Expression of high-affinity glucose transport protein Hxt2p of Saccharomyces cerevisiae is both repressed and induced by glucose and appears to be regulated posttranslationally.

Expression of putative high-affinity glucose transport protein Hxt2p of Saccharomyces cerevisiae was repressed 15- to 20-fold in high concentrations of glucose or fructose. S. cerevisiae with either the ssn6-delta 9 or the hxk2-delta 1::URA3 mutation, each of which relieves glucose repression, exhibited high Hxt2p expression in both 2.0% glucose (normally repressing) and 0.05% glucose (normally derepressing) while S. cerevisiae with the snf1-delta 10 mutation, which causes constitutive repression, did not detectably express Hxt2p in either glucose concentration. In addition to repressing at high concentrations, glucose or fructose is required for induction of Hxt2p expression. Hxt2p was not expressed by wild-type S. cerevisiae in media containing only ethanol or galactose as carbon and energy source but was expressed if glucose was added. An hxk2-delta 1::URA3 mutant did not detectably express Hxt2p in ethanol or galactose, but an ssn6-delta9 mutant did highly express Hxt2p in both carbon sources. Thus, simple relief of glucose repression as occurs with hxk2 null mutants is insufficient for high-level Hxt2p expression. Mutation of ssn6, a general transcriptional repressor, does lead to Hxt2p expression in the absence of glucose induction, suggesting relief of an additional negative regulatory system. High expression of Hxt2p does not always result in HXT2-dependent high-affinity transport, implying that Hxt2p activity is regulated posttranslationally. In the high glucose condition for the ssn6 mutant, high-affinity glucose transport is derepressed. Deletion of the HXT2 locus does not diminish this level of transport. However, high-affinity glucose transport is diminished in the ssn6-delta9 hxt2 delta1 double mutant compared with ssn6-delta9 alone in low glucose. Thus, while constitutively expressed in ssn6 mutants, Hxt2p only appears to be active as a transporter under low-glucose conditions. Similarly, Hxt2p was found to be expressed under low-glucose conditions in an snf3 mutant which does not display high-affinity uptake. This finding suggests that SNF3 may be involved in the posttranslational regulation of Hxt2p.