Evaluation of the dipeptide and oligopeptide permeases of Candida albicans as uptake routes for synthetic anticandidal agents.

In order to obtain information essential for the design of synthetic anticandidal drugs that can exploit peptide permeases to gain access to intracellular targets, the substrate specificities of the dipeptide permease (Dpp) and oligopeptide permease (Opp) of Candida albicans have been studied. The permeases show strict stereospecificity, a preference for large, hydrophobic and N-terminal Ala residues, and marked discrimination against basic and acidic side chain residues. Comparison of results from several transport assays indicated that measuring loss of peptide substrate from the medium using fluorescence labelling procedures gave reliable transport rates and kinetic parameters, whereas in contrast, measuring accumulation of radioactivity from labelled substrates gave erroneous results arising from substrate metabolism and exodus.

Peptide substrates rapidly modulate expression of dipeptide and oligopeptide permeases in Candida albicans.

Previous studies showed that peptide transport activity in Candida albicans was completely repressed by NH4+, and that growth on amino acids as sole nitrogen source stimulated transport to a basal level. Here we show that addition of peptide mixtures to culture media gives a further 5-fold increase in transport of dipeptides and oligopeptides; the effect is specific for peptide transport, amino acid uptake being unaffected. Presence of peptides but not amino acids overrides NH4+ repression of peptide transport.