Phylogenomic analysis of the collagen-like BclA proteins in Clostridioides difficile

Clostridioides difficile is a Gram-positive, anaerobic, spore-forming bacterium and a major nosocomial pathogen, notable for its high genetic diversity. C. difficile has been classified into five classical phylogenetic clades (C1 to C5) and five cryptic clades (C-I to C-V), reflecting its extensive genome plasticity. In addition, C. difficile spores are considered essential for the onset, persistence and transmission of the disease, and their exosporium layer has hair-like projections formed by the BclA-family of proteins (BclA1, BclA2 and BclA3). Previous work in C1 and C2 strains has demonstrated that the absence of these proteins affects spore germination, pathogenesis, persistence, and recurrence of CDI. Nevertheless, the conservation of BclAs across different C. difficile clades remains unclear. In this work, genomics analysis in more than 25,000 C. difficile genomes revealed that the prevalence and variability of the BclAs was not conserved across classical and cryptic clades. The most represented clade on the dataset was C1, where roughly 50% of the genomes possessed all three bclA genes. Pseudogenization of bclA1 or all bclAs was observed in C2 and C3, respectively. Additionally, the absence of bclA1 in C4 and of both bclA1 & bclA3 in C5, further demonstrates the divergence of BclAs among C. difficile clades. Subsequent analysis revealed high variability in the central collagen-like region (CLR) of all three BclAs, and a highly conserved bclA1 pseudogenization event in most members of C2. Overall, the extensive variability of bclA , attributed to the CLR, prevalence of a bclA1 pseudogenization and complete absence of bclAs in certain clades, is likely to impact spore morphogenesis and pathogenesis across different C. difficile clades.