Detail
Článek
Článek online
FT
Medvik - BMČ
  • Je něco špatně v tomto záznamu ?

Impact of nanosilver on various DNA lesions and HPRT gene mutations - effects of charge and surface coating

A. Huk, E. Izak-Nau, N. El Yamani, H. Uggerud, M. Vadset, B. Zasonska, A. Duschl, M. Dusinska,

. 2015 ; 12 (-) : 25. [pub] 20150724

Jazyk angličtina Země Anglie, Velká Británie

Typ dokumentu srovnávací studie, časopisecké články, práce podpořená grantem

Perzistentní odkaz   https://www.medvik.cz/link/bmc16020495

BACKGROUND: The main goal of this research was to study the interactions of a fully characterized set of silver nanomaterials (Ag ENMs) with cells in vitro, according to the standards of Good Laboratory Practices (GLP), to assure the quality of nanotoxicology research. We were interested in whether Ag ENMs synthesized by the same method, with the same size distribution, shape and specific surface area, but with different charges and surface compositions could give different biological responses. METHODS: A range of methods and toxicity endpoints were applied to study the impacts of interaction of the Ag ENMs with TK6 cells. As tests of viability, relative growth activity and trypan blue exclusion were applied. Genotoxicity was evaluated by the alkaline comet assay for detection of strand breaks and oxidized purines. The mutagenic potential of Ag ENMs was investigated with the in vitro HPRT gene mutation test on V79-4 cells according to the OECD protocol. Ag ENM agglomeration, dissolution as well as uptake and distribution within the cells were investigated as crucial aspects of Ag ENM toxicity. Ag ENM stabilizers were included in addition to positive and negative controls. RESULTS: Different cytotoxic effects were observed including membrane damage, cell cycle arrest and cell death. Ag ENMs also induced various kinds of DNA damage including strand breaks and DNA oxidation, and caused gene mutation. We found that positive Ag ENMs had greater impact on cyto- and genotoxicity than did Ag ENMs with neutral or negative charge, assumed to be related to their greater uptake into cells and to their presence in the nucleus and mitochondria, implying that Ag ENMs might induce toxicity by both direct and indirect mechanisms. CONCLUSION: We showed that Ag ENMs could be cytotoxic, genotoxic and mutagenic. Our experiments with the HPRT gene mutation assay demonstrated that surface chemical composition plays a significant role in Ag ENM toxicity.

