Emanuel Lohrmann

Ca2+ Entry in Isolated Rat Cortical Collecting Duct Is pH- and Voltage-Sensitive

We studied effects of extracellular pH (pH₀), voltage and Ca2+-channel blockers on the basal and swelling-induced increase in intracellular Ca2+ ([Ca2+]i

A Target-Specific Cellular Assay for Screening of Topoisomerase I Inhibitors

We have developed a cellular, target-specific high-throughput assay for the detection of topoisomerase I inhibitors. Topoisomerase I is a nonessential enzyme involved in controlling DNA topology. Topoisomerase I is the target of anticancer drugs such as camptothecin as well as a candidate target for new antifungal drugs. A wild-type Saccharomyces cerevisiae strain and its isogenic topoisomerase I deletion mutant (ΔtopI) were labeled with S65T and wild-type green fluorescent protein (GFP), respectively. We showed that the growth of such a pair of S. cerevisiae strains labeled with this GFP combination can be independently quantified after both strains were mixed. When growth of the mixture of wild-type and ΔtopI strain was monitored in the presence of compounds, only growth of the wild-type strain was inhibited by the topoisomerase I-specific drug camptothecin. In contrast, amphotericin B, a broad-spectrum antifungal drug, inhibited growth of both strains. The two strains were used to screen compound libraries. While 0.9% of all compounds inhibited growth of both strains, only 0.06% inhibited the wild-type but not the ΔtopI strain. Thus, by using a ΔtopI strain as internal control in the same assay mixture, the number of candidate topoisomerase I inhibitors to be retested could be reduced by more than 90%. Further applications of this type of S. cerevisiae-based cellular high-throughput assays will be discussed.