Abstract
Trichosporon asahii is a pathogenic fungus that causes severe, deep-seated fungal infections in neutropenic patients. Elucidating the infection mechanisms of T. asahii based on genetic studies requires a specific gene-targeting system. Here, we established an efficient gene-targeting system in a highly pathogenic T. asahii strain identified using the silkworm infection model. By comparing the pathogenicity of T. asahii clinical isolates in a silkworm infection model, T. asahii MPU129 was identified as a highly pathogenic strain. Using an Agrobacterium tumefaciens-mediated gene transfer system, we obtained a T. asahii MPU129 mutant lacking the ku70 gene, which encodes the Ku70 protein involved in the non-homologous end-joining repair of DNA double-strand breaks. The ku70 gene-deficient mutant showed higher gene-targeting efficiency than the wild-type strain for constructing a mutant lacking the cnb1 gene, which encodes the beta-subunit of calcineurin. The cnb1 gene-deficient mutant showed reduced pathogenicity against silkworms compared with the parental strain. These results suggest that an efficient gene-targeting system in a highly pathogenic T. asahii strain is a useful tool for elucidating the molecular mechanisms of T. asahii infection.
Highlights
Trichosporon asahii is a pathogenic fungus that causes severe, deep-seated fungal infections in neutropenic patients
The result suggests that the pathogenicity of the MPU129 strain against silkworms is highest among these T. asahii strains
The results suggest that the ku[70] gene-deficient mutant in the T. asahii MPU129 strain was obtained using the Agrobacterium tumefaciens-mediated gene transfer (ATMT) system
Summary
Trichosporon asahii is a pathogenic fungus that causes severe, deep-seated fungal infections in neutropenic patients. We established an efficient gene-targeting system in a highly pathogenic T. asahii strain identified using the silkworm infection model. The cnb[1] gene-deficient mutant showed reduced pathogenicity against silkworms compared with the parental strain These results suggest that an efficient gene-targeting system in a highly pathogenic T. asahii strain is a useful tool for elucidating the molecular mechanisms of T. asahii infection. We established a silkworm infection model for elucidating the mechanisms of T. asahii infection[20] Compared with mammals such as mice, the use of invertebrate silkworms is advantageous because they are less costly to house and easier to rear in large numbers in simple facilities, and Scientific Reports | (2021) 11:18270. A method for generating a gene-deficient strain of T. asahii, has not yet been established
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