Citace poskytuje Crossref.org

000      
00000naa a2200000 a 4500
001      
bmc16020495
003      
CZ-PrNML
005      
20160728111013.0
007      
ta
008      
160722s2015 enk f 000 0|eng||
009      
AR
024    7_
$a 10.1186/s12989-015-0100-x $2 doi
024    7_
$a 10.1186/s12989-015-0100-x $2 doi
035    __
$a (PubMed)26204901
040    __
$a ABA008 $b cze $d ABA008 $e AACR2
041    0_
$a eng
044    __
$a enk
100    1_
$a Huk, Anna $u Health Effects Laboratory, MILK, NILU, Kjeller, Norway. annahuk8@gmail.com. Department of Molecular Biology, University of Salzburg, Salzburg, Austria. annahuk8@gmail.com.
245    10
$a Impact of nanosilver on various DNA lesions and HPRT gene mutations - effects of charge and surface coating / $c A. Huk, E. Izak-Nau, N. El Yamani, H. Uggerud, M. Vadset, B. Zasonska, A. Duschl, M. Dusinska,
520    9_
$a BACKGROUND: The main goal of this research was to study the interactions of a fully characterized set of silver nanomaterials (Ag ENMs) with cells in vitro, according to the standards of Good Laboratory Practices (GLP), to assure the quality of nanotoxicology research. We were interested in whether Ag ENMs synthesized by the same method, with the same size distribution, shape and specific surface area, but with different charges and surface compositions could give different biological responses. METHODS: A range of methods and toxicity endpoints were applied to study the impacts of interaction of the Ag ENMs with TK6 cells. As tests of viability, relative growth activity and trypan blue exclusion were applied. Genotoxicity was evaluated by the alkaline comet assay for detection of strand breaks and oxidized purines. The mutagenic potential of Ag ENMs was investigated with the in vitro HPRT gene mutation test on V79-4 cells according to the OECD protocol. Ag ENM agglomeration, dissolution as well as uptake and distribution within the cells were investigated as crucial aspects of Ag ENM toxicity. Ag ENM stabilizers were included in addition to positive and negative controls. RESULTS: Different cytotoxic effects were observed including membrane damage, cell cycle arrest and cell death. Ag ENMs also induced various kinds of DNA damage including strand breaks and DNA oxidation, and caused gene mutation. We found that positive Ag ENMs had greater impact on cyto- and genotoxicity than did Ag ENMs with neutral or negative charge, assumed to be related to their greater uptake into cells and to their presence in the nucleus and mitochondria, implying that Ag ENMs might induce toxicity by both direct and indirect mechanisms. CONCLUSION: We showed that Ag ENMs could be cytotoxic, genotoxic and mutagenic. Our experiments with the HPRT gene mutation assay demonstrated that surface chemical composition plays a significant role in Ag ENM toxicity.
650    _2
$a zvířata $7 D000818
650    _2
$a biologický transport $7 D001692
650    _2
$a kontrolní body buněčného cyklu $x účinky léků $7 D059447
650    _2
$a nádorové buněčné linie $7 D045744
650    _2
$a buněčná membrána $x účinky léků $x patologie $7 D002462
650    _2
$a proliferace buněk $x účinky léků $7 D049109
650    _2
$a tvar buňky $x účinky léků $7 D048430
650    _2
$a viabilita buněk $x účinky léků $7 D002470
650    _2
$a kometový test $7 D020552
650    _2
$a Cricetulus $7 D003412
650    12
$a poškození DNA $7 D004249
650    _2
$a mutační analýza DNA $7 D004252
650    _2
$a vztah mezi dávkou a účinkem léčiva $7 D004305
650    _2
$a lidé $7 D006801
650    _2
$a hypoxanthinfosforibosyltransferasa $x genetika $7 D007041
650    12
$a kovové nanočástice $7 D053768
650    12
$a mutace $7 D009154
650    _2
$a oxidační stres $x účinky léků $7 D018384
650    _2
$a velikost částic $7 D010316
650    _2
$a hodnocení rizik $7 D018570
650    _2
$a sloučeniny stříbra $x chemická syntéza $x metabolismus $x toxicita $7 D018030
650    _2
$a povrchové vlastnosti $7 D013499
655    _2
$a srovnávací studie $7 D003160
655    _2
$a časopisecké články $7 D016428
655    _2
$a práce podpořená grantem $7 D013485
700    1_
$a Izak-Nau, Emilia $u Department of Molecular Biology, University of Salzburg, Salzburg, Austria. izak.e@hotmail.com. Bayer Technology Services GmbH, Leverkusen, Germany. izak.e@hotmail.com.
700    1_
$a El Yamani, Naouale $u Health Effects Laboratory, MILK, NILU, Kjeller, Norway. elyamani.naouale@nilu.no.
700    1_
$a Uggerud, Hilde $u Inorganic Group, MILK, NILU, Kjeller, Norway. hilde.thelle.uggerud@nilu.no.
700    1_
$a Vadset, Marit $u Inorganic Group, MILK, NILU, Kjeller, Norway. marit.vadset@nilu.no.
700    1_
$a Zasonska, Beata $u Institute of Macromolecular Chemistry, Academy of Sciences of the Czech Republic, Prague, Czech Republic. beata.zasonska@gmail.com.
700    1_
$a Duschl, Albert $u Department of Molecular Biology, University of Salzburg, Salzburg, Austria. albert.duschl@sbg.ac.at.
700    1_
$a Dusinska, Maria $u Health Effects Laboratory, MILK, NILU, Kjeller, Norway. mdu@nilu.no.
773    0_
$w MED00180529 $t Particle and fibre toxicology $x 1743-8977 $g Roč. 12, č. - (2015), s. 25
856    41
$u https://pubmed.ncbi.nlm.nih.gov/26204901 $y Pubmed
910    __
$a ABA008 $b sig $c sign $y a $z 0
990    __
$a 20160722 $b ABA008
991    __
$a 20160728111235 $b ABA008
999    __
$a ok $b bmc $g 1155165 $s 945023
BAS    __
$a 3
BAS    __
$a PreBMC
BMC    __
$a 2015 $b 12 $c - $d 25 $e 20150724 $i 1743-8977 $m Particle and fibre toxicology $n Part Fibre Toxicol $x MED00180529
LZP    __
$a Pubmed-20160722

Najít záznam

Citační ukazatele

Možnosti archivace