Toxicity of Organic and Inorganic Nickel in Pancreatic Cell Cultures: Comparison to Cadmium
Toksičnost organskog i neogranskog nikla u ćelijskim kulturama pankreasa: poređenje sa kadmijumom
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Nickel compounds are Group 1 carcinogens and possibly cancer-causing in the pancreas. We examined the toxicity of nickel in both 2-D and 3-D pancreatic cell cultures, to determine the LD50 for organic and inorganic nickel in normal and cancerous cells. Assays with cadmium chloride were performed to be a comparison to potential nickel-induced toxicity. Cells were exposed to twelve concentrations of NiCl2 or Ni-(Ac)2 for 48h (2-D), or six concentrations for 48 hours (3-D). There was a significant (P=0.0016) difference between HPNE and AsPC-1 LD50values after cadmium exposure, at 69.9 μM and 29.2 μM, respectively. Neither form of nickel exhibited toxicity in 2-D or 3-D cultures, but after 48h, changes in spheroid morphology were observed. The inability of Ni to reduce viable cell numbers suggests a toxic mechanism that differs from cadmium, also a Group 1 carcinogen. The cell microenvironment was not a factor in nickel toxicity with no changes in viable cells in either 2-D or 3-D ...cultures. These studies only examined cytotoxicity, and not genotoxicity, a potential mechanism of nickel carcinogenicity. Alterations in DNA function or the expression of apoptotic proteins/processes would take longer to manifest. Current work focuses on cellular changes following extended nickel exposure.
Uloga nikla, toksičnog metala, u nastanku karcinoma pankreasa još uvek nije u potpunosti ispitana. Cilj rada je da ispita toksičnost nikla (Ni) u 2-D i 3-D kulturi ćelija pankreasa, kako bi se utvrdila LD50 vrednost za organski i neorganski nikl u normalnim i tumorskim ćelijama. Ispitivanja su izvršena i sa kadmijumom (Cd), metalom čija je uloga u nastanku karcinoma pankreasa potvrđena u prethodnim istraživanjima, a u svrhu poređenja sa potencijalnom toksičnošću izazvanom Ni. Ćelije su bile tretirane sa 12 različitih koncentracija NiCl2 ili Ni-(Ac)2 tokom 48h (2-D), odnosno sa šest različitih koncentracija tokom 48 sati (3-D). Nijedan oblik Ni nije ispoljio toksičnost u 2-D ili 3-D kulturama, ali nakon 48h primećene su promene u sferoidnoj morfologiji. Nemogućnost Ni da smanji broj vijabilnih ćelija sugeriše mehanizam karcinogeneze različit od mehanizma koji ispoljava Cd. Ipak, da bi se uočile izmene u funkciji DNK ili izražavanju apoptotičkih proteina/procesa potrebno je duže vremena,... pa su dalja istraživanja upravo fokusirana na ćelijske promene nakon produžene izloženosti nikla.
Кључне речи:
nickel / cadmium / cytotoxicity / toxic metals / cancer / nikl / kadmijum / citotoksičnost / toksični metali / karcinomИзвор:
Arhiv za farmaciju, 2020, 70, 6, 344-359Издавач:
- Pharmaceutical Association of Serbia
Финансирање / пројекти:
- Oklahoma IDeA Network of Biomedical Research Excellence (OK-INBRE; P20GM103447; DRW)
- National Institutes of Health and the OSU-CHS 355 Office of the Vice President for Research Seed Grant (#1-54333; DRW)
Институција/група
PharmacyTY - JOUR AU - Wallace, David R. AU - Buha-Đorđević, Aleksandra AU - Benton, Alexander PY - 2020 UR - https://farfar.pharmacy.bg.ac.rs/handle/123456789/3770 AB - Nickel compounds are Group 1 carcinogens and possibly cancer-causing in the pancreas. We examined the toxicity of nickel in both 2-D and 3-D pancreatic cell cultures, to determine the LD50 for organic and inorganic nickel in normal and cancerous cells. Assays with cadmium chloride were performed to be a comparison to potential nickel-induced toxicity. Cells were exposed to twelve concentrations of NiCl2 or Ni-(Ac)2 for 48h (2-D), or six concentrations for 48 hours (3-D). There was a significant (P=0.0016) difference between HPNE and AsPC-1 LD50values after cadmium exposure, at 69.9 μM and 29.2 μM, respectively. Neither form of nickel exhibited toxicity in 2-D or 3-D cultures, but after 48h, changes in spheroid morphology were observed. The inability of Ni to reduce viable cell numbers suggests a toxic mechanism that differs from cadmium, also a Group 1 carcinogen. The cell microenvironment was not a factor in nickel toxicity with no changes in viable cells in either 2-D or 3-D cultures. These studies only examined cytotoxicity, and not genotoxicity, a potential mechanism of nickel carcinogenicity. Alterations in DNA function or the expression of apoptotic proteins/processes would take longer to manifest. Current work focuses on cellular changes following extended nickel exposure. AB - Uloga nikla, toksičnog metala, u nastanku karcinoma pankreasa još uvek nije u potpunosti ispitana. Cilj rada je da ispita toksičnost nikla (Ni) u 2-D i 3-D kulturi ćelija pankreasa, kako bi se utvrdila LD50 vrednost za