Portal de Periódicos da CAPES

Mitosis and Hyperthermia A Hypothesis

1977; Wiley; Volume: 21; Issue: 1 Linguagem: Inglês

10.1111/j.1440-1673.1977.tb02936.x

1754-9485

Evangelos Papadopoulos, R. W. Stanford,

Advanced Thermodynamics and Statistical Mechanics

Australasian RadiologyVolume 21, Issue 1 p. 5-20 Mitosis and Hyperthermia A Hypothesis E. Papadopoulos Nuc. Phys. (Bucharest), M.A.I.P., E. Papadopoulos Nuc. Phys. (Bucharest), M.A.I.P. Department of Medical Physics, Royal Perth HospitalSearch for more papers by this authorR. W. Stanford M.A. (Cantab.) F.Inst. P., F.A.I.P., F.R.A.C.R. (Hon.), R. W. Stanford M.A. (Cantab.) F.Inst. P., F.A.I.P., F.R.A.C.R. (Hon.) Department of Medical Physics, Royal Perth HospitalSearch for more papers by this author E. Papadopoulos Nuc. Phys. (Bucharest), M.A.I.P., E. Papadopoulos Nuc. Phys. (Bucharest), M.A.I.P. Department of Medical Physics, Royal Perth HospitalSearch for more papers by this authorR. W. Stanford M.A. (Cantab.) F.Inst. P., F.A.I.P., F.R.A.C.R. (Hon.), R. W. Stanford M.A. (Cantab.) F.Inst. P., F.A.I.P., F.R.A.C.R. (Hon.) Department of Medical Physics, Royal Perth HospitalSearch for more papers by this author First published: March 1977 https://doi.org/10.1111/j.1440-1673.1977.tb02936.xCitations: 2AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL REFERENCES 1 Abell, C. W. and Monahan, T. M. (1973): “The Role of Adenosine 3′, 5′—Cyclic Monophosphate in the Regulation of Mammalian Cell Division. J. of Cell Biol., 59: 549. 2 Abercrombi, M. and Ambrose, E. J. (1962): “The Surface Properties of Cancer Cells: A Review. Cancer Research, 22: 525. 3 Adrian, R. H. (1956): “The Effect of Internal & External Potassium Concentration on the Membrane Potential of Frog Muscle. J. Physiol., 133: 631. 4 Adrian, R. H. and Slayman, C. L. (1966): “Membrane Potential and Conductance During Transport of Sodium, Potassium and Rubidium in Frog Muscle. J. Physiol., 184: 970. 5 Arsenberg, A. C. (1961): “ The Glycolysis and Respiration of Tumors”. Academic Press, N.Y . 6 Albers, R. W. (1967): “Biochemical Aspects of Active Transport. Ann. Review of Biochemistry, 36, Pt. II, 727. 7 Arcos, J. C., Griffith, G. W. and Cunningham, R. W. (1960): “Fine Structural Alterations in Cell Particles During Chemical Carcinogenesis. J. Biophysic & Biochem. Cytol., 7, 1, 49. 8 Arcos, J. C. and Arcos, M. (1958): “Fine-Structural Alterations in Cell Particles during Chemical Carcinogenesis. Biochimica et Biophys. Acta., 28: 9. 9 Ariel, M. and Grossowicz, N. (1974): “Enhancement of Transport in Micrococcus Lysodeikticus by Sodium Ions. Biochimica et Biophys. Acta., 352: 122. 10 Aronson, P. S. and Sacktor, B. (1974): “Transport of D-Glucose by Brush Border Membranes Isolated from the Renal Cortex. Biochimica et Biophys. Acta. 356: 231. 11 Aull, F. and Hempling, H. G. (1963): “Sodium Fluxes in the Ehrlich Mouse Ascites Tumor Cell. Am. J. Physiol. 204: 789. 12 Azzi, A. and Azzone, G. F. (1967): “Ion Transport in Liver Mitochondria. Biochim. Biophys. Acta., 135: 444. 13 Azzi, A. and Azzone, G. F. (1967): “Swelling and Shrinkage Phenomena in Liver Mitochondria. Biochim. et Biophys. Acta., 131: 468. 14 Baker, P. F. and Manil, J. (1968): “The Rates of Action of K+ and Ouabain on the Sodium Pump in Squid Axons. Biochim. Biophys. Acta., 150: 328. 