Deoxynucleotide-interconverting enzymes and the quantification of deoxynucleoside triphosphates in mammalian cells

Abstract

We have demonstrated that methanol extracts of human cells are heterogeneous with regard to content of dNDP (deoxynucleoside diphosphate) and dNMP (deoxynucleoside monophosphate) kinases. The presence of these enzymes can affect the reliability of techniques used to measure intracellular pools of deoxynucleotides. An optimized extraction procedure and enzymic assay for dNTP species in haematopoietic cells are described which provide sensitivity to measure 0.1-40pmol of dATP, dTTP and dGTP, and 1.0-40pmol of dCTP. The extraction and assay give linear results with (2.5-15)x10(6) nucleated cells and (0.1-1.5)x10(9) red blood cells. Under these conditions, extracts equivalent to ~0.5x10(6) nucleated haematopoietic cells catalyse the phosphorylation of 0-8% of dNDP and dNMP standards to dNTP and incorporate them into deoxynucleotide polymer under circumstances where 100% of an equimolar dNTP standard would be incorporated. By contrast, extracts of 0.4x10(6) HeLa cells totally converted dADP, dTDP and dGDP into dNTP with subsequent polymerization. Conversion of dCDP was somewhat less efficient. The results demonstrate conclusively that the activities of deoxynucleotide interconverting enzymes differ in different types of human cells. They can interfere with assay of nucleotides, but may not do so in many types of cell extracts. In particular, dNTP concentrations can be measured in human haematopoietic cells after extraction with 60% (v/v) methanol and are not artificially elevated by deoxynucleotide interconversions. It is apparent that extraction and assay procedures for measurement of dNTP species should be analysed for each cell type in order to minimize contaminating enzyme activities and ensure accuracy of dNTP quantification.