Inhibition of Mycelial Growth by Methotrexate in Neurospora crassa Wild Type and Mutants Deficient in Folylpolyglutamate Synthase

In mammalian cells, folylpolyglutamate synthase (FPGS) catalyzes the polyglutamylation of methotrexate (MTX), a reaction that significantly enhances the cellular retention and cytotoxicity of this antifolate. In contrast, MTX is a poor substrate for the cytosolic FPGS of Neurospora crassa. The present study has therefore examined the effect of MTX on growth of N. crassa wild type (FGSC 853 ) and two mutants (met-6, FGSC 1330 and mac, FGSC 3609) that have lesions affecting FPGS expression. Mycelial dry weights after growth in MTX-supplemented media, suggested that met-6 and mac were more sensitive to the antifolate than the wild type (WT). MTX concentrations resulting in 50% inhibition of growth (ICso values) were 5.5 11M, 6.0 11M and 87.5 11M for met-6, mac, and WT, respectively. When MTX treatment was followed by transfer to 50 11M folinic acid-supplemented media, growth of both mutants was enhanced by ca. 20% while that of WT increased by ca. 8%. [3H]-MTX pulse-chase experiments demonstrated that all three strains had limited or no ability to form polyglutamates (MTXGlun ) of the antifolate. In WT cultures, supplied with 1 I-tM [3H]-MTX for 24 hr and then grown in MTX-free media for another 24 hr, over 95% of the recovered label was in MTX; MTXGlu2 and MTXGlu3 accounting for only 2% and 1% respectively. MTXGlun derivatives were not detected in mac but low levels of MTXGlu2 were generated by met-6. In all three strains, the level of expression of dihydrofolate reductase (DHFR) was similar. DHFR was purified to apparent homogeneity (21.6 kDa) from extracts of each strain using a protocol of ammonium sulfate fractionation, gel filtration and Matrex Green A chromatography. It is concluded that in Neurospora, MTX polyglutamylation is not a major factor in the cytotoxicity of this antifolate.