15 Bakkeren, J. A. J. M. and Bonting, S. L. (1968): “Studies on (Na+ - K +)—Activated ATPase. Biochim. Biophys. Acta., 150: 460. 16 Bakkeren, I. A. J. M. and Bonting, S. L. (1968): “Studies on (Na+ - K+)—Activated ATPase. Biochim. Biophys. Acta., 150: 467. 17 Balitsky, K. P. and Shuba, E. P. (1964): “Resting Potential of Malignant Tumour Cells. Acta. Un. Canc., 20: 1393. 18 Bennett, L. R., Bennett, V. C. and Howland, J. W. (1949): “Effect of acute X-radiation on distribution and excretion of radio sodium in the rat. Fed. Proc. 8: 350. 19 Berridge, M. J. (1975): “The Interaction of Cyclic Nucleotides and Calcium in the Control of Cellular Activity. Advances in Cyclic Nucleotide Research. 6: 1. 20 Blaustein, M. P. and Hodgkin, A. L. (1969): “The Effect of Cyanide on the Efflux of Calcium from Squid Axons. J. Physiol., 200: 497. 21 Blostein, R. (1970): “Sodium-activated Adenosine Triphosphatase Activity of the Erythrocyte Membrane. J. Biol. Chemistry, 245: 270. 22 Boldyrev, A. A., Tkachuk, V. A. and Titanji, P. V. K. (1974): “Activation Energy of Skeletal Muscle Sarcolemmal Na+, K+—Adenosine Triphosphatase. Biochim. et Biophysica Acta., 357: 319. 23 Bresciari, F., Auricchio, F. and Fiore, C. (1964): “Effect of X-rays on Movements of Sodium in Human Erythrocytes. Rad. Research, 21: 394. 24 Bresciani, F., Auricchio, F. and Fiore, C. (1962): “Inhibition of Sodium Pump and increase of Passive Fluxes by X-rays in Human Erythrocytes. Biochem. & Biophys. Res. Communications, 8: No. 6, 492. 25 Brett, D. E. and Schloerb, P. R. (1962): “Intermittent Hyperthermia on Walker 256 Carcinoma. Archives of Surgery, 85: 154. 26 Bruce, A. K. (1958): “Response of Potassium Retentivity and Survival of Yeast to Far-Ultraviolet, Near-Ultraviolet and Visible and X-Radiation. J. Gen. Physiol., 41, No. 4, 693. 27 Bucher, N. L. R. (1963): “Regeneration of Mammalian Liver. Int. Rev. Cytol., 15: 245. 28 Bulbring, E. and Kuriyama, H. (1963): “Effects of Changes in the External Sodium and Calcium concentrations on Spontaneous Electrical Activity in Smooth Muscle of Guinea-pig Taenia Coli. J. Physiol., 166: 29. 29 Burger, F. J. (1970): “The Effect of Hyperthermia on Serum Enzymes Activity”. S.A. Medical J. 8/8/70. Supp. S. African J. of Lab. & Clin. Med., 899. 30 Burger, M. M. (1969): “A Difference in the Architecture of the Surface Membrane of Normal and Virally Transformed Cells. Proc. Nat. Acad. Sci. USA, 62: 994. 31 Burnstock, G. and Straub, R. W. (1958): “A Method for Studying the Effects of Ions and Drugs on the Resting and Action Potentials in Smooth Muscle with external electrodes. J. Physiol., 140: 156. 32 Bygrave, F. L. (1966): “The Effect of Calcium Ions on the Glycolytic Activity of Ehrlich Ascites Tumour Cells. Biochem. J., 181: 480. 33 Bygrave, F. L. (1967): “The Ionic Environment and Metabolic Control. Nature, 214: 667. 34 Carpenter, D. O. and Alving, B. O. (1968): “A Contribution of an Electrogenic Na+ Pump to Membrane Potential in Aplysia Neurons. J. Gen. Physiol., 52: 1. 35 Carpenter, D. O. (1967): “Temperature Effects on Pacemaker Generation, Membrane Potential, and Critical Firing Threshold in Aplysia Neurons. J. Gen. Physiol., 50: 1469. 36 Carpenter, D. O. (1970): “Membrane Potential Produced Directly by the Na+ Pump in Aplysia Neurons. Comp. Biochem. Physiol., 35: 371. 