Large clostridial toxins (LCTs) are a family of six homologous disease-causing proteins characterised by their large size (>200 kDa) and conserved multidomain architectures. Using their central translocation and receptor-binding domain (T domain), LCTs bind host cell receptors and translocate their upstream glycosyltransferase and cysteine protease domain across the endosomal membrane and into the cytosol. The recent discovery of hundreds of LCT-like T domains in diverse genomic contexts and domain architectures from bacteria other than clostridia has provided significant new insights into the enigmatic process of LCT translocation, but also has put the definition of what constitutes an LCT into question. In this opinion article, we discuss how these findings have expanded our understanding of LCT translocation and reshaped the scope of the LCT family.
Keywords: evolution; membrane translocation; pathogens; virulence.
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