Mechanisms of Nanoparticle-Induced Oxidative Stress and Toxicity

Manke, Amruta; Wang, Liying; Rojanasakul, Yon

doi:10.1155/2013/942916

Cited by 1,190 publications

(829 citation statements)

References 161 publications

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“…Although mechanisms through which metal/metalloid nanoparticles exert antimicrobial activity are not completely understood, a number of authors claim the production of reactive oxygen species (ROS) as one of the possible modes of action (Manke et al ., 2013; Yan et al ., 2013). In particular, antimicrobial effects of different selenium compounds have been attributed to the formation of free radicals (Tran et al ., 2009).…”

Section: Discussionmentioning

confidence: 99%

Biogenic selenium nanoparticles synthesized by Stenotrophomonas maltophilia SeITE02 loose antibacterial and antibiofilm efficacy as a result of the progressive alteration of their organic coating layer

Cremonini

Boaretti

Vandecandelaere

et al. 2018

Microbial Biotechnology

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SummaryIncreasing emergence of drug‐resistant microorganisms poses a great concern to clinicians; thus, new active products are urgently required to treat a number of infectious disease cases. Different metallic and metalloid nanoparticles have so far been reported as possessing antimicrobial properties and proposed as a possible alternative therapy against resistant pathogenic microorganisms. In this study, selenium nanoparticles (SeNPs) synthesized by the environmental bacterial isolate Stenotrophomonas maltophilia SeITE02 were shown to exert a clear antimicrobial and antibiofilm activity against different pathogenic bacteria, either reference strains or clinical isolates. Antimicrobial and antibiofilm capacity seems to be strictly linked to the organic cap surrounding biogenic nanoparticles, although the actual role played by this coating layer in the biocidal action remains still undefined. Nevertheless, evidence has been gained that the progressive loss in protein and carbohydrate content of the organic cap determines a decrease in nanoparticle stability. This leads to an alteration of size and electrical properties of SeNPs along with a gradual attenuation of their antibacterial efficacy. Denaturation of the coating layer was proved even to have a negative effect on the antibiofilm activity of these nanoparticles. The pronounced antimicrobial efficacy of biogenic SeNPs compared to the denatured ones can – in first instance – be associated with their smaller dimensions. This study showed that the native organic coating layer of biogenic SeNPs functions in avoiding aggregation and maintaining electrostatic stability of the nanoparticles, thus allowing them to maintain efficient antimicrobial and antibiofilm capabilities.

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Section: Discussionmentioning

confidence: 99%

Biogenic selenium nanoparticles synthesized by Stenotrophomonas maltophilia SeITE02 loose antibacterial and antibiofilm efficacy as a result of the progressive alteration of their organic coating layer

Cremonini

Boaretti

Vandecandelaere

et al. 2018

Microbial Biotechnology

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“…Oxidative parameters were mainly selected because nanoparticles are known to be associated with the oxidative stress response in many cells or tissue. 53 We measured the NBT (O 2 2 radical measurement) and nitric oxide (NO) of the SCS isolated from both AgNP-MSA-treated and nontreated fibrosarcoma. The results showed that these nanoparticles significantly increased these two parameters in the SCS isolated from fibrosarcoma ( Figure 9), and the anticancer property demonstrated by AgNP can be attributed to this increase in oxidative stress in the tumor microenvironment.…”

Section: Discussionmentioning

confidence: 99%

Immunomodulatory properties of silver nanoparticles contribute to anticancer strategy for murine fibrosarcoma

et al. 2015

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The use of nanotechnology in nanoparticle-based cancer therapeutics is gaining impetus due to the unique biophysical properties of nanoparticles at the quantum level. Silver nanoparticles (AgNPs) have been reported as one type of potent therapeutic nanoparticles. The present study is aimed to determine the effect of AgNPs in arresting the growth of a murine fibrosarcoma by a reductive mechanism. Initially, a bioavailability study showed that mouse serum albumin (MSA)-coated AgNPs have enhanced uptake; therefore, toxicity studies of AgNP-MSA at 10 different doses (1-10 mg/kg b.w.) were performed in LACA mice by measuring the complete blood count, lipid profile and histological parameters. The complete blood count, lipid profile and histological parameter results showed that the doses from 2 to 8 mg (IC 50 : 6.15 mg/kg b.w.) sequentially increased the count of leukocytes, lymphocytes and granulocytes, whereas the 9-and 10-mg doses showed conclusive toxicity. In an antitumor study, the incidence and size of fibrosarcoma were reduced or delayed when murine fibrosarcoma groups were treated by AgNP-MSA. Transmission electron micrographs showed that considerable uptake of AgNP-MSA by the sentinel immune cells associated with tumor tissue and a morphologically buckled structure of the immune cells containing AgNP-MSA. Because the toxicity studies revealed a relationship between AgNPs and immune function, the protumorigenic cytokines TNF-a, IL-6 and IL-1b were also assayed in AgNP-MSA-treated and non-treated fibrosarcoma groups, and these cytokines were found to be downregulated after treatment with AgNP-MSA. Cellular & Molecular Immunology

