Albert H. van Gennip

Nucleotide profiles of normal human blood cells determined by high-performance liquid chromatography

An anion-exchange high-performance liquid chromatography method has been used to quantitate the intracellular purine and pyrimidine nucleotides in extracts of pure lymphocytes, monocytes, neutrophils, eosinophils, erythrocytes, and platelets isolated from the blood of healthy human donors. For accurate and reproducible measurements of the nucleotide profiles in different types of pure leukocytes, the cell suspensions have to be free of platelets and erythrocytes. Incubation of the purified leukocytes for 1 h at 0 degrees C did not alter the nucleotide concentrations but reduced the interdonor variation to 10%. Incubation of purified lymphocytes for 1 h at 37 degrees C caused considerable changes in the relative concentrations of the adenine, guanine, uracil, and cytosine nucleotides. During this incubation the cell viability, the cell number, and the ATP:ADP ratio decreased. Incubation of monocytes and granulocytes for 1 h at 37 degrees C caused considerable loss of cells and/or cell death. For erythrocytes and platelets reproducible nucleotide concentrations were obtained after extraction of freshly isolated cells. During storage of erythrocytes, both at 0 degrees C and at 37 degrees C, a decrease in the ATP:ADP ratio was detected. In all cell types the predominant nucleotides were purine nucleotides, especially adenosine triphosphate. The relative concentrations of the adenine, guanine, uracil, and cytosine nucleotides were very reproducible per cell type and appeared to be characteristic for each cell type. The total nucleotide content was nearly the same for all cell types except erythrocytes, when expressed per microgram of protein. The described methods for purification and storage of blood cells will be useful for comparison of blood cells from healthy donors with those of patients, for example, leukemia patients, in which deviations of the purine and pyrimidine metabolic enzymes have already been described.

Simultaneous determination of catecholamines and metanephrines in urine by HPLC with fluorometric detection

A method is described for quantitative analysis of urinary free and conjugated catecholamines and metanephrines. The compounds are isolated from the urine by cation exchange on Amberlite CG 50. Separation is performed by ion-pair reversed-phase high-performance liquid chromatography. For detection of the amines their native fluorescence emitted at 313 nm on excitation at 285 nm was monitored. There was good separation of the compounds of interest, while interference by exogenous compounds other than the catecholamines or metanephrines was minimal. The method is rapid and precise, and it has a broad linear working range for all six DOPA metabolites, making it suitable for clinical analysis. Reference values for children of 0-16 years were established. Examples are shown of excretion patterns of DOPA metabolites from patients with different types of neurogenic tumour.

Anion-exchange high performance liquid chromatography method for the quantitation of nucleotides in human blood cells

An anion-exchange high performance liquid chromatography (HPLC) method is described for the quantitation of intracellular purine and pyrimidine nucleotides. With an ammonium phosphate salt and pH gradient, complete separation is achieved of all major nucleotides and several interfering substances, such as dehydroascorbic acid and NAD. For optimal resolution of the monophosphates, strict control of the equilibration pH is essential. To prevent interference by a degradation product of NADPH with the determination of GDP, the pH of the high-ionic strength buffer has to be in the range of 4.9-5.0. The use of radially compressed, prepacked cartridges filled with Partisil-10 SAX appeared to be a fast and cheap alternative for expensive stainless-steel columns. The use of ammonium phosphate buffers, in combination with precolumns filled with pellicular silica and SAX resin, and interim EDTA washes prevents baseline shift. This allows analysis at 0.01 Absorbance Units Full Scale during the entire column lifetime (about 180 analyses), which is sufficiently sensitive for the quantitation of low levels of nucleotides, especially when the amount of sample is limited. The usefulness of the presented chromatographic system is demonstrated by the quantitation of the nucleotides in extracts of lymphocytes and neutrophils from the blood of healthy human donors. With this method nucleotide concentrations were measured, with a within-assay variation of 5-10% and an inter-donor variation of 10%.

