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ZupT Facilitates Clostridioides difficile Resistance to Host-Mediated Nutritional Immunity

Joseph P. Zackular, Reece J. Knippel, Christopher A. Lopez, William N. Beavers, C. Noel Maxwell, Walter Chazin, Eric P. Skaar

2020mSphere35 citationsDOIOpen Access PDF

Abstract

During infection, pathogenic organisms must acquire essential transition metals from the host environment. Through the process of nutritional immunity, the host employs numerous strategies to restrict these key nutrients from invading pathogens. In this study, we describe a mechanism by which the important human pathogen Clostridioides difficile resists transition-metal limitation by the host. We report that C. difficile utilizes a zinc transporter, ZupT, to compete with the host protein calprotectin for nutrient zinc. Inactivation of this transporter in C. difficile renders this important pathogen sensitive to host-mediated metal restriction and confers a fitness disadvantage during infection. Our study demonstrates that targeting nutrient metal transport proteins in C. difficile is a potential avenue for therapeutic development.

Topics & Concepts

CalprotectinBiologyMicrobiologyImmunityImmune systemClostridium difficileInnate immune systemImmunologyDiseaseMedicineInflammatory bowel diseaseAntibioticsInternal medicineClostridium difficile and Clostridium perfringens researchMicroscopic ColitisViral gastroenteritis research and epidemiology
ZupT Facilitates Clostridioides difficile Resistance to Host-Mediated Nutritional Immunity | Litcius