2350. LiaF is required for LiaX mediated protection against Daptomycin and LL-37 in Enterococcus faecalis OG1RF

Abstract

Abstract Background Daptomycin (DAP) resistance in enterococci is regulated by the LiaFSR three-component regulatory system. Mutations in liaF have been linked to activation of this system, with increased expression of the protein LiaX, and resistance to DAP in clinical isolates. LiaX functions by recognizing DAP in the extracellular medium, and serves as a signal transduction molecule. However, the role of LiaF in signaling and its relationship with LiaX are unknown. Methods We generated a liaF null mutant in E. faecalis OG117 by adding four stop codons at amino acid positions 11–14 (OG117liaF*11-14) using a CRISPR-Cas9 system. The mutant was complemented by restoring wild-type liaF in its chromosomal location (OG117liaF*11-14::liaF). Mutants were confirmed with whole genome sequencing (WGS). Anionic phospholipid (AP) microdomain distribution was assessed on microscopy using 10-N-nonyl-acridine-orange (NAO). LiaFSR activation was assessed by surface expression of LiaX via ELISA. DAP MICs were performed by broth microdilution in the presence/absence of exogenous LiaX (eLiaX). LL37 (50µg/ml) and DAP (1.5µg/ml) killing assays with eLiaX were also performed in triplicate. Results Truncation of liaF did not have any effect on DAP MICs, AP microdomain distribution or LiaX surface expression compared to OG117. No additional mutations were observed by WGS in the mutants. In the presence eLiaX, DAP MIC increased 8-fold in wild-type OG117 but remained the same (1 µg/mL) in OG117liaF*11-14. Complementation of liaF restored the increase in DAP MIC in the presence of eLiaX. In the LL37 killing assay, survival of OG117 was significantly increased on the addition of eLiaX (2.9% vs 11.8%, respectively, P < .002). Addition of eLiaX was unable to rescue OG117liaF*11-14 in the presence of LL-37 (2.4% vs 2.5% respectively, P=0.51), but was able to increase survival in the complemented strain (2.8% vs 7.6%, respectively, P < .002). A similar trend was seen in the DAP killing assay, with increased survival for OG117 (8.7% vs 20%) and OG117liaF*11-14::liaF (11.6% vs 17%), but not OG117liaF*11-14 (0.38% vs 1%). Conclusion LiaF is required for full tolerance to the cathelicidin LL37 and DAP in E. faecalis OG1RF. These results suggest that LiaF may interact with LiaX as a part of the LiaFSR stress response. Disclosures William R. Miller, MD, Entasis: Grant/Research Support|UpToDate: Honoraria Cesar A. Arias, MD, PhD, Entasis: Grant/Research Support|MeMed Diagnostics Ltd: Grant/Research Support|Merck: Grant/Research Support.