Peter P. Fu scite author profile

Nanotechnology is a rapidly developing field in the 21(st) century, and the commercial use of nanomaterials for novel applications is increasing exponentially. To date, the scientific basis for the cytotoxicity and genotoxicity of most manufactured nanomaterials are not understood. The mechanisms underlying the toxicity of nanomaterials have recently been studied intensively. An important mechanism of nanotoxicity is the generation of reactive oxygen species (ROS). Overproduction of ROS can induce oxidative stress, resulting in cells failing to maintain normal physiological redox-regulated functions. This in turn leads to DNA damage, unregulated cell signaling, change in cell motility, cytotoxicity, apoptosis, and cancer initiation. There are critical determinants that can affect the generation of ROS. These critical determinants, discussed briefly here, include: size, shape, particle surface, surface positive charges, surface-containing groups, particle dissolution, metal ion release from nanometals and nanometal oxides, UV light activation, aggregation, mode of interaction with cells, inflammation, and pH of the medium.

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Pyrrolizidine Alkaloids—Genotoxicity, Metabolism Enzymes, Metabolic Activation, and Mechanisms

Xia

Lin

et al. 2004

Drug Metabolism Reviews

514

554

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Pyrrolizidine alkaloid-containing plants are widely distributed in the world and are probably the most common poisonous plants affecting livestock, wildlife, and humans. Because of their abundance and potent toxicities, the mechanisms by which pyrrolizidine alkaloids induce genotoxicities, particularly carcinogenicity, were extensively studied for several decades but not exclusively elucidated until recently. To date, the pyrrolizidine alkaloid-induced genotoxicities were revealed to be elicited by the hepatic metabolism of these naturally occurring toxins. In this review, we present updated information on the metabolism, metabolizing enzymes, and the mechanisms by which pyrrolizidine alkaloids exert genotoxicity and tumorigenicity.

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The scavenging of reactive oxygen species and the potential for cell protection by functionalized fullerene materials

Yin¹,

Lao²,

Fu³

et al. 2009

Biomaterials

407

331

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Toxicity and Environmental Risks of Nanomaterials: Challenges and Future Needs

Ray

2009

Journal of Environmental Science and Health, Part C

710

302

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Nanotechnology has gained a great deal of public interest due to the needs and applications of nanomaterials in many areas of human endeavors including industry, agriculture, business, medicine and public health. Environmental exposure to nanomaterials is inevitable as nanomaterials become part of our daily life, and as a result, nanotoxicity research is gaining attention. This review presents a summary of recent research efforts on fate, behavior and toxicity of different classes of nanomaterials in the environment. A critical evaluation of challenges and future needs for the safe environmental nanotechnology has been discussed.

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Peter P. Fu

Mechanisms of nanotoxicity: Generation of reactive oxygen species

Pyrrolizidine Alkaloids—Genotoxicity, Metabolism Enzymes, Metabolic Activation, and Mechanisms

The scavenging of reactive oxygen species and the potential for cell protection by functionalized fullerene materials

Toxicity and Environmental Risks of Nanomaterials: Challenges and Future Needs

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