An ATP-associated membrane interface integrating methionine flux with redox-regulated signaling in cancer
Maximo A. Benavides

TL;DR
This paper proposes a new model explaining how cancer cells link methionine metabolism to energy and redox signaling at the cell membrane.
Contribution
Introduces a conceptual framework for integrating methionine flux with ATP-dependent membrane energetics and redox signaling in cancer.
Findings
A thiol- and methyl-responsive membrane interface couples methionine availability with redox-regulated PTM networks.
Membrane energetics are positioned as a key component of metabolic-redox coordination in cancer cells.
The model generates testable predictions about how perturbations affect methionine uptake and signaling states.
Abstract
Methionine dependence and redox-regulated post-translational modifications (PTMs) represent well-characterized and therapeutically relevant features of cancer cell metabolism. Although established amino acid transporters and one-carbon pathways account for methionine uptake and utilization, current models do not fully explain how methionine influx is dynamically integrated with ATP-dependent membrane energetics and redox-sensitive signaling networks in malignant cells. Here, we propose a testable conceptual framework in which a thiol- and methyl-responsive, ATP-associated membrane interface operates at the membrane–metabolism boundary, coupling methionine availability with redox-regulated PTM networks. Rather than postulating a novel transporter, this model introduces a regulatory layer linking sulfur and methyl-group flux to membrane energetics and signaling adaptability. By…
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Taxonomy
TopicsCancer Research and Treatments · Redox biology and oxidative stress · Cancer, Hypoxia, and Metabolism