37 Case, R. M. and Clausen, T. (1973): “The Relationship between calcium exchange and enzyme secretion in the Isolated Rat Pancreas. J. Physiol., 235: 75. 38 Castillo, del, J., Mello, de, W. C. and Morales, T. (196465): “Influence of Some Ions on the Membrane Potential of Ascaris Muscle. J. Gen. Physiol., 48: 129. 39 Cavaliere, R. et al. (1967): “Selective Heat Sensitivity of Cancer Cells. Cancer. 20: 1351. 40 Chance, B. (1965): “The Energy-linked Reaction of Calcium with Mitochondria. J. Biological Chemistry. 240, No. 6, 2729. 41 Chapman, I. V. and Sturrock, M. G. (1972): “The Effects of X-irradiation in vitro on the transport of potassium ions in thymocytes. Int. J. Radiat. Biol., 22, No. 1, 1. 42 Christensen, H. N., et al. (1952): “Intense concentration of α, γ-Diaminobutyric Acid by cells. J. Biological Chemistry. 198: 17. 43 Christensen, H. N., Liang, M. and Archer, E. G. (1967): “A Distinct Na+—requiring Transport System for Alanine, Serine, Cysteine and Similar Amino Acids. J. Biological Chemistry, 242, No. 22, 5237. 44 Christensen, H. N. and Liang, M. (1966): “On the Nature of the Non-Saturable Migration of Amino Acids into Ehrlich Cells and into Rat Jejunum. Biochimica et Biophys. Acta., 112: 524. 45 Christensen, H. N. and Riggs, T. K., el al. (1952): “Amino Acid Concentration by a Free Cell Neoplasm: Relations among Amino Acids. J. Biol. chem., 198: 1. 46 Christensen, H. N. and Riggs, T. R. (1952): “Concentrative Uptake of Amino Acids by the Ehrlich Mouse Ascites Carcinoma Cell. J. Biol. Chem., 194: 57. 47 Clausen, T. (1968): “The Relationship between the Transport of Glucose and cations across Cell Membranes in Isolated Tissues. Biochim. Biophys. Acta., 150: 66. 48 Clerici, E. and Cudkowicz, G. (1956): “Certain Effects of p-Dimethylaminoazebenzene. Deficient Diet, and Hypotonic Media on Mitochondrial Enzymes in Experimental Rat-Liver Carcinogenesis. J. Nat. Cancer Inst., 16, No. 6, 1459. 49 Clothier, G. and Timourian, H. (1972): “Calcium Uptake and Release by Dividing Sea Urchin Eggs. Exp. Cell Res., 75: 105. 50 Coman, D. R. (1953): “Mechanisms Responsible for the Origin and Distribution of Blood-borne Tumor Metastases: A Review. Cancer Research, 13: 397. 51 Cone, C. D. (1971): “Unified Theory on the Basic Mechanism of Normal Mitotic Control and Oncogenesis. J. Theor. Biol., 30: 151. 52 Cone, C. D. (1969): “Electroosmotic Interactions Accompanying Mitosis initiation in Sarcoma Cells In vitro. Trans. N.Y. Acad. Sci., 31: 404. 53 Cone, C. D. (1970): ‘Variation of the Transmembrane Potential Level as a Basic Mechanism of Mitosis Control. Oncology, 24: 438. 54 CooK, J. S. (1965): “The Quantitative Interrelationships between Ion Fluxes, Cell Swelling and Radiation Dose in Ultraviolet Hemolysis. J. Gen. Phys., 48: 719. 55 Cope, F. W. (1967): “NMR Evidence for Complexing of Na+ in Muscle, Kidney and Brain and by Actomyosin. The Relation of Cellular Complexing of Na+ to Water Structure and to Transport Kinetics. J. Gen. Phys., 50, 1353. 56 Crane, R. K. (1962): “Hypothesis for Mechanism of Intestinal Active Transport of Sugars. Fed. Proc., 21: 891. 57 Crane, R. K. (1965): “a+-dependent transport in the Intestine and other animal tissues. Fed. Proc., 24, Pt. 1, 1000. 