Abstract
pH frequency distributions of tumours grown s.c. from 30 human tumour xenograft lines in rnu/rnu rats were analysed with the use of H+ ion-sensitive semi-microelectrodes prior to and following stimulation of tumour cell glycolysis by i.v. infusion of glucose. At normoglycemia, the average pH of the tumours investigated was 6.83 (range, 6.72-7.01; n = 268). Without exception, all xenografts responded to the temporary increase in plasma glucose concentration (PGC) from 6 +/- 1 to 30 +/- 3 mM by an accumulation of acidic metabolites, as indicated by a pH reduction to an average value of 6.43 (range, 6.12-6.78; n = 292). This pH value corresponds to a ten-fold increase in H+ ion activity in tumour tissue as compared to arterial blood. Tumour pH approached minimum values at 2-4 h after the onset of glucose administration and could be maintained at acidic levels for 24 h by controlled glucose infusion. Irrespective of pH variations between tumours grown from individual xenograft lines, there was no major difference in pH response to glucose between the four main histopathological tumour entities investigated, i.e. breast, lung and gastrointestinal carcinomas, and sarcomas. In tumours from several xenograft lines, an increase in blood glucose to only 2.5-times the normal value (14 mM) was sufficient to reduce the mean pH to 6.4. Glucose-induced acidosis was tumour-specific. The pH frequency distributions in liver, kidney and skeletal muscle of tumour-bearing rnu/rnu rats were only marginally sensitive to hyperglycemia (average pH, 6.97 vs normal value of 7.14). Tumour-selective activation of pH-sensitive anti-cancer agents, e.g. alkylating drugs, acid-labile prodrugs or pH-sensitive immunoconjugates may thus be feasible in a wide variety of human cancers.
Highlights
Athymic rats were used since pilot experiments had indicated that nude mice were, for technical reasons, less suited for long-term i.v. infusion via implanted central venous catheters
Xenografts A549, WiDr, and 791/M were established by s.c. injection of 5 x 10' cultured cells (A549 and WiDr, respectively, American Type Culture Collection, Rockville, MD, USA; 791/M, Xoma, Berkeley, CA, USA) into rnu/rnu rats
Thirty human tumour xenograft lines were selected for this study
Summary
AnimalsCongenitally athymic rats (body weight, 220 ± 20 g) were used since pilot experiments had indicated that nude mice were, for technical reasons, less suited for long-term i.v. infusion via implanted central venous catheters. BL, BO, BR, CH, GA, GE, JE, KO, LA, REI, SE (breast), SE (lung), SP, SCHRO, and STO, previously grown in nu/nu mice, were re-established from frozen tissue samples in this species for one passage before transplantation into rnu/rnu rats. Nude mice bearing the s.c. implanted xenograft lines CXF 1103, LXFA 289, and LXFE 211 were kindly provided by Dr H.H. Fiebig (Department of Internal Medicine I, University of Freiburg i.Br., Germany); mice transplanted with SCLC and SW 707 xenografts by Dr K. Wayss (German Cancer Research Center, Heidelberg, Germany); and mice bearing N4 and F8 tumours by Dr V. Tumour lines H-MESO, MRI-H-221, MRI-H-121B, MX-1, and LX-1, were obtained as frozen tissue samples from the Tumour Bank of the German Cancer Research Center, Heidelberg, and transplanted directly into rnu/rnu rats. At this time tumour volume ranged between 1.2 and 2.8 cm
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