Core Viewpoint - The article discusses the emerging focus on metabolic cell death as a new frontier in cancer therapy, highlighting the significance of ferroptosis, cuproptosis, and disulfidptosis as potential therapeutic targets against cancer cells that evade traditional cell death pathways [3][4][5]. Group 1: Metabolic Cell Death Mechanisms - Metabolic cell death is characterized by the collapse of metabolic homeostasis, leading to irreversible cell death due to nutrient deprivation or the accumulation of harmful metabolites [3]. - Ferroptosis, discovered in 2012, is an iron-dependent cell death mechanism that results from uncontrolled lipid peroxidation, leading to membrane damage [8]. - Cuproptosis, identified in 2022, is a copper-dependent cell death mechanism where excess copper ions induce protein toxicity by binding to fatty acylated proteins in mitochondria [14]. - Disulfidptosis, proposed in 2023, occurs when cystine accumulation leads to the collapse of the actin cytoskeleton under conditions of glucose deprivation or NADPH depletion [19]. Group 2: Cancer Treatment Implications - Targeting metabolic cell death pathways presents a unique opportunity to exploit cancer cells' vulnerabilities, particularly through the mechanisms of ferroptosis, cuproptosis, and disulfidptosis [5][26]. - The interplay between these pathways suggests that combined interventions could enhance therapeutic efficacy and overcome drug resistance in cancer treatment [24][26]. - Establishing verifiable biomarker systems is crucial for advancing clinical applications and achieving precise patient stratification and treatment [26].