58 Creasey, W. A. (1960): “Changes in the Sodium and Potassium contents of cell nuclei after irradiation. Biochim. Biophys. Acta., 38: 181. 59 Crile, G. (1961): “Heat as an Adjunct to the Treatment of Cancer. Cleveland Clinic Quarterly, 28: 75. 60 Cross, S. B., Keynes, R. D. and Rybova, R. (1965): “The Coupling of Sodium Efflux and Potassium Influx in Frog Muscle. J. Physiol., 181: 865. 61 Csaky, T. Z. (1963): “A possible link between active transport of electrolytes and nonelectrolytes. Fed. Proc., 22: 3. 62 Curran, P. F., et al. (1967): “Kizetic Relations of the Na-Amino Acid Interaction at the Mucosal Border of Intestine. J. Gen. Phys., 50: 1261. 63 Curran, P. F., et al. (1960): “The Effect of X-Irradiation on Sodium and Water Transport in Rat Ileum. Radiation Research, 13: 369. 64 Dambach, G. and Friedmann, N. (1974): “The Effects of Varying Ionic Composition of the Perfu Perfusate on Liver Membrane Potential, Gluconeogenesis and Cyctic Amp Responses. Biochimica et Biophys. Acta., 332: 374. 65 Daniel, E. E., et al. (1970): ‘Adrenergic receptors for catecholamine effects on tissue electrolytes. Fed. Proc., 29: 1410. 66 DeLorenzo, R. J., Walton, K. G., Curfan, P. F. and Greengard, P. (1973): “Regulation of Phos-phorylation of a Specific Protein in Toad-Bladder Membrane by Antidiuretic Hormone and Cyclic AMP and its Possible Relationship to Membrane Permeability Changes. Proc. Nat. Acad. Sci., 70: 880. 67 DeRubertis, F. R. and Zenser, T. V., et al. (1974): “Role of Cyclic Adenosine 3′ 5′-Monophosphate in Lymphocyte Mitogensis. 113: 151. 68 Dickson, J. A. and Shah, D. M. (1972): “The Effects of Hyperthermia (42°C) on the Biochemistry and Growth of a Malignant Cell Line. Europ. J. Cancer, 8: 561. 69 Dickson, J. A. and Muckle, D. S. (1972): “Total-Body Hyperthermia versus Primary Tumor Hyperthermia in the Treatment of the Rabbit VX-2 Carcinoma. Cancer Research. 32: 1916. 70 Dickson, J. A. and Ellis, H. A. (1974): “Stimulation of tumour cell dissemination by raised temperature (42°C) in rats with transplanted Yoshida Tumours. Nature, 248: 354. 71 Divekar, A. Y., Vaidya, N. R. and Braganca, B. M. (1967): “Active Transport of Aminopterin in Yoshida Sarcoma Cells. Biochim. Biophys. Acta., 135: 927. 72 Douglas, W. W., Kanno, T. and Sampson, S. R. (1967): “Influence of the Ionic Environment on the Membrane Potential of Adrenal Chromaffin Cells and on the Depolarizing Effect of Acetyl-choline. J. Physiol., 191: 107. 73 D'Silva, J. L. (1934): “The Action of Adrenaline on Serum Potassium. J. Physiol., 82: 26. 74 Eddy, A. A. (1969): “A Sodium Ion Concentration Gradient Formed during the Absorption of Glycine by Mouse Ascites-Tumour Cells. Biochem. J., 115: 505. 75 Eddy, A. A., Mulcahy, M. F. and Thomson, P. J. (1967): “The Effects of Sodium Ions and Potassium Ions on Glycine Uptake by Mouse Ascites-Tumour Cells in the Presence and Absence of Selected Metabolic Inhibitors. Biochem. J., 103: 863. 76 Eddy, A. A. and Hogg, M. C. (1969): “Further Observations on the Inhibitory Effect of Extracellular Potassium Ions on Glycine Uptake by Mouse Ascites-Tumour Cells. Biochem. J., 114: 807. 77 Edwards, C. and Harris, E. J. (1957): “Factors Influencing the Sodium Movement in Frog Muscle with a Discussion of the Mechanism of Sodium Movement. J. Physiol., 135: 567. 