Recent advancements in nanomaterial-mediated ferroptosis-induced cancer therapy: Importance of molecular dynamics and novel strategies

程序性细胞死亡 癌细胞 细胞生物学 细胞凋亡 细胞 癌症 化学 癌症研究 纳米技术 生物 材料科学 生物化学 遗传学
作者
Namdev Dhas,Ritu Kudarha,Ruchı Tıwarı,Gaurav Tiwari,Neha Garg,Praveen Kumar,Sanjay Kulkarni,Jahnavi Kulkarni,Soji Soman,Aswathi R. Hegde,Jayvadan K. Patel,Atul Garkal,Anam Sami,Deepanjan Datta,Viola Colaco,Tejal Mehta,Lalitkumar K. Vora,Srinivas Mutalik
出处
期刊:Life Sciences [Elsevier BV]
卷期号:346: 122629-122629 被引量:12
标识
DOI:10.1016/j.lfs.2024.122629
摘要

Ferroptosis is a novel type of controlled cell death resulting from an imbalance between oxidative harm and protective mechanisms, demonstrating significant potential in combating cancer. It differs from other forms of cell death, such as apoptosis and necrosis. Molecular therapeutics have hard time playing the long-acting role of ferroptosis induction due to their limited water solubility, low cell targeting capacity, and quick metabolism in vivo. To this end, small molecule inducers based on biological factors have long been used as strategy to induce cell death. Research into ferroptosis and advancements in nanotechnology have led to the discovery that nanomaterials are superior to biological medications in triggering ferroptosis. Nanomaterials derived from iron can enhance ferroptosis induction by directly releasing large quantities of iron and increasing cell ROS levels. Moreover, utilizing nanomaterials to promote programmed cell death minimizes the probability of unfavorable effects induced by mutations in cancer-associated genes such as RAS and TP53. Taken together, this review summarizes the molecular mechanisms involved in ferroptosis along with the classification of ferroptosis induction. It also emphasized the importance of cell organelles in the control of ferroptosis in cancer therapy. The nanomaterials that trigger ferroptosis are categorized and explained. Iron-based and noniron-based nanomaterials with their characterization at the molecular and cellular levels have been explored, which will be useful for inducing ferroptosis that leads to reduced tumor growth. Within this framework, we offer a synopsis, which traverses the well-established mechanism of ferroptosis and offers practical suggestions for the design and therapeutic use of nanomaterials.
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