Ferroptosis: principles and significance in health and disease

Abstract: Ferroptosis, an iron-dependent form of cell death characterized by uncontrolled lipid peroxidation, is governed by molecular networks involving diverse molecules and organelles. Since its recognition as a non-apoptotic cell death pathway in 2012, ferroptosis has emerged as a crucial mechanism in numerous physiological and pathological contexts, leading to significant therapeutic advancements across a wide range of diseases. This review summarizes the fundamental molecular mechanisms and regulatory pathways und… Show more

“…These DAMPs are pivotal in activating the immune response, serving as signals that notify the immune system of the presence of damaged or stressed cells. Both excessive and deficient ferroptosis are implicated in various diseases and pathological conditions, including cancer, tissue ischemia-reperfusion, inflammatory diseases, neurodegeneration, age-related diseases, and tissue damage (e.g., kidney injury) [ [7] , [8] , [9] ]. This discovery has sparked a substantial increase in research on ferroptosis, yielding fresh insights into its molecular and cellular mechanisms, along with its potential applications in disease treatment [ [10] , [11] , [12] ].…”

Protein modification and degradation in ferroptosis

“…These DAMPs are pivotal in activating the immune response, serving as signals that notify the immune system of the presence of damaged or stressed cells. Both excessive and deficient ferroptosis are implicated in various diseases and pathological conditions, including cancer, tissue ischemia-reperfusion, inflammatory diseases, neurodegeneration, age-related diseases, and tissue damage (e.g., kidney injury) [ [7] , [8] , [9] ]. This discovery has sparked a substantial increase in research on ferroptosis, yielding fresh insights into its molecular and cellular mechanisms, along with its potential applications in disease treatment [ [10] , [11] , [12] ].…”

Protein modification and degradation in ferroptosis

“…Elaborate discussions are included on the roles of Hippo pathway in metabolism, immune response, mucosal barrier, mechanical stress and intestinal tumors. Similarly, the roles of ferroptosis, a regulated cell death resulting from iron accumulation ( Chen et al, 2024 ), in inflammation, immune response, cancer, metabolism and mechanotransduction are also discussed. Interestingly, attention has been drawn to the overlapping roles of Hippo pathway and ferroptosis in intestinal diseases, by specifically calling out potential mediators that bridge these pathways.…”

Editorial: Deregulated signaling pathways in inflammation and cancer

X‐Ray‐Triggered CA IX Inhibition Nanoplatform Promotes Intratumoral Acidosis‐Induced Cancer Ferroptosis