TY - JOUR T1 - The C-terminal domain of <em>Clostridioides difficile</em> TcdC is exposed on the bacterial cell surface JF - bioRxiv DO - 10.1101/872283 SP - 872283 AU - Ana M. Oliveira Paiva AU - Leen de Jong AU - Annemieke H. Friggen AU - Wiep Klaas Smits AU - Jeroen Corver Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/12/11/872283.abstract N2 - Clostridioides difficile is an anaerobic gram-positive bacterium that can can produce the large clostridial toxins, Toxin A and Toxin B, encoded within the pathogenicity locus (PaLoc). The PaLoc also encodes the sigma factor TcdR, that positively regulates toxin gene expression, and TcdC, a putative negative regulator of toxin expression. TcdC is proposed to be an anti-sigma factor, however, several studies failed to show an association between tcdC genotype and toxin production. Consequently, TcdC function is not yet fully understood. Previous studies have characterized TcdC as a membrane-associated protein with the ability to bind G-quadruplex structures. The binding to the DNA secondary structures is mediated through the OB-fold domain present at the C-terminus of the protein. This domain was previously also proposed to be responsible for the inhibitory effect on toxin gene expression, implicating a cytoplasmic localization of the C-terminal OB-fold.In this study we aimed to obtain topological information on the C-terminus of TcdC. Using Scanning Cysteine Accessibility Mutagenesis and a HiBiT-based system, we demonstrate that the C-terminus of TcdC is located extracellularly. The extracellular location of TcdC is not compatible with direct binding of the OB-fold domain to intracellular nucleic acid or protein targets, and suggests a mechanism of action that is different from characterized anti-sigma factors.Importance Transcription of the C. difficile large clostrididial toxins (TcdA and TcdB) is directed by the sigma factor TcdR. TcdC has been implicated as a negative regulator, possible acting as an anti-sigma factor.Activity of TcdC has been mapped to its C-terminal OB fold domain. TcdC is anchored in the bacterial membrane, through its hydrophobic N-terminus and acting as an anti-sigma factor would require cytoplasmic localization of the C-terminal domain.Remarkably, topology predictions for TcdC suggest the N-terminus to be membrane localized and the C-terminal domain to be located extracellularly. Using independent assays, we show that the C-terminus of TcdC indeed is located in the extracellular environment, which is incompatible with its proposed role as anti-sigma factor in toxin regulation. ER -