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“…In addition, exposure to the Cr ion also inhibited the gill Na + /K + -ATP activity in Tilapia (Oreochromis niloticus) [35]. Given that the inhibition of the Na + /K + pump by metal ions is well known, the inhibition of CuNP on the Currently, the determinant mechanism of nanoparticlemediated toxicity in organisms is related to the production of oxidative stress and reactive oxygen species (ROS), leading to a series of pathological events such as genotoxicity, inflammation, fibrosis, and carcinogenesis [36]. To protect organisms from oxidative damage, several antioxidant enzymes in organisms are activated to scavenge oxidative stress, including the enzymes of SOD and CAT.…”

Section: Biomarker Responsementioning

confidence: 99%

“…Considering the ions of transition metals (e.g., Cu and Cr) could result in the generation of ROS in organisms via the Haber Weiss and Fenton reactions [38], and the alterations of the antioxidant defense system induced by nanoparticles may be related to the dissolution of free metal ions from the surface of the nanoparticles. In addition, nanoparticles may also stimulate intracellular ROS generation via activation of NADPH-like enzyme system and immune cell after uptake through phagocytosis [36].…”

Section: Biomarker Responsementioning

confidence: 99%

Potential Toxicity in Crucian Carp Following Exposure to Metallic Nanoparticles of Copper, Chromium, and Their Mixtures: A Comparative Study

Liu¹,

Yan²,

Xia³

et al. 2017

Pol. J. Environ. Stud.

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Although study of the toxicity of metallic nanoparticles in aquatic organisms is increasing, there is still little known about their combined toxicity, especially in a comparative and integrated approach. The objective of this study is to compare the toxicity of copper nanoparticles (CuNP), chromium nanoparticles (CrNP), and their mixtures to crucian carp (Carassius auratus) through a comprehensive approach. A high median lethal concentration of CuNP (390.75 mg/L) and CrNP (551.03 mg/L) was calculated from the acute toxicity, indicative of low toxicity to crucian carp. After exposure for 10 d at sublethal concentrations, several biomarker responses, including the activities of brain acetylcholinesterase (AChE), gill sodium/ potassium-activated ATP (Na + /K + -ATP), liver superoxide dismutase (SOD), and catalase (CAT) were significantly inhibited by all nanoparticles in most cases, implying the neurotoxicity, osmoregulatory toxicity, and oxidative damage of metallic nanoparticles. Thereafter, the integrated biomarker response version 2 (IBRv2) integrating all biomarker responses was applied to compare the toxicity, and therefore the toxicity order was tentatively proposed as: the mixtures ≈ CuNP＞CrNP, suggesting a synergistic effect in the mixtures. The findings will help to understand the ecological impacts of metallic nanoparticles in an aquatic environment in a more complete and accurate picture.

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Mechanisms of Nanoparticle-Induced Oxidative Stress and Toxicity

Cited by 1,190 publications

References 161 publications

Biogenic selenium nanoparticles synthesized by Stenotrophomonas maltophilia SeITE02 loose antibacterial and antibiofilm efficacy as a result of the progressive alteration of their organic coating layer

Biogenic selenium nanoparticles synthesized by Stenotrophomonas maltophilia SeITE02 loose antibacterial and antibiofilm efficacy as a result of the progressive alteration of their organic coating layer

Immunomodulatory properties of silver nanoparticles contribute to anticancer strategy for murine fibrosarcoma

Potential Toxicity in Crucian Carp Following Exposure to Metallic Nanoparticles of Copper, Chromium, and Their Mixtures: A Comparative Study

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