Measurement of the extracellular pH of solid tumours in mice by magnetic resonance spectroscopy: a comparison of exogenous (19)F and (31)P probes

Precise measurement of pH(e) in vivo may be of clinical value for both diagnosis and selection of therapy. pH(e) measurements made by the (31)P probe 3-aminopropylphosphonate (3-APP) were compared with those made by the (19)F probe, 3-[N-(4-fluor-2-trifluoromethylphenyl)-sulphamoyl]-propionic acid (ZK-150471) in three solid tumour types, human HT29 xenografts, murine RIF-1 fibrosarcomas and Lettre tumours grown subcutaneously in mice. No significant differences were observed when probe measurements of pH(e) were compared at 20-60 min post-administration, although very low pH(e) values (ca. 6.0) were recorded in two out of eight Lettre tumours by ZK-150471. The more rapid pH(e) measurements possible using ZK-150471 showed that during the first 20 min post-administration significant increases occurred in pH(e) which were greatest in the more necrotic tumours. Since isolated cell experiments showed that ZK-150471 was non-toxic and did not enter the cells, this early increase in pH(e) may reflect gradual penetration by ZK-150471 of the reportedly alkaline necrotic space in the tumours. The wide chemical shift range, improved signal-to-noise and absence of signal overlap allowed a more rapid and precise measurement of pH(e) by ZK-150471 compared to 3-APP. These characteristics suggest that ZK-150471 is currently the preferred pH(e) probe for non-invasive MRS.