NAT10 as a central node in cancer biology: integrating epitranscriptomic regulation, metabolic reprogramming, and immune modulation - Summary - MDSpire
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NAT10 as a central node in cancer biology: integrating epitranscriptomic regulation, metabolic reprogramming, and immune modulation
To explore the role of NAT10 as a central regulator of cancer adaptation through its influence on RNA acetylation, metabolic changes, and immune interactions.
Key Findings:
NAT10 enhances transcript stability and amplifies oncogenic signaling.
NAT10 is linked to tumor plasticity and resistance against therapies.
Interpretation:
NAT10 functions as a central adaptive node that integrates RNA regulation, metabolic plasticity, and microenvironmental remodeling in cancer.
Limitations:
Key questions remain regarding ac4C reader proteins and substrate specificity.
Context-dependent functions of NAT10 are not fully understood.
Conclusion:
NAT10's role as a systems-level regulator in cancer biology highlights its potential as a target for precision oncology.
