Upregulated Na(+)/H(+)-Exchange Protects Human Colon Cancer Tissue against Intracellular Acidification

Increased metabolism accelerates local acid production in cancer tissue. The mechanisms eliminating acidic waste products from human colon cancer tissue represent promising therapeutic targets for pharmacological manipulation in order to improve prognosis for the increasing number of patients with colon cancer. We sampled biopsies of human colonic adenocarcinomas and matched normal colon tissue from patients undergoing colon cancer surgery. We measured steady-state intracellular pH and rates of net acid extrusion in freshly isolated human colonic crypts based on fluorescence microscopy. Net acid extrusion was almost entirely (>95%) Na(+)-dependent. The capacity for net acid extrusion was increased and steady-state intracellular pH elevated around 0.5 in crypts from colon cancer tissue compared with normal colon tissue irrespective of whether they were investigated in the presence or absence of CO(2)/HCO(3)(–). The accelerated net acid extrusion from the human colon cancer tissue was sensitive to the Na(+)/H(+)-exchange inhibitor cariporide. We conclude that enhanced net acid extrusion via Na(+)/H(+)-exchange elevates intracellular pH in human colon cancer tissue.