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W3132362010 abstract "Even though application of nanoparticles in medicine seems to provide unique solutions for drug delivery and diagnosis diseases, understanding interactions between nanoscale materials and biological systems is imperative. Therefore, this study determined the effect of different types of nanoparticles (NPs) on human endothelial cells and examined the types of toxicity responses they can induce. Four different types of NPs were tested (PLA/MMT/TRASTUZUMAB, PLA/EDTMP, PLGA/MDP, and Pluronic F127 MICELLES), representing three putative areas of application: anticancer therapy, scintigraphy, and cosmetology. The experiments were performed on immortalized human umbilical vein endothelial cells (HUVEC-STs). Light contrast phase microscopy as well as cell viability assays showed that only Pluronic F127 MICELLES decreased the number of HUVEC-STs in contrast to PLA/MMT/TRASTUZUMAB, PLA/EDTMP, and PLGA/MDP NPs, which altered cell morphology, but not their confluency. The tested NPs induced not only DNA strand-breaks and alkali-labile sites, but also internucleosomal DNA fragmentation, visualized as a DNA ladder pattern typical of apoptosis. Moreover, generation of free radicals and subsequent mitochondrial membrane potential collapse showed the significance of free radical production during interactions between NPs and endothelial cells. High concentrations of NPs had different degrees of toxicity in human endothelial cells and affected cell proliferation, redox homeostasis, and triggered mitochondrial dysfunction." @default.
W3132362010 created "2021-03-01" @default.
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W3132362010 date "2021-02-15" @default.
W3132362010 modified "2023-10-16" @default.
W3132362010 title "Disturbance of cellular homeostasis as a molecular risk evaluation of human endothelial cells exposed to nanoparticles" @default.
W3132362010 cites W113889405 @default.
W3132362010 cites W1545095426 @default.
W3132362010 cites W1909209098 @default.
W3132362010 cites W1967197264 @default.
W3132362010 cites W1969367445 @default.
W3132362010 cites W1973831032 @default.
W3132362010 cites W1975762710 @default.
W3132362010 cites W1977112783 @default.
W3132362010 cites W1989187489 @default.
W3132362010 cites W2001349528 @default.
W3132362010 cites W2002060013 @default.
W3132362010 cites W2006369880 @default.
W3132362010 cites W2007760937 @default.
W3132362010 cites W2015484173 @default.
W3132362010 cites W2017974843 @default.
W3132362010 cites W2026088077 @default.
W3132362010 cites W2029087621 @default.
W3132362010 cites W2036554878 @default.
W3132362010 cites W2040977076 @default.
W3132362010 cites W2041105700 @default.
W3132362010 cites W2043236453 @default.
W3132362010 cites W2045847395 @default.
W3132362010 cites W2057739013 @default.
W3132362010 cites W2060861828 @default.
W3132362010 cites W2061688926 @default.
W3132362010 cites W2063638086 @default.
W3132362010 cites W2070357358 @default.
W3132362010 cites W2071787344 @default.
W3132362010 cites W2074008288 @default.
W3132362010 cites W2076663214 @default.
W3132362010 cites W2078951246 @default.
W3132362010 cites W2084969734 @default.
W3132362010 cites W2088001417 @default.
W3132362010 cites W2090954511 @default.
W3132362010 cites W2092629964 @default.
W3132362010 cites W2093369863 @default.
W3132362010 cites W2095719839 @default.
W3132362010 cites W2095970309 @default.
W3132362010 cites W2106039461 @default.
W3132362010 cites W2114605103 @default.
W3132362010 cites W2118561606 @default.
W3132362010 cites W2129280374 @default.
W3132362010 cites W2134626448 @default.
W3132362010 cites W2136466117 @default.
W3132362010 cites W2136678713 @default.
W3132362010 cites W2150277967 @default.
W3132362010 cites W2161722915 @default.
W3132362010 cites W2286192193 @default.
W3132362010 cites W2343508894 @default.
W3132362010 cites W2521132943 @default.
W3132362010 cites W2604244160 @default.
W3132362010 cites W2608357984 @default.
W3132362010 cites W2620950767 @default.
W3132362010 cites W2766623049 @default.
W3132362010 cites W2790514195 @default.
W3132362010 cites W2799323837 @default.
W3132362010 cites W2800456914 @default.
W3132362010 cites W2901427748 @default.
W3132362010 cites W2907341146 @default.
W3132362010 cites W2921849126 @default.
W3132362010 cites W2936700247 @default.
W3132362010 cites W2956329098 @default.
W3132362010 cites W2957670325 @default.
W3132362010 cites W2971456522 @default.
W3132362010 cites W2977658161 @default.
W3132362010 cites W2998339097 @default.
W3132362010 cites W3012499596 @default.
W3132362010 cites W3016828064 @default.
W3132362010 cites W3037861502 @default.
W3132362010 cites W3110208059 @default.
W3132362010 cites W347357337 @default.
W3132362010 cites W791188502 @default.
W3132362010 cites W924174307 @default.
W3132362010 cites W984044418 @default.
W3132362010 doi "https://doi.org/10.1038/s41598-021-83291-0" @default.
W3132362010 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7884700" @default.
W3132362010 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33589697" @default.
W3132362010 hasPublicationYear "2021" @default.
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