Mitochondrial Dysfunction Induced by Zinc Oxide Nanoparticles

细胞内 程序性细胞死亡 线粒体 细胞凋亡 细胞器 细胞生物学 活性氧 细胞外 细胞 化学 生物物理学 体外 生物 生物化学 有机化学
作者
Leslie Patrón‐Romero,Priscy Alfredo Luque-Morales,Verónica Loera‐Castañeda,Ismael Lares‐Asseff,María Ángeles Leal-Ávila,Jorge Arturo Alvelais-Palacios,Ismael Plasencia-López,Horacio Almanza‐Reyes
出处
期刊:Crystals [Multidisciplinary Digital Publishing Institute]
卷期号:12 (8): 1089-1089 被引量:40
标识
DOI:10.3390/cryst12081089
摘要

The constant evolution and applications of metallic nanoparticles (NPs) make living organisms more susceptible to being exposed to them. Among the most used are zinc oxide nanoparticles (ZnO-NPs). Therefore, understanding the molecular effects of ZnO-NPs in biological systems is extremely important. This review compiles the main mechanisms that induce cell toxicity by exposure to ZnO-NPs and reported in vitro research models, with special attention to mitochondrial damage. Scientific evidence indicates that in vitro ZnO-NPs have a cytotoxic effect that depends on the size, shape and method of synthesis of ZnO-NPs, as well as the function of the cells to which they are exposed. ZnO-NPs come into contact with the extracellular region, leading to an increase in intracellular [Zn2+] levels. The mechanism by which intracellular ZnO-NPs come into contact with organelles such as mitochondria is still unclear. The mitochondrion is a unique organelle considered the “power station” in the cells, participates in numerous cellular processes, such as cell survival/death, multiple biochemical and metabolic processes, and holds genetic material. ZnO-NPs increase intracellular levels of reactive oxygen species (ROS) and, in particular, superoxide levels; they also decrease mitochondrial membrane potential (MMP), which affects membrane permeability and leads to cell death. ZnO-NPs also induced cell death through caspases, which involve the intrinsic apoptotic pathway. The expression of pro-apoptotic genes after exposure to ZnO-NPs can be affected by multiple factors, including the size and morphology of the NPs, the type of cell exposed (healthy or tumor), stage of development (embryonic or differentiated), energy demand, exposure time and, no less relevant, the dose. To prevent the release of pro-apoptotic proteins, the damaged mitochondrion is eliminated by mitophagy. To replace those mitochondria that underwent mitophagy, the processes of mitochondrial biogenesis ensure the maintenance of adequate levels of ATP and cellular homeostasis.

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