Systematic Review: Intercellular Mitochondrial Transfer in Melanoma Progression and Resistance
Photo by National Institute of Allergy and Infectious Diseases / Unsplash
Key Takeaway
Consider that intercellular mitochondrial transfer may both promote and suppress melanoma progression, depending on context.
This systematic review synthesizes current evidence on intercellular mitochondrial transfer in melanoma. The authors explore how this process influences tumor progression and therapeutic outcomes. The review covers both pro-tumorigenic and potential tumor-suppressive roles of mitochondrial transfer, highlighting its complexity in melanoma biology.
Key findings indicate that intercellular mitochondrial transfer contributes to resistance to targeted therapies, immune evasion, and increased invasive and metastatic potential. However, in specific contexts, it may exert tumor-suppressive effects by enhancing metabolic fitness of immune cells, activating innate immune signaling, or inducing oxidative stress-mediated apoptosis. The direction of effect is bidirectional, depending on the cellular context.
The review acknowledges limitations, including the lack of reported effect sizes, sample sizes, and specific study details. The evidence is primarily qualitative, and no pooled analyses were performed. The authors do not report on safety, adverse events, or clinical practice relevance.
Clinicians should recognize that intercellular mitochondrial transfer is an emerging area in melanoma research with dual roles. The findings are preliminary and based on preclinical evidence. Further studies are needed to clarify the mechanisms and therapeutic implications before clinical translation.
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View Original Abstract ↓
Intercellular mitochondrial transfer has emerged as a novel mode of metabolic communication, enabling the exchange of functional mitochondria and their associated components between cells via tunneling nanotubes, extracellular vesicles, and direct cell–cell contact. Melanoma is a highly aggressive malignancy characterized by remarkable metabolic plasticity, in which disease progression and therapeutic resistance are closely linked to mitochondrial reprogramming. Accumulating evidence indicates that, under conditions of therapeutic pressure or metabolic impairment, melanoma cells can acquire exogenous mitochondria to restore oxidative phosphorylation (OXPHOS), maintain redox homeostasis, and enhance survival. This process contributes to resistance to targeted therapies, immune evasion, and increased invasive and metastatic potential. Conversely, in specific contexts, intercellular mitochondrial transfer may exert tumor-suppressive effects by enhancing the metabolic fitness of immune cells, activating innate immune signaling pathways, or inducing oxidative stress–mediated apoptosis. These findings underscore the context-dependent nature of its biological effects, which are governed by factors such as donor and recipient cell identity, mitochondrial integration status, and microenvironmental stress conditions. In this review, we systematically summarize the principal mechanisms of intercellular mitochondrial transfer and highlight its bidirectional roles in melanoma progression and therapeutic resistance. Furthermore, we propose a context-dependent regulatory framework and discuss potential intervention strategies. A deeper understanding of this process may provide new theoretical insights for integrating metabolic modulation with targeted and immunotherapeutic approaches in precision melanoma treatment.
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