Summary
Human platelets contain at least two forms of phenol sulfotransferase (PST), a thermolabile (TL) form for which dopamine is a substrate and a thermostable (TS) form for which micromolar concentrations of phenol can serve as substrate. At higher concentrations phenol is also a substrate for the TL form. Studies of the regulation and the possible clinical value of measurements of platelet PST have been hampered because there is no specific substrate for the TS form of the enzyme. The purposes of these experiments were to determine whether there might be a better substrate than phenol for use in measurement of the activity of the TS form of platelet PST, and to attempt to physically separate the two forms of the platelet enzyme. The results of substrate kinetic, thermal stability, and inhibitor studies performed with platelet homogenates were all compatible with the conclusion that p-nitrophenol and 6-OH-melatonin were substrates for both the TS and TL forms of platelet PST. Norepinephrine, epinephrine and 5-OH-tryptamine were substrates for only the TL form. The apparent K m constants of the two forms of PST for p-nitrophenol differed by 7,100-fold when measured in platelet homogenates. This difference was 200 times greater than that which has been reported for phenol. Therefore, p-nitrophenol is the preferred substrate for measurement of the TS PST activity if interference by the TL activity is to be avoided. This information made it possible to use p-nitrophenol as a substrate in experiments designed to separate the two forms of platelet PST. The TS and TL forms of the platelet enzyme were separated by ion exchange chromatography. Experiments performed with the partially purified and separated forms confirmed that p-nitrophenol, phenol, 6-OH-melatonin and acetaminophen were substrates for both forms. Apparent K m constants of the two forms differed most for p-nitrophenol.
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References
Anderson RJ, Weinshilboum RM (1979) Phenolsulphotransferase: Enzyme activity and endogenous inhibitors in human erythrocyte. J Lab Clin Med 94:158–171
Anderson RJ, Weinshilboum RM (1980) Phenolsulphotransferase in human tissues: Radiochemical enzymatic assay and biochemical properties. Clin Chim Acta 103:79–90
Anderson RJ, Weinshilboum RM, Phillips SF, Broughton DO (1981) Human platelet phenol sulphotransferase: Assay procedure, substrate and tissue correlations. Clin Chim Acta 110:157–167
Axelrod J, Kopin IJ, Mann JD (1959) 3-Methoxy-4-hydroxyphenylglycol sulphate, a new metabolite for epinephrine and norepinephrine. Biochim Biophys Acta 36:576–577
Bradford MM (1976) A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of dye binding. Anal Biochem 72:248–254
Cleland WW (1963) Computer programmes for processing enzyme kinetic data. Nature 198:463–465
Fellenberg AJ, Phillipou G, Seamark RF (1980) Specific quantitation of urinary 6-hydroxymelatonin sulfate by gas chromatography mass spectrometry. Biomed Mass Spectrometry 7:84–87
Foldes A, Meek JL (1973) Rat brain phenolsulfotransferase — partial purification and some properties. Biochim Biophys Acta 327:365–374
Fuentes JA, Neff NH (1975) Selective monoamine oxidase inhibitor drugs as aids in evaluating the role of type A and B enzymes. Neuropharmacology 14:819–825
Hart RF, Renskers KJ, Nelson EB, Roth JA (1979) Localization and characterization of phenol sulfotransferase in human platelets. Life Sci 24:125–130
Jones RL, McGeer PJ, Greiner AC (1969) Metabolism of exogenous melatonin in schizophrenic and non-schizophrenic volunteers. Clin Chim Acta 26:281–285
Levy G, Khanna NN, Soda DM, Tsuzuki O, Stern L (1975) Pharmacokinetics of acetaminophen in the human neonate: Formation of acetaminophen glucoronide and sulfate in relation to plasma bilirubin concentration and d-glucaric acid excretion. Pediatrics 55:818–825
Littlewood J, Glover V, Sandler M, Petty R, Peatfield R, Rose FC (1982) Platelet phenolsulphotransferase deficiency in dietary migraine. Lancet I:983–986
Mwaluko G, Weinshilboum R (1982) α-Methyldopa, α-methyldopamine and α-methylnorepinephrine: Substrates for the thermolabile form of human platelet phenol sulfotransferase. Br J Clin Pharmacol 14:231–239
Rein G, Glover V, Sandler M (1981a) Sulfate conjugation of biologically active monoamines and their metabolites by human platelet phenolsulphotransferase. Clin Chim Acta 111:247–256
Rein G, Glover V, Sandler M (1981b) Phenolsulphotransferase in human tissue: Evidence for multiple forms. In: Sandler M, Usdin E (eds) Phenolsulfotransferases in mental health research. MacMillan, New York, pp 98–126
Rein G, Glover V, Sandler M (1982) Multiple forms of phenolsulfotransferase in human tissue. Biochem Pharmacol 31:1893–1897
Reiter C, Weinshilboum RM (1981) Phenol and acetaminophen as substrates for two forms of human platelet phenol sulfotransferase. Pharmacologist 23:117
Reiter C, Weinshilboum R (1982a) Acetaminophen and phenol: Substrates for both a thermostable and a thermolabile form of human platelet phenol sulfotransferase. J Pharmacol Exp Ther 221:43–51
Reiter C, Weinshilboum R (1982b) Platelet phenol sulfotransferase (PST) activity: Correlation with sulfate conjugation of acetaminophen in man. Clin Res 30:764A
Reiter C, Weinshilboum R (1982c) Platelet phenol sulfotransferase activity: Correlation with sulfate conjugation of acetaminophen. Clin Pharmacol Ther 32:612–621
Reiter C, Mwaluko G, Weinshilboum R (1982) Human platelet phenol sulfotransferase (PST): Substrate specificity of thermolabile and thermostable forms. Fed Proc 41:1478
Reiter C, Dunnette J, Van Loon J, Weinshilboum R (1983) Human platelet phenolsulfotransferase: Separation of thermolabile and thermostable forms. Naunyn-Schmiedeberg's Arch Pharmacol (Suppl) 322:R105
Roy AB (1981) Sulfotransferases. In: Mulder GJ (ed) Sulfation of drugs and related compounds. CRC Press, Boca Raton, Florida, USA, pp 83–130
Saavedra JA, Reid JL, Jordon W, Rawlins MD, Dollery CT (1975) Plasma concentration of alpha-methyldopa and sulphate conjugate after oral administration of methyldopa and intravenous administration of methyldopa and methyldopa hydrochloride ethyl ester. Eur J Clin Pharmacol 8:381–386
Weinshilboum RM, Anderson RJ (1981) Phenol sulphotransferase in human platelet and other tissues: Endogenous inhibitors, assay conditions, tissue and substrate correlations. In: Sandler M, Usdin E (eds) Phenolsulfotransferase in mental health research. MacMillan, London, pp 8–23
Wilkinson GN (1961) Statistical estimations in enzyme kinetics. Biochem J 80:324–332
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Supported in part by NIH grant GM 28157, Deutsche Forschungsgemeinschaft Fellowship Re 506/2 (C.R.) and a Fogarty International Fellowship (G.M.). Dr. Weinshilboum is a Burroughs Wellcome Scholar in Clinical Pharmacology
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Reiter, C., Mwaluko, G., Dunnette, J. et al. Thermolabile and thermostable human platelet phenol sulfotransferase. Naunyn-Schmiedeberg's Arch. Pharmacol. 324, 140–147 (1983). https://doi.org/10.1007/BF00497020
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DOI: https://doi.org/10.1007/BF00497020