78 Edwards, C., Harris, E. J. and Nishie, K. (1957): “The Exchange of Frog Muscle Na+ and K+ in the Presence of the Anions Br—, NO—. I- and CNS-. J. Physiol., 135: 560. 79 Ellinwood, L. E., Wilson, J. E. and Coon, J. M. (1957): “Release of Potassium from the X-Irradiated Mammalian Heart. Proc. Soc. Experimental Biology & Medicine, 94: 129. 80 Emmelot, P. and Bos, C. J. (1966): “Studies on Plasma Membranes. Biochimica et Biophysica Acta., 121: 375. 81 Emmelot, P. and Bos, C. J. (1957): “Effects shown by hepatocarcinogens on isolated liver mitochondria. Biochim. et Biophys. Acta., 24: 442. 82 Emmelot, P. and Bos, C. J. (1968): “Studies on Plasma Membranes. Biochim. et Biophys. Acta., 150: 341. 83 Emmelot, P. and Bos, C. J. (1968): “Studies on Plasma Membranes. Biochim. et Biophys. Acta., 150: 354. 84 Endou, H., Reuter, E. and Weber, H. (1975): “Relationship between L-Alanine and Sodium Ion Transport in Isolated Renal Tubules. Biochim. et Biophys. Acta., 389: 516. 85 Epel, D. (1967): “Protein Synthesis in Sea Urchin Eggs: A ‘Late’ Response to Fertilization. Proc. Nat. Acad. Sci., 67: 899. 86 Ferrari, V. and Harkness, R. D. (1954): “Free Amino-Acids in Liver and Blood after Partial Hepatectomy in Normal and Adrenalectomized Rats. J. Physiol., 124: 443. 87 Friedmann, N. and Dambach, G. (1973): “Effects of Glucagon, 3′5′-Amp and 3′5′-Gmp on ion fluxes and Transmembrane Potential in Perfused Livers of Normal and Adrenalectomized Rats. Biochim. et Biophys. Acta., 307: 399. 88 Friedmann, N. (1971): “Cyclic Adenosine and Guanosine Monophosphates and Glucagon: Effect on Liver Membrane Potentials. Science, 171: 400. 89 Friedmann, N. (1972): “Effects of Glucagon and Cyclic Amp on Ion Fluxes in the Perfused Liver. Biochim. et Biophys. Acta, 274: 214. 90 Friedmann, N. and Rasmussen, H. (1970): “Calcium, Manganese and Hepatic Gluconeogenesis. Biochim. et Biophys. Acta., 222: 41. 91 Friedmann, N. and Park, C. R. (1968): “Early Effects of 3′ 5′-Adenosine Monophosphate on the Fluxes of Calcium and Potassium in the perfused Liver of Normal and Adrenalectomized Rats. Proc. Nat. Acad. Science, 61: 504. 92 Frumento, A. S. (1965): “Sodium Pump: Its Electrical Effects in Skeletal Muscle. Science, 147: 1442. 93 Fry, B. J. and Gross, P. R. (1970): “Patterns and Rates of Protein Synthesis in Sea Urchin Embryos. Develop. Biology, 21: 105. 94 Gainer, H. (1967): “Plasma membrane structure: Effects of Hydrolases on muscle resting potentials. Biochim. Biophys. Acta., 135: 560. 95 Gamble, J. L. (1957): “Potassium Binding and Oxidative Phosphorylation in Mitochondria and Mitochondrial Fragments. J. Biol. Chem., 228: 935. 96 Garrahan, P. J. and Glynn, I. M. (1967): “The Behaviour of the Sodium Pump in Red Cells in the Absence of External Potassium. J. Physiol., 192: 159. 97 Garrahan, P. J. and Glynn, I. M. (1967): “Factors Affecting the Relative Magnitudes of the Sodium: Potassium and Sodium: Sodium Exchanges Catalysed by the Sodium Pump. J. Physiol., 192: 189. 98 Garrahan, P. J. and Glynn, I. M. (1967): “The Stoicheiometry of the Sodium Pump. J. Physiol., 192: 217. 99 Garrahan, P. J. and Glynn, I. M. (1966): “ Exchange ratios for the cation pump in red cells during Na:Na and Na:K exchange. Physiology. Soc. Proc. March, 31P. 100 Garrahan, P. J. and Glynn, I. M. (1967): “The Sensitivity of the Sodium Pump to External Sodium. J. Physiol., 192: 175. 