Genetic Characterization of <em>Microsporum canis</em> Clinical Isolates in the United States

<i>Microsporum canis</i> is the primary agent causing dermatophytosis in cats, and also infects humans, dogs, and other species. Assessment of genetic variation among <i>M. canis</i> isolates in the United States has not been conducted. Further, <i>M. canis</i> mating type and assessment of disease severity associated with genotypic characteristics have not been rigorously evaluated. We therefore isolated <i>M. canis</i> from 191 domestic cats across the US and characterized genotypes by evaluation of ITS sequence, MAT locus, and microsatellite loci analysis. The genes SSU1 and SUB3, which are associated with keratin adhesion and digestion, were sequenced from a subset of isolates to evaluate potential genetic associations with virulence. Analysis of microsatellite makers revealed three <i>M. canis</i> genetic clusters. Both clinic location and disease severity were significant predictors of microsatellite variants. 100% of the <i>M. canis</i> isolates were MAT1-1 mating gene type, indicating that MAT1-2 is very rare or extinct in the US and that asexual reproduction is the dominant form of replication. No genetic variation at SSU1 and SUB3 was observed. These findings pave the way for novel testing modalities for <i>M. canis</i> and provide insights about transmission and ecology of this ubiquitous and relatively uncharacterized agent.