organski i neorganski nikl u normalnim i tumorskim ćelijama. Ispitivanja su izvršena i sa kadmijumom (Cd), metalom čija je uloga u nastanku karcinoma pankreasa potvrđena u prethodnim istraživanjima, a u svrhu poređenja sa potencijalnom toksičnošću izazvanom Ni. Ćelije su bile tretirane sa 12 različitih koncentracija NiCl2 ili Ni-(Ac)2 tokom 48h (2-D), odnosno sa šest različitih koncentracija tokom 48 sati (3-D). Nijedan oblik Ni nije ispoljio toksičnost u 2-D ili 3-D kulturama, ali nakon 48h primećene su promene u sferoidnoj morfologiji. Nemogućnost Ni da smanji broj vijabilnih ćelija sugeriše mehanizam karcinogeneze različit od mehanizma koji ispoljava Cd. Ipak, da bi se uočile izmene u funkciji DNK ili izražavanju apoptotičkih proteina/procesa potrebno je duže vremena, pa su dalja istraživanja upravo fokusirana na ćelijske promene nakon produžene izloženosti nikla. PB - Pharmaceutical Association of Serbia T2 - Arhiv za farmaciju T1 - Toxicity of Organic and Inorganic Nickel in Pancreatic Cell Cultures: Comparison to Cadmium T1 - Toksičnost organskog i neogranskog nikla u ćelijskim kulturama pankreasa: poređenje sa kadmijumom VL - 70 IS - 6 SP - 344 EP - 359 DO - 10.5937/arhfarm70-29277 ER -
@article{ author = "Wallace, David R. and Buha-Đorđević, Aleksandra and Benton, Alexander", year = "2020", abstract = "Nickel compounds are Group 1 carcinogens and possibly cancer-causing in the pancreas. We examined the toxicity of nickel in both 2-D and 3-D pancreatic cell cultures, to determine the LD50 for organic and inorganic nickel in normal and cancerous cells. Assays with cadmium chloride were performed to be a comparison to potential nickel-induced toxicity. Cells were exposed to twelve concentrations of NiCl2 or Ni-(Ac)2 for 48h (2-D), or six concentrations for 48 hours (3-D). There was a significant (P=0.0016) difference between HPNE and AsPC-1 LD50values after cadmium exposure, at 69.9 μM and 29.2 μM, respectively. Neither form of nickel exhibited toxicity in 2-D or 3-D cultures, but after 48h, changes in spheroid morphology were observed. The inability of Ni to reduce viable cell numbers suggests a toxic mechanism that differs from cadmium, also a Group 1 carcinogen. The cell microenvironment was not a factor in nickel toxicity with no changes in viable cells in either 2-D or 3-D cultures. These studies only examined cytotoxicity, and not genotoxicity, a potential mechanism of nickel carcinogenicity. Alterations in DNA function or the expression of apoptotic proteins/processes would take longer to manifest. Current work focuses on cellular changes following extended nickel exposure., Uloga nikla, toksičnog metala, u nastanku karcinoma pankreasa još uvek nije u potpunosti ispitana. Cilj rada je da ispita toksičnost nikla (Ni) u 2-D i 3-D kulturi ćelija pankreasa, kako bi se utvrdila LD50 vrednost za organski i neorganski nikl u normalnim i tumorskim ćelijama. Ispitivanja su izvršena i sa kadmijumom (Cd), metalom čija je uloga u nastanku karcinoma pankreasa potvrđena u prethodnim istraživanjima, a u svrhu poređenja sa potencijalnom toksičnošću izazvanom Ni. Ćelije su bile tretirane sa 12 različitih koncentracija NiCl2 ili Ni-(Ac)2 tokom 48h (2-D), odnosno sa šest različitih koncentracija tokom 48 sati (3-D). Nijedan oblik Ni nije ispoljio toksičnost u 2-D ili 3-D kulturama, ali nakon 48h primećene su promene u sferoidnoj morfologiji. Nemogućnost Ni da smanji broj vijabilnih ćelija sugeriše mehanizam karcinogeneze različit od mehanizma koji ispoljava Cd. Ipak, da bi se uočile izmene u funkciji DNK ili izražavanju apoptotičkih proteina/procesa potrebno je duže vremena, pa su dalja istraživanja upravo fokusirana na ćelijske promene nakon produžene izloženosti nikla.", publisher = "Pharmaceutical Association of Serbia", journal = "Arhiv za farmaciju", title = "Toxicity of Organic and Inorganic Nickel in Pancreatic Cell Cultures: Comparison to Cadmium, Toksičnost organskog i neogranskog nikla u ćelijskim kulturama pankreasa: poređenje sa kadmijumom", volume = "70", number = "6", pages = "344-359", doi = "10.5937/arhfarm70-29277" }
Wallace, D. R., Buha-Đorđević, A.,& Benton, A.. (2020). Toxicity of Organic and Inorganic Nickel in Pancreatic Cell Cultures: Comparison to Cadmium. in Arhiv za farmaciju Pharmaceutical Association of Serbia., 70(6), 344-359. https://doi.org/10.5937/arhfarm70-29277
Wallace DR, Buha-Đorđević A, Benton A. Toxicity of Organic and Inorganic Nickel in Pancreatic Cell Cultures: Comparison to Cadmium. in Arhiv za farmaciju. 2020;70(6):344-359. doi:10.5937/arhfarm70-29277 .
Wallace, David R., Buha-Đorđević, Aleksandra, Benton, Alexander, "Toxicity of Organic and Inorganic Nickel in Pancreatic Cell Cultures: Comparison to Cadmium" in Arhiv za farmaciju, 70, no. 6 (2020):344-359, https://doi.org/10.5937/arhfarm70-29277 . .