101 Garrahan, P. J. and Glynn, I. M. (1965): “Uncoupling the Sodium Pump. Nature, 207: 1098. 102 Garrahan, P. J. and Glynn, I. M. (1967): “The Incorporation of Inorganic Phosphate into Adenosine Triphosphate by Reversal of the Sodium Pump. J. Physiol., 192: 237. 103 Gevers, W. and Krebs, H. A. (1966): “The Effects of Adenine Nucleotides on Carbohydrate Metabolism in Pigeon-Liver Homogenates. Biochem. J., 98: 720. 104 Gibson, I. M. and McIlwain, H. (1965): “Continuous Recording of Changes in Membrane Potential in Mammalian Cerebral Tissues In Vitro: Recovery after Depolarization by Added Substances. J. Physiol., 176: 261. 105 Giovanella, B. C., Lohman, W. A. and Heidelberger, C. (1970): “Effects of Elevated Temperatures and Drugs on the Viability of L1210 Leukemia Cells. Cancer Research, 30: 1623. 106 Giovanella, B. C. and Heidelberger, C. (196468): “Biochemical and Biological Effects of Heat on Normal and Neoplastic Cells. Abstracts. Proc. Am. Ass. Cancer Research, 5–9: 24. 107 Giovanella, B. C., et al. (196973): “Further Studies of the Lethal Effects of Heat on Tumor Cells. Abstracts. Proc. Am. Ass. Cancer Res., 10–14: 29. 108 Giovanella, B. C., et al. (1973): “Selective Lethal Effect of Supranormal Temperatures on Mouse Sarcoma Cells. Cancer Res., 33: 2568. 109 Glynn, I. M. (1961): “ Activation of adenosinetri-phosphatase activity in a cell membrane by external potassium and internal sodium. Proc. Physiol. Soc., 3–4, 19P. 110 Gosch, H. H. (1961): “Transmission of Swelling Characteristics by Mitochondria of Regenerating Liver. Nature. 190: 272. 111 Greaves, M. and Janossy, G. (1972): “Elicitation of Selective T and B Lymphocyte Responses by Cell Surface Binding Ligands. Transplant Rev., 11: 87. 112 Greenstein, J. P. (1954): “ Biochemistry of Cancer”. Academic Press, 2nd ed. N.Y. , 93. 113 Gurdon, J. B. and Woodland, H. R. (1968): “The Cytoplasmic Control of Nuclear Activity in Animal Development. Biol. Reviews. 43: 233. 114 Guthrow, C. E., et at, (1972): “Phosphorylation of an Endogenous Membrane Protein by an Endogenous, Membrane-Associated Cyclic Adenosine 3′5′-Monophosphate-dependent Protein Kinase in Human Erythrocyte Ghosts. J. Biol. Chemistry. 247: 8145. 115 Hadden, J. W., et at, (1972): “Guanosine 3′5′-Cyclic Monophosphate: A Possible Intracellular Mediator of Mitogenic Influences in Lymphocytes. Proc. Nat. Acad. Sc. 69: 3024, No. 10. 116 Hall, R. R., et at, (1974): “Effects of Hyperthermia on Bladder Cancer. Brit. Med. J., 2: 593. 117 Hanking, B. M. and Roberts, S. (1965): “Stimulation of Protein Synthesis in vitro by Elevated Levels of Amino Acids. Biochim. et Biophys. Acta., 104: 427. 118 Harkness, R. D. (1952): “Changes in the Liver of the Rat After Partial Hepatectomy. J. Physiol., 117: 267. 119 Harkness, R. D. (1957): “Regeneration of Liver. Brit. Med. Bull., 13: 87. 120 Harris, M. (1969): “Growth and Survival of Mammalian Cells under Continuous Thermal Stress. Exp. Cell Res., 56: 382. 121 Harrison, A. P., et at, (1958): “Influence of X-Irradiation on Potassium Retentivity by Escherichia coli. Proc. Soc. Expt. Biol. Med., 98: 740. 122 Henderson, M. A. and Pettigrew, R. T. (1971): “Induction of Controlled Hyperthermia in Treatment of Cancer. The Lancet. June 19, 1275. 