Affiliation:
1. Department of Physiology, Anatomy and Genetics, University of Oxford, Oxford, UK
2. Weatherall Institute of Molecular Medicine, University of Oxford, Oxford, UK
Abstract
Cell survival is conditional on the maintenance of a favourable acid–base balance (pH). Owing to intensive respiratory CO
2
and lactic acid production, cancer cells are exposed continuously to large acid–base fluxes, which would disturb pH if uncorrected. The large cellular reservoir of H
+
-binding sites can buffer pH changes but, on its own, is inadequate to regulate intracellular pH. To stabilize intracellular pH at a favourable level, cells control trans-membrane traffic of H
+
-ions (or their chemical equivalents, e.g.
) using specialized transporter proteins sensitive to pH. In poorly perfused tumours, additional diffusion-reaction mechanisms, involving carbonic anhydrase (CA) enzymes, fine-tune control extracellular pH. The ability of H
+
-ions to change the ionization state of proteins underlies the exquisite pH sensitivity of cellular behaviour, including key processes in cancer formation and metastasis (proliferation, cell cycle, transformation, migration). Elevated metabolism, weakened cell-to-capillary diffusive coupling, and adaptations involving H
+
/H
+
-equivalent transporters and extracellular-facing CAs give cancer cells the means to manipulate micro-environmental acidity, a cancer hallmark. Through genetic instability, the cellular apparatus for regulating and sensing pH is able to adapt to extracellular acidity, driving disease progression. The therapeutic potential of disturbing this sequence by targeting H
+
/H
+
-equivalent transporters, buffering or CAs is being investigated, using monoclonal antibodies and small-molecule inhibitors.
Subject
General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology
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