Imbalance in the ribonucleotide pools of lymphoid cells from acute lymphoblastic leukemia patients

The intracellular purine and pyrimidine ribonucleotide concentrations were determined in the lymphoid cells from peripheral blood and/or bone-marrow of 29 patients with acute lymphoblastic leukemia (ALL), as well as in the mononuclear cells from peripheral blood of 12 patients with ALL in remission. The lymphoid cells of ALL patients showed an imbalance in the nucleotide pool compared with normal lymphocytes, whereas the nucleotide pool of mononuclear cells from patients with ALL in remission had normal values. The imbalance in the lymphoid cells from ALL patients involved decreased ratios of purine:pyrimidine, adenine:guanine and uracil:cytosine nucleotides, and an increased amount, together with a changed composition, of the UDP sugars. When compared with tonsil-derived B lymphocytes and thymocytes, ALL lymphoid cells have an increased amount (absolute and relative) and a change composition of the UDP sugars. Significant differences were found between the mean values for the immunologically defined subgroups of ALL and between the mean values for patients with a high or a low percentage of blast cells. However, individual patients cannot be classified according to their nucleotide pattern, because of the overlapping ranges. The results of this study may be useful for the design of new therapeutic regimens.

β-Aminoisobutyric acid as a marker of thymine catabolism in malignancy

Urine from untreated patients with various tumours and controls has been examined for the excretion of beta-aminoisobutyric acid and uric acid. The patients were classified into four groups: I, beta-aminoisobutyric acid and uric acid both normal; II, beta-aminoisobutyric acid normal, uric acid elevated; III, beta-aminoisobutyric acid elevated, uric acid normal; IV, beta-aminoisobutyric acid and uric acid both elevated. Uric acid was used as an indicator for tissue-breakdown. Pseudouridine being a specific parameter for t-RNA degradation was estimated for comparison. Increased urinary concentrations of beta-aminoisobutyric acid were frequently found in tumour patients, especially in patients with leukaemia and non-Hodgkin lymphoma. Tissue breakdown being the cause of the beta-aminoisobutyric aciduria could only be considered in part of the patients. Moreover, strongly elevated ratios of beta-aminoisobutyric acid to uric acid were found. Urinary patterns of pyrimidines and purines were determined in order to exclude other abnormalities. The results are discussed in relation to thymine metabolism and renal function.

Biochemical monitoring of children with neuroblastoma

In this article, a short review is given of the biochemical aspects of diagnosis, estimation of prognosis and follow-up of neuroblastoma in children. The importance of determination of patterns of DOPA-metabolites, rather than single metabolite assay, is stressed and illustrated by patient cases. Also the relevance of urinary cystathionine and beta-amino-isobutyric acid is indicated.

Abnormal nucleotide pattern in the eosinophils of a patient with acute lymphoblastic leukemia associated with eosinophilia.

In this article we present a patient with acute lymphoblastic leukemia (ALL) associated with eosinophilia, in which the eosinophilia preceded a meningeal and bone-marrow relapse of ALL. We analysed the purine and pyrimidine nucleotide content of the eosinophils (92% pure) and compared the nucleotide pattern with that of eosinophils from healthy donors and from patients with eosinophilia not associated with leukemia. The ratios of purine:pyrimidine and of uracil:cytosine nucleotides were decreased compared with those in eosinophils from healthy donors and from patients with eosinophilia with other aetiologies. The total nucleotide concentration was increased, especially the concentration of UDP-sugars and pyrimidine nucleotides. The decrease in these ratios and the increase in concentration of the nucleotides and the UDP-sugars were also detected in leukemic cells of patients with ALL (de Korte et al., Leukemia Res. 10, 389-396 (1986) compared to normal lymphocytes. We suggest a malignant character of the eosinophils in our patient with ALL associated with eosinophilia, in contrast with the non-malignant state suggested previously for these cells.

Imbalance in Nucleotide Pools of Myeloid Leukemia Cells and HL-60 Cells: Correlation with Cell Cycle Phase, Cell Proliferation and Differentiation

Recently, several reports have been published about abnormal purine and pyrimidine metabolism in leukemic cells as compared to normal peripheral blood cells. Enzyme activities1,2 as well as metabolite concentrations3,4 have been studied. These studies demonstrated marked differences in the activities of many enzymes controling purine and pyrimidine metabolism in leukemic cells, such as adenosine deaminase, purine nucleoside Phosphorylase and terminal deoxynucleotidyl transferase. De Abreu et al.3 determined significantly increased concentrations of adenine and uracil nucleotides in the lymphoblasts of patients with non-B, non-T acute lymphoblastic leukemia. Liebes et al.4 found increased concentrations of nicotinamide adenine nucelotides in lymphoid cells of patients with chronic lymphatic leukemia.

FLOW CYTOCHEMICAL PATTERNS OF WHITE BLOOD CELLS IN HUMAN HAEMATOPOIETIC MALIGNANCIES

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