123 Hastings, A. B., et at, (1951): “Studies on Carbohydrate Metabolism in Rat Liver Slices. J. Biolog. Chem., 194: 69. 124 Haugaard, N. (1970): “Factors influencing the metabolic actions of catecholamines. Fed. Proc., 29. No. 4, 1373. 125 Helmreich, E. and Kipnis, D. M. (1962): “Amino Acid Transport in Lymph Node Cells. J. Biolog. Chem., 237, No. 8, 2582. 126 Hempling, H. G. (1966): “Sources of Energy for the Transport of Potassium and Sodium across the Membrane of the Ehrlich Mouse Ascites Tumor Cell. Biochim. Biophys. Acta., 112: 503. 127 Henle, K. J. and Leeper, D. B. (1976): “Combinations of Hyperthermia (40°, 45°C) with Radiation. Therapeutic Radiology. 121: 451. 128 Hiramoto, Y. (1959): “Electric Properties of Echinoderm Eggs. Embryologia, 4: 219. 129 Hodgkin, A. L. and Katz, B. (1949): “The Effect of Sodium Ions on the Electrical Activity of the Giant Axon of the Squid. J. Physiol., 108: 37. 130 Holt, J. A. G. (1975): “Use of V.H.F. Radiowaves in Cancer Therapy. Aust. Radiol., 19: 223. 131 Honegger, P. and Gershon, E. (1974): “Further Evidence for the Multiplicity of Carriers for Free Glucalogues in Hamster Small Intestine. Biochim. et Biophys. Acta., 352: 127. 132 Hotham, B. M., et at, (1966): “Effect of Glucose and Succinate on Respiration in Fresh and Incubated Ascites Tumor Cells. Cancer Res., 26: 947. 133 Hsie, A. W., et at, (1971): “Further Changes in Differentiation State Accompanying the Conversion of Chinese Hamster Cells to Fibroblastic Form by Dibutyryl Adenosine Cyclic 3′5′-Mono-phosphate and Hormones. Proc. Nat. Acad. Sci., 68, No. 7, 1648. 134 Humphrey, E. W. (1965): “Cell Permeability Change during Growth. J. Cell Biology, 27: 47A. 135 Hyperthermia in the Treatment of the Cancer Patient (1976). Cancer Ap. Suppl., 37: 2075. 136 Iggo, A. and Ilyinsky, O. B. (1976): “Somatosensory and Visceral Receptor Mechanisms. Progress in Brain Research, 43: 129. 137 Ireson, J. D., Conway, G. E. and Schwarzenbach, F. H. (1972): “The Effect of a Complex Yeast Preparation, as a Food Supplement, on the Growth of Ehrlich's Ascites Tumour in Mice. Europ. J. Cancer, 8: 159. 138 Israel, Y., Kalant, H. and LeBlanc, A. E. (1966): “Effects of Lower Alcohols on Potassium Transport and Microsomal Adenosine-Triphosphatase Activity of Rat Cerebral Cortex. Biochim. J., 100: 27. 139 Itoh, S. and Schwartz, I. L. (1957): “Sodium & Potassium Distribution in Isolated Thymus Nuclei Am. J. of Physiology, 188: 490. 140 Johnson, H. J. (1940): ‘The Action of Short Radio Waves on Tissues. Am. J. of Cancer, 38: 533. 141 Johnstone, B. M. (1959): “Micro-Electrode Penetration of Ascites Tumour Cells. Nature, 53, No. 4658, 411. 142 Johnstone, R. M. (1974): “Role of ATP on the Initial Rate of Amino Acid Uptake in Ehrlich Ascites Cells. Biochim. et Biophys. Acta., 356: 319. 143 Johnstone, R. M. and Scholefield, P. G. (1965): “The Need for lons during Transport and Exchange Diffusion of Amino Acids into Ehrlich Ascites Carcinoma Cells. Biochim. et Biophys. Acta., 94: 130. 144 Johnstone, R. M. and Scholefield, P. G. (1965): “Significance of Amino Acid Transport in Tumors. Advan. Cancer Res., 9: 144. 145 Jones, W. B. G., et at, (1965): “Variation of K+ and Na+ content during the growth cycle of yeast. Biochim. et Biophys. Acta., 104: 310. 