College of Veterinary Medicine, Yangzhou University Yangzhou, Yangzhou, Jiangsu, 225009, People's Republic of China.
Joint International Research Laboratory of Agriculture and Agri-Product Safety of the Ministry of Education of China, Yangzhou University, Yangzhou, Jiangsu, 225009, People's Republic of China.
Biol Trace Elem Res. 2024 Jul;202(7):2931-2940. doi: 10.1007/s12011-023-03886-8. Epub 2023 Oct 10.
Autophagy is commonly referred as self-eating and a complex cellular process that is involved in the digestion of protein and damaged organelles through a lysosome-dependent mechanism, and this mechanism is essential for maintaining proper cellular homeostasis. Selenium is a vital trace element that plays essential functions in antioxidant defense, redox state control, and range of particular metabolic processes. Selenium nanoparticles have become known as a promising agent for biomedical use, because of their high bioavailability, low toxicity, and degradability. However, and in recent years, they have attracted the interest of researchers in developing anticancer nano-drugs. Selenium nanoparticles can be used as a potential therapeutic agent or in combination with other agents to act as carriers for the development of new treatments. More intriguingly, selenium nanoparticles have been extensively shown to impact autophagy signaling, allowing selenium nanoparticles to be used as possible cancer treatment agents. This review explored the connections between selenium and autophagy, followed by developments and current advances of selenium nanoparticles for autophagy control in various clinical circumstances. Furthermore, this study examined the functions and possible processes of selenium nanoparticles in autophagy regulation, which may help us understand how selenium nanoparticles regulate autophagy for the potential cancer treatment.
自噬通常被称为自我吞噬,是一种复杂的细胞过程,通过溶酶体依赖的机制参与蛋白质和受损细胞器的消化,该机制对于维持适当的细胞内稳态至关重要。硒是一种重要的微量元素,在抗氧化防御、氧化还原状态控制和一系列特定代谢过程中发挥着重要作用。硒纳米粒子因其高生物利用度、低毒性和可降解性而成为生物医学应用的有前途的试剂。然而,近年来,它们引起了研究人员开发抗癌纳米药物的兴趣。硒纳米粒子可用作潜在的治疗剂或与其他试剂结合用作开发新治疗方法的载体。更有趣的是,硒纳米粒子已被广泛证明可以影响自噬信号,从而使硒纳米粒子可用作可能的癌症治疗剂。本综述探讨了硒与自噬之间的联系,随后介绍了硒纳米粒子在各种临床情况下用于自噬控制的发展和最新进展。此外,本研究还研究了硒纳米粒子在自噬调控中的功能和可能的作用机制,这可能有助于我们了解硒纳米粒子如何调控自噬以用于潜在的癌症治疗。
