Specialized pathogenic cells release Tc toxins using a type 10 secretion system

Abstract Disease-causing bacteria use a variety of secreted toxins to invade and subjugate their hosts. While the machinery responsible for secretion of many smaller toxins has already been established, it remains enigmatic for larger ones such as Tc toxins from human and insect pathogens, which approach the size of a prokaryotic ribosome. In the present study, we combine targeted genomic editing, proteomic profiling and cryo-electron tomography of the insect pathogen Yersinia entomophaga to reveal that a specialized subset of bacterial cells produces the Tc toxin YenTc as part of a complex toxin cocktail released into the environment by controlled cell lysis using a transcriptionally-coupled, pH-dependent type 10 secretion system (T10SS). Our results dissect the process of Tc toxin export by a T10SS in hitherto unprecedented detail, identifying that T10SSs operate via a previously unknown lytic mode of action, and establishing them as crucial players in the size-insensitive release of cytoplasmically folded toxins. With T10SSs directly embedded in Tc toxin operons of major human pathogens such as Yersinia pestis and Salmonella enterica , we anticipate our findings to model an important aspect of pathogenesis in bacteria with a significant impact on global human health.