Abstract

BackgroundCefazolin (Cz) is commonly used to treat methicillin-sensitive Staphylococcus aureus (MSSA) bacteremia. Yet, some MSSA isolates producing the staphylococcal β-lactamase (BlaZ) exhibit the Cz inoculum effect (CzIE), defined as an increase in the minimum inhibitory concentration (MIC) to ≥ 16 µg/mL at high inoculum (107 CFU/mL, HI-MIC). Retrospective clinical data linked the CzIE to increased 30-day mortality and Cz treatment failure in patients with MSSA bacteremia, yet the mechanistic bases of this phenomenon are unknown. We aimed to explore the contribution of blaZ regulation, via BlaR (antibiotic sensor) and BlaI (transcriptional repressor) (Fig 1) to the CzIE by i) in trans expression assays and ii) analysis of their sequences in a set of isolatesFigure 1. Structure of the Staphylococcal bla OperonMethodsThe blaZ genes (with putative promoters) of strains exhibiting and lacking the CzIE (TX0117 and ATCC29213, respectively) were expressed in trans in RN4220 (blaZ neg) using the promotor-less vector pWM401 (Figure 2). We subsequently cloned the blaR and blaI genes of each TX0117 and ATCC29213 upstream of each blaZ allele (Figure 3). The presence of the CzIE was assessed in transformants using broth microdilution at standard (105 CFU/mL, SI-MIC) and high inoculum. We also performed whole-genome sequencing (WGS) in 104 MSSA isolates exhibiting and lacking the CzIE to compare the sequences of BlaZ, BlaR, and BlaI and classified them by allotypes (unique amino acid sequences) using ATCC29213 as reference. Figure 2. In trans expression of blaZ genes from a CzIE+ strain (TX0117) and a CzIE- strain (ATCC29213) in RN4220 Figure 3. In trans expression of the bla Operons from a CzIE+ strain (TX0117) and a CzIE- strain (ATCC29213) in RN4220ResultsExpression of blaZTX0117 and blaZATCC29213 with their native promoters in RN4220 resulted in the CzIE with Cz HI-MICs ≥ 64 µg/mL regardless of the origin of the allele (Table 1). Inclusion of the regulatory elements blaR and blaI from TX0117 (CzIE+) did not change the phenotype. In contrast, addition of blaR and blaI from ATCC29213 (CzIE-) led to a marked decrease in the Cz HI-MIC (Table 1). Sequence analyses of 104 MSSA isolates revealed 10, 17 and 6 BlaZ, BlaR and BlaI allotypes, respectively (Table 2). BlaZ-2 and BlaR-4 were linked to the CzIE in 90% of isolates. Table 1. MIC values of transformans after In trans expression of blaZ genes and bla Operons from a S. aureus CzIE+ strain(TX0117) and a CzIE- strain (ATCC29213) in RN4220 Table 2. BlaZ allotypes of 104 Staphylococcus aureus isolates and their association with the CzIEConclusionOur results suggest that overexpression of blaZ can lead to the CzIE in any MSSA strain. Thus, the regulation of blaZ expression via BlaR and BlaI seem to play a major role in the CzIE. Identification of specific BlaR and BlaI allotypes could predict the presence of the CzIE. Disclosures Cesar A. Arias, M.D., MSc, Ph.D., FIDSA, Entasis Therapeutics (Scientific Research Study Investigator)MeMed (Scientific Research Study Investigator)Merck (Grant/Research Support)

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