Development of a homogeneous time-resolved fluorescence assay for high throughput screening to identify Lck inhibitors: comparison with scintillation proximity assay and streptavidin-coated plate assay.

This study details the development of a homogeneous time-resolved fluorescence (HTRF) high throughput screening assay to identify inhibitors of Lck. HTRF was compared with scintillation proximity and streptavidin-coated plate assays. Because of the differences in the sensitivity of detection of phosphotyrosine among the three assays, different amounts of enzyme were used. However, the concentrations of the other assay components were standardized. When using similar assay conditions, the calculated IC(50) values of inhibitory compounds were independent of assay format. Furthermore, filtration experiments revealed that phosphorylation of a biotinyl poly-Glu,Ala, Tyr peptide substrate was less than autophosphorylation of the Lck enzyme; this was due to the low K(m) value for biotinyl poly-Glu,Ala,Tyr. In the HTRF assay, small amounts of enzyme and high concentrations of ATP could be used, thereby minimizing the effects of autophosphorylation. Higher ATP concentration would also minimize the effect of ATP competitors. Using this technology, it may be possible to find novel kinase inhibitors that do not act at the ATP binding site of protein tyrosine kinases.

The cdc30 mutation in Saccharomyces cerevisiae affects phosphoglucose isomerase, the cell cycle and sporulation.

Spontaneous revertants of the cdc30 mutation in Saccharomyces cerevisiae simultaneously regained the ability to grow and divide at 36.5 degrees C on glucose-containing media along with a more thermostable phosphoglucose isomerase (PGI). An independently isolated allele of cdc30 gave a similar phenotype to that previously described including temperature-sensitivity of PGI. Isoelectric focussing allowed the separation of two isoenzymes of PGI. These results all support the idea that two genes--PGI1 and CDC30--are responsible for PGI activity in yeast. Diploid strains homozygous for the cdc30 mutation sporulated poorly in potassium acetate irrespective of whether the cells had previously been cultured at a temperature that was permissive or restrictive for cell cycle progression. This was not surprising because a strain defective in PGI would not be expected to be able to complete the gluconeogenic events of sporulation.