the extracts. We report for the first time, for Thymus spp. extracts, that variations in the phytochemical composition clearly influence the cellular response, thus highlighting the need for extract standardization for medicinal applications.

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“…Concerning IMD, this insecticide was quantified in many food products, and a daily intake of IMD was estimated to be 0.004-0.131 µg/kg body weight [50]. According to cell-based assays, besides dose-dependent toxicity, cytotoxicity is also dependent on the pesticide, the cell type and exposure time [51,52]. In order to compare the effects of the four pesticides, the same range of concentrations (up to 1 mM) was used in the experiments.…”

Section: Pesticide-induced Cholinesterase Inhibitionmentioning

confidence: 99%

Neurotoxicity Assessment of Four Different Pesticides Using In Vitro Enzymatic Inhibition Assays

Martins-Gomes

Coutinho

Silva

et al. 2022

Toxics

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Pesticides affect different organs and tissues according to their bioavailability, chemical properties and further molecular interactions. In animal models exposed to several classes of pesticides, neurotoxic effects have been described, including the reduction of acetylcholinesterase activity in tissue homogenates. However, in homogenates, the reduction in enzymatic activity may also result from lower enzymatic expression and not only from enzymatic inhibition. Thus, in this work, we aimed to investigate the neurotoxic potential of four distinct pesticides: glyphosate (herbicide), imazalil (fungicide), imidacloprid (neonicotinoid insecticide) and lambda-cyhalothrin (pyrethroid insecticide), by assessing their inhibitory effect on the activity of acetylcholinesterase (AChE), butyrylcholinesterase (BChE) and tyrosinase, by using direct in vitro enzymatic inhibition methods. All pesticides dose-dependently inhibited AChE activity, with an inhibition of 11 ± 2% for glyphosate, 48 ± 2% for imidacloprid, 49 ± 3% for imazalil and 50 ± 3% for lambda-cyhalothrin, at 1 mM. Only imazalil inhibited BChE. Imazalil induced dose-dependent inhibition of BChE with identical pattern as that observed for AChE; however, for lower concentrations (up to 500 μM), imazalil showed higher specificity for AChE, and for higher concentrations, the same specificity was found. Imazalil, at 1 mM, inhibited the activity of BChE by 49 ± 1%. None of the pesticides, up to 1 mM, inhibited tyrosinase activity. In conclusion, the herbicide glyphosate shows specificity for AChE but low inhibitory capacity, the insecticides imidacloprid and λ-cyhalothrin present selective AChE inhibition, while the fungicide IMZ is a broad-spectrum cholinesterase inhibitor capable of inhibiting AChE and BChE in an equal manner. Among these pesticides, the insecticides and the fungicide are the ones with higher neurotoxic potential.

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Molecular Physicochemical Properties of Selected Pesticides as Predictive Factors for Oxidative Stress and Apoptosis-Dependent Cell Death in Caco-2 and HepG2 Cells

Cited by 15 publications

References 65 publications

Evaluation of Roundup® Toxicity in Human Lung Cells

Evaluation of Roundup® Toxicity in Human Lung Cells

Linking Variability in Phytochemical Composition with Safety Profile of Thymus carnosus Boiss. Extracts: Effect of Major Compounds and Evaluation of Markers of Oxidative Stress and Cell Death

Neurotoxicity Assessment of Four Different Pesticides Using In Vitro Enzymatic Inhibition Assays

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