Regulatory Diversity of TUP1 in Cryptococcus neoformans

Cryptococcus neoformans serotype A strains, the major cause of cryptococcosis, are distributed worldwide, while serotype D strains are more concentrated in Central Europe. We have previously shown that deletion of the global regulator TUP1 in serotype D isolates results in a novel peptide-mediated, density-dependent growth phenotype that mimics quorum sensing and is not known to exist in other fungi. Unlike for tup1 Delta strains of serotype D, the density-dependent growth phenotype was found to be absent in tup1 Delta strains of serotype A which had been derived from several different genetic clusters. The serotype A H99 tup1 Delta strain showed less retardation in the growth rate than tup1 Delta strains of serotype D, but the mating efficiency was found to be similar in both serotypes. Deletion of TUP1 in the H99 strain resulted in significantly enhanced capsule production and defective melanin formation and also revealed a unique regulatory role of the TUP1 gene in maintaining iron/copper homeostasis. Differential expression of various genes involved in capsule formation and iron/copper homeostasis was observed between the wild-type and tup1 Delta H99 strains. Furthermore, the H99 tup1 Delta strain displayed pleiotropic effects which included sensitivity to sodium dodecyl sulfate, susceptibility to fluconazole, and attenuated virulence. These results demonstrate that the global regulator TUP1 has pathobiological significance and plays both conserved and distinct roles in serotype A and D strains of C. neoformans.