TY - JOUR
T1 - Clostridium difficile clinical isolates exhibit variable susceptibility and proteome alterations upon exposure to mammalian cationic antimicrobial peptides
AU - McQuade, Rebecca
AU - Roxas, Bryan
AU - Viswanathan, V. K.
AU - Vedantam, Gayatri
N1 - Funding Information:
This work was supported by a grant from the US Dept. of Veterans Affairs ( 1I01BX001183-01 ) and the United States Department of Agriculture (CSREES Hatch Program; GV and VKV; Nos. ARZT-570410-A-02-139 and ARZT-570410-A-02-140 respectively). Additionally, work in Dr. VKV's laboratory is supported by a grant from the NIH (VKV; NIAID1R01AI081742). The authors thank Al Agellon at the University of Arizona Imaging Core Facility for SEM support, Anne Stanley at Penn State University for mass spectrometry support, and members of the Viswanathan and Vedantam laboratory for helpful discussions.
PY - 2012/12
Y1 - 2012/12
N2 - Clostridium difficile is a leading cause of hospital-acquired bacterial infections in the United States, and the increased incidence of recurrent C. difficile infections is particularly problematic. The molecular mechanisms of C. difficile colonization, including its ability to evade host innate immune responses, is poorly understood. We hypothesized that epidemic-associated C. difficile clinical isolates would exhibit increased resistance to mammalian, gut-associated, cationic antimicrobial peptides such as the cathelicidin LL-37. Standardized susceptibility tests as well as comparative proteomic analyses revealed that C. difficile strains varied in their responses to LL-37, with epidemic-associated 027 ribotype isolates displaying greater resistance. Further, exposure of C. difficile strains to sub-lethal concentrations of LL-37 resulted in increased resistance to subsequent peptide challenge, suggesting the presence of inducible resistance mechanisms. Correspondingly, LL-37 exposure altered the C. difficile proteome, with marked changes in abundance of cell wall biosynthesis proteins, surface layer proteins, ABC transporters and lysine metabolism pathway components. Taken together, these results suggest that innate immune avoidance mechanisms could facilitate robust colonization by C. difficile.
AB - Clostridium difficile is a leading cause of hospital-acquired bacterial infections in the United States, and the increased incidence of recurrent C. difficile infections is particularly problematic. The molecular mechanisms of C. difficile colonization, including its ability to evade host innate immune responses, is poorly understood. We hypothesized that epidemic-associated C. difficile clinical isolates would exhibit increased resistance to mammalian, gut-associated, cationic antimicrobial peptides such as the cathelicidin LL-37. Standardized susceptibility tests as well as comparative proteomic analyses revealed that C. difficile strains varied in their responses to LL-37, with epidemic-associated 027 ribotype isolates displaying greater resistance. Further, exposure of C. difficile strains to sub-lethal concentrations of LL-37 resulted in increased resistance to subsequent peptide challenge, suggesting the presence of inducible resistance mechanisms. Correspondingly, LL-37 exposure altered the C. difficile proteome, with marked changes in abundance of cell wall biosynthesis proteins, surface layer proteins, ABC transporters and lysine metabolism pathway components. Taken together, these results suggest that innate immune avoidance mechanisms could facilitate robust colonization by C. difficile.
KW - Antimicrobial peptide
KW - Antimicrobial susceptibility
KW - Bacterial colonization
KW - Cathelicidin
KW - Clostridium difficile
KW - Innate immunity
KW - LL-37
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U2 - 10.1016/j.anaerobe.2012.09.004
DO - 10.1016/j.anaerobe.2012.09.004
M3 - Article
C2 - 23017940
AN - SCOPUS:84870312026
SN - 1075-9964
VL - 18
SP - 614
EP - 620
JO - Anaerobe
JF - Anaerobe
IS - 6
ER -