Retracted: Comparative study of cyto‐ and genotoxic potential with mechanistic insights of tungsten oxide nano‐ and microparticles in lung carcinoma cells

Abstract: The exigency of semiconductor and super capacitor tungsten oxide nanoparticles (WO NPs) is increasing in various sectors. However, limited information on their toxicity and biological interactions are available. Hence, we explored the underlying mechanisms of toxicity induced by WO NPs and their microparticles (MPs) using different concentrations (0-300 μg ml ) in human lung carcinoma (A549) cells. The mean size of WO NPs and MPs by transmission electron microscopy was 53.84 nm and 3.88 μm, respectively. WO NP… Show more

“…The aim of our study was thus to provide an evaluation of the cytotoxic, genotoxic, and epigenetic in vitro effects that ITER-like W-NPs might have on human health, in relation with the possible W-NPs transformation in biological media. In particular, we focused our attention to an in vitro 2D model of the lung, the BEAS-2B cell line, that was chosen because inhalation is the main route of exposure to W. Similarly, a significant number of toxicity studies on W were performed on lung-derived cell lines [4,5,7,8,10,12].…”

“…While we do not have any physico-chemical information on the WO 3 NPs used in the Sprague-Dawley ex vivo studies presented just above [25,26], Chinde and colleagues have presented a thorough characterization of the WO 3 NPs they have tested on the alveolar A549 cell line [5]. In milliQ water, by TEM, the mean size of WO 3 NPs corresponded to 54 ± 29 nm, while DLS corresponded, respectively, to 170 ± 2 nm and 224 ± 5 nm in milliQ and in DMEM cell culture medium.…”

“…Particles were suspended for 24–48 h in DMEM and the nominal WO 3 concentration was compared to total W measured by ICP-MS. While the nominal WO 3 concentration of 200 and 300 µg/mL corresponded to 170 and 330 µg/mL total W concentration before ultracentrifugation, only a small fraction of soluble W (0.9 and 2.4 µg/mL) was detected in ultracentrifuged solutions [5]. These results clearly indicate that Chinde et al used non-soluble WO 3 NPs; conversely, our ITER-like W-NPs showed a significant dissolved W mass fraction already at t = 0 h in cell culture medium which further increased up to 24 h (Table 2).…”

“…The soluble Na 2 WO 4 (W 6+ ) was able to induce apoptosis and cell cycle blockage in human peripheral lymphocytes [3] and, by enhancing the expression of genes related to cancer and inflammation, to alter gene expression in the bronchial human-derived BEAS-2B cell line [4]. WO 3 NPs (W 6+ ) impaired the viability of human-derived lung alveolar A549 cells, enhanced DNA damage and micronuclei formation, as well as ROS production and apoptosis [5].…”

In Vitro Analysis of the Effects of ITER-Like Tungsten Nanoparticles: Cytotoxicity and Epigenotoxicity in BEAS-2B Cells

“…The aim of our study was thus to provide an evaluation of the cytotoxic, genotoxic, and epigenetic in vitro effects that ITER-like W-NPs might have on human health, in relation with the possible W-NPs transformation in biological media. In particular, we focused our attention to an in vitro 2D model of the lung, the BEAS-2B cell line, that was chosen because inhalation is the main route of exposure to W. Similarly, a significant number of toxicity studies on W were performed on lung-derived cell lines [4,5,7,8,10,12].…”

“…While we do not have any physico-chemical information on the WO 3 NPs used in the Sprague-Dawley ex vivo studies presented just above [25,26], Chinde and colleagues have presented a thorough characterization of the WO 3 NPs they have tested on the alveolar A549 cell line [5]. In milliQ water, by TEM, the mean size of WO 3 NPs corresponded to 54 ± 29 nm, while DLS corresponded, respectively, to 170 ± 2 nm and 224 ± 5 nm in milliQ and in DMEM cell culture medium.…”

“…Particles were suspended for 24–48 h in DMEM and the nominal WO 3 concentration was compared to total W measured by ICP-MS. While the nominal WO 3 concentration of 200 and 300 µg/mL corresponded to 170 and 330 µg/mL total W concentration before ultracentrifugation, only a small fraction of soluble W (0.9 and 2.4 µg/mL) was detected in ultracentrifuged solutions [5]. These results clearly indicate that Chinde et al used non-soluble WO 3 NPs; conversely, our ITER-like W-NPs showed a significant dissolved W mass fraction already at t = 0 h in cell culture medium which further increased up to 24 h (Table 2).…”

“…The soluble Na 2 WO 4 (W 6+ ) was able to induce apoptosis and cell cycle blockage in human peripheral lymphocytes [3] and, by enhancing the expression of genes related to cancer and inflammation, to alter gene expression in the bronchial human-derived BEAS-2B cell line [4]. WO 3 NPs (W 6+ ) impaired the viability of human-derived lung alveolar A549 cells, enhanced DNA damage and micronuclei formation, as well as ROS production and apoptosis [5].…”

In Vitro Analysis of the Effects of ITER-Like Tungsten Nanoparticles: Cytotoxicity and Epigenotoxicity in BEAS-2B Cells

“…On the contrary, suspensions of uncoated particles were shown to be extremely toxic in vivo, leading to mouse death within a few seconds. Chinde et al studied the toxicity mechanisms of different concentrations (0-300 μg/mL) of WO 3 nano-and microparticles in human lung carcinoma (A549) cells [117]. The microparticles were nontoxic in the entire range of concentrations studied, while the nanoparticles were nontoxic in the concentration range of up to 100 μg/mL only.…”

Highly Crystalline WO₃ Nanoparticles Are Nontoxic to Stem Cells and Cancer Cells

Retracted: In vitro genotoxicity assessment of nickel(II) oxide nanoparticles on lymphocytes of human peripheral blood