Abstract
The mean extracellular pH (pHe) within solid tumours has been found to be lower than in normal tissues. Agents which cause intracellular acidification at low pHe might have selective toxicity towards cells in tumours. Weak acids (or their anions) with pKa values in the range of 4-6 have a higher proportion of molecules in the uncharged form at low pHe and can diffuse more rapidly into cells. The effects of organic acids including succinate, monomethyl succinate and malonate to acidify cells have been evaluated under conditions of different pHe in the acidic range. These weak acids caused intracellular acidification of murine EMT-6 and human MGH-U1 cells in a concentration and pHe dependent fashion. At concentrations of 10 mM and above, these acids also caused in vitro cytotoxicity to these cells at low pHe (< 6.5). The rate and extent of cellular acidification caused by these weak acids, and their cytotoxicity at low pHe, were enhanced by exposure to amiloride and 5-(N-ethyl-N-isopropyl)amiloride (EIPA), agents which inhibit Na+/H+ exchange, and hence the regulation of intracellular pH. Acid dependent cytotoxicity was also investigated in a murine solid tumour using the endpoints of growth delay and colony formation in vitro following treatment in vivo. Agents were tested alone or with 15 Gy X-rays to select a population of hypoxic (and presumably acidic) cells. Achievable serum concentrations of succinate were about 1 mM and no antitumour activity of succinate was detected when used in this way. It is concluded that weak acids are selectively taken up into cells, and can cause selective cellular acidification and toxicity, at low pHe in culture. Weak acids that are normal cellular metabolites are not toxic in vivo, but weak acids carrying cytotoxic groups offer the potential for selective uptake and toxicity under the conditions of low pHe that exist in many solid tumours.
Highlights
It has been shown that solid tumours of both humans and animals contain acidic regions (Vaupel et al, 1989; WikeHooley et al, 1984)
In the present paper we address the hypothesis that organic acids may cause acidification and death of cells at low pHe, and that these effects are increased by agents which inhibit regulation of pHi
In the present studies we have investigated the potential of weak acids to cause intracellular acidification and cytotoxicity in an acidic microenvironment as can be found in some regions of solid tumours
Summary
It has been shown that solid tumours of both humans and animals contain acidic regions (Vaupel et al, 1989; WikeHooley et al, 1984). The mean extracellular pH (pHe) within solid tumours has been shown from measurements with microelectrodes to be in the range of 6.5-7.0, which is about 0.5 units lower than in normal tissues. Measurements of intracellular pH (pHi) in solid tumours made by nuclear magnetic resonance (NMR) spectroscopy have suggested that mean values of pHi are similar to those in normal tissues (Grant Steen, 1989; Vaupel et al, 1989). Tumour cells are able to tolerate acidic pHe by using their buffering ability, and by activating ion exchange mechanisms which are present in the cell membrane, to maintain pHi close to the physiological range. Important membrane exchangers which regulate pHi in the acidic range are the Na+/H+ antiport and the Na+ dependent Cl-/HCO-3 exchanger
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