Sexual Cycle of Cryptococcus neoformans var. grubii and Virulence of Congenic a and α Isolates

Abstract

Cryptococcus neoformans is a human-pathogenic fungus that has evolved into three distinct varieties that infect most prominently the central nervous system. A sexual cycle involving haploid cells of a and α mating types has been reported for two varieties ( C. neoformans var. neoformans , serotype D, and C. neoformans var. gattii , serotypes B and C), yet the vast majority of infections involve a distinct variety ( C. neoformans var. grubii , serotype A) that has been thought to be clonal and restricted to the α mating type. We recently identified the first serotype A isolate of the a mating type which had been thought to be extinct (strain 125.91). Here we report that this unusual strain can mate with a subset of pathogenic serotype A strains to produce a filamentous dikaryon with fused clamp connections, basidia, and viable recombinant basidiospores. One meiotic segregant mated poorly with the serotype A reference strain H99 but robustly with a crg1 mutant that lacks a regulator of G protein signaling and is hyperresponsive to mating pheromone. This meiotic segregant was used to create congenic a and α mating type serotype A strains. Virulence tests with rabbit and murine models of cryptococcal meningitis showed that the serotype A congenic a and α mating type strains had equivalent virulence in animal models, in contrast to previous studies linking the α mating type to increased virulence in congenic serotype D strains. Our studies highlight a role for sexual recombination in the evolution of a human fungal pathogen and provide a robust genetic platform to establish the molecular determinants of virulence.