146 Jung, C. and Rothstein, A. (1967): “Cation Meedbolism in Relation to Cell Size in Synchronously Grown Tissue Culture Cell. J. Gen Physiol., 50: 917. 147 Kachmar, J. F. and Boyer, P. D. (1953): “Kinetic Analysis of Enzyme Reactions. J. Biol. Chemistry. 200: 669. 148 Katz, S. and Blostein, R. (1975): “Ca2+-Stimulated Membrane Phosphorylation and ATPase Activity of the Human Erythrocyte. Biochim. et Biophys. Acta., 389: 314. 149 Kelly, L. S. (1961): “Radiosensitivity of Biochemical Processes. Brookhaven Sym. on Biology. 14: 32. 150 Kennedy, G. C. (1957): “Effects of Old Age and Over-Nutrition on the Kidney. Brit. Med. Bull., 13: 67. 151 Kerkut, G. A. and Ridge, R. M. A. P. (1961): “The Effect of Temperature Changes on the Resting Potential of Crab, Insect and Frog Muscle. Comp. Biochim. Physiol., 3: 64. 152 Kerkut, G. A. and Ridge, R. M. A. P. (1962): “The Effect of Temperature Changes on the Activity of the Neurones of the Snail Helix Aspersa. Comp. Biochim. Physiol., 5: 283. 153 Kernan, R. P. (1962): “Membrane Potential Changes during Sodium Transport in Frog Sartorius Muscle. Nature, 193: 986. 154 Keynes, R. D. (1954): “The Ionic Fluxes in Frog Muscle. Proc. Roy. Soc. Lond., 142: 359. 155 Keynes, R. D. and Swan, R. C. (1959): “The Effect of External Sodium Concentration on the Sodium Fluxes in Frog Skeletal Muscle. J. Physiol., 147: 591. 156 Kipnis, D. M. and Parrish, J. E. (1965): “Role of Na+ and K+ on sugar (2–deoxyglucose) and amino acid (α-aminoisobutyric acid) transport in striated muscle. Fed. Proc. 24: 1051. 157 Kleinzeller, A., et at, (1970): “The Effect of pH on Sugar Transport and Ion Distribution in Kidney Cortex Cells. Biochim. et Biophys. Acta., 211: 293. 158 Koefoed-Johnsen, V. and Ussing, H. H. (1960): “Ion Transport. Mineral Metabolism, 1: 169, pt. A. ed. C. L. Comar and F Bronner. 160 Kollmann, G., Shapiro, B. and Martin, D. (1969): “The Mechanism of Radiation Hemolysis in Human Erythrocytes. Rad. Res., 37: 551. 161 Knox, W. E. (1967): “The Enzymic Pattern of Neoplastic Tissue. Advances in Cancer Res., 10: 117. 162 Krishnaraj, R. and Talwar, G. P. (1973): “Role of Cyclic Amp in Mitogen Induced Transformation of Human Peripheral Leukocytes. J. Immunology, 111: 1010, No. 4. 163 Kuchler, R. J. (1967): “The Role of Sodium and Potassium in Regulating Amino Acid Accumulation and Protein Synthesis in LM-Strain Mouse Fibroblasts. Biochim. Biophys. Acta., 136: 473. 163 Kuriyama, H. (1963): The Influence of Potassium, Sodium and Chloride on the Membrane potential of the Smooth Muscle of Taenia Con. J. Physiol., 166: 15. 164 Lahrtz, H. G., et at, (1967): “Calcium Transport in Isolated Guinea-pig Atria during metabolic inhibition. Biochim. et Biophys. Acta., 135: 701. 165 Laird, A. K. and Miller, E. C. (1953): “Studies on the Intracellular Composition of Livers from Rats Fed 2–Acetylaminofluorene. Cancer Res., 13: 464. 166 Lehninger, A. L., et al. (1967): “Energy-Linked Ion Movements in Mitochondrial Systems. Adv. Enzymology, 29: 259. 167 Loewy, A. G. and Siekevitz, P. (1973): “ Cell Structure and Function”. Holt, Rinehart & Winston, 2na ed. 168 LeVeen, H. H. and Wapnick, S., et al. (1967): “Tumor Eradication by Radiofrequency Therapy. Jama, 235, No. 20, 2198. 169 Levine, R. (1965): “Cell membrane as a primary site of insulin action. Fed. P