Regions of mouse chromosomes 2 and 11 in SJL mice contain critical alleles for resistance to Cryptococcus neoformans

Abstract

Abstract Cryptococcus neoformans (Cn) remains a leading cause of deadly mycosis. While previous studies have elucidated some of the host immune processes, little is known about the fundamental host factors that determine the outcome of Cn infection. Unfortunately, all commonly used inbred mice (including the common C57BL/6) are highly susceptible to virulent Cn strains, whereas humans are resistant to Cn unless immunocompromised. Thus, we sought a murine Cn infection system that more closely models humans. Testing the susceptibility of about 20 inbred strains of mice, we found that the SJL strain is, by far, the most Cn resistant inbred mouse strain in contrast to the closely related FVB strain being completely susceptible. While the early stages of Cn infection seem similar, SJL mice eventually cleared Cn and resolved pulmonary pathology, with little CNS dissemination. In contrast, susceptible mice showed significant and increasing fungal loads in both lungs and brains with associated pathology and death. F1 mice from FVB × SJL crosses were highly resistant to Cn suggesting that the resistant phenotype is dominant. Twenty percent of N2 mice (FVB × SJL F1 mice backcrossed to FVB) survived infection suggesting the involvement of multiple loci. Gene mapping uncovered two areas of genetic linkage to Cn resistance. These areas of interest were in portions of chromosomes 2 and 11. Genomic analysis found several candidate genes which are currently under evaluation. Mapping these cryptococcal resistance gene alleles may illuminate pathways of natural resistance which could be utilized for improved therapeutic options or to identify human populations at risk for cryptococcosis, making SJL mice an important tool for understanding cryptococcosis.