A Phase 1, Randomized, Double-Blind, Placebo-Controlled, Dose-Escalation Study to Evaluate the Safety, Tolerability, and Pharmacokinetics of Intravenous Ertapenem in Combination With Zidebactam (WCK 6777) In Healthy Adult Subjects

This is a Phase 1, single center study to investigate the safety, tolerability, and pharmacokinetics (PK) of three dose-level groups of WCK 6777 (ERT and ZID combination), and two dose-level groups of ERT alone and ZID (WCK 5107) alone in 52 healthy adult male and female subjects aged 18 to 45 years old (both inclusive). Seven treatment cohorts will be evaluated in this study. WCK 6777 will be evaluated in three cohorts - Cohorts 1, 4 and 7- of 8 subjects each (6 study drug combinations and 2 placebos); ERT will be evaluated alone in two cohorts - Cohorts 2 and 5- of 8 subject each (6 ERT and 2 placebos); and ZID will be evaluated in two cohorts, Cohorts 3 and 6, of 6 subjects each (all ZID). The study will be placebo-controlled and double-blinded in all cohorts except Cohorts 3 and 6. No placebo subjects are included in standalone ZID cohorts, since adequate safety data for higher doses of ZID alone in comparison with placebo are available from completed Phase 1 studies of WCK 5107 (ZID) alone and the ZID-only arms of WCK 5222 (cefepime + ZID) studies. The primary objective is to assess the safety and tolerability of three dose-escalating regimens of WCK 6777 ( ERT and ZID combination) and two-dose escalating regimens of standalone ERT or ZID following single daily doses for 7 days in healthy adult subjects.

开始日期2023-04-19

申办/合作机构

National Institute of Allergy & Infectious Diseases

100 项与 β-lactamase x 青霉素结合蛋白2 相关的临床结果

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100 项与 β-lactamase x 青霉素结合蛋白2 相关的转化医学

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0 项与 β-lactamase x 青霉素结合蛋白2 相关的专利（医药）

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项与 β-lactamase x 青霉素结合蛋白2 相关的文献（医药）

2025-06-01·Journal of Infection and Public Health

Genomic approach to evaluate the intrinsic antibacterial activity of novel diazabicyclooctanes (zidebactam and nacubactam) against clinical Escherichia coli isolates from diverse clonal lineages in the United Arab Emirates

Article

作者: Alshamsi, Maitha ; Alzaabi, Abdulrahman ; Al-Marzooq, Farah ; Oommen, Seema ; Almansoori, Hamad ; Alsaadi, Abdullah ; Aleissaee, Omar ; Aldhaheri, Rauda ; Collyns, Timothy ; Daoud, Lana ; Ahmad, Amna ; Ahli, Hafsa ; Ghazawi, Akela

BACKGROUNDThe spiking rise in the prevalence of multidrug-resistant (MDR) pathogens necessitates discovering new antimicrobial agents. This study aims to investigate the intrinsic activity of two novel diazabicyclooctane (DBO) β-lactamase inhibitors, zidebactam and nacubactam, against diverse MDR Escherichia coli isolates from the United Arab Emirates. We aimed to correlate their antibacterial efficacy with the genomic characteristics of the strains.METHODSThis study investigated 73 E. coli strains and tested them for susceptibility to different antibiotics, including DBOs. PCR screening for carbapenemase and major β-lactamase genes was done. The strains were then grouped according to phenotypic and genotypic profiles. Whole-genome sequencing was employed to characterize the genetic landscape and clonality of selected 32 strains. Additionally, time-kill studies were conducted to confirm the bactericidal activity of DBOs.RESULTSZidebactam demonstrated superior efficacy compared to nacubactam, primarily due to its higher affinity for penicillin-binding protein 2 (PBP2). Notably, zidebactam alone exhibited the most potent in vitro activity, outperforming both traditional β-lactams and novel antibiotics like cefiderocol. DBOs maintained effectiveness against strains harboring various resistance determinants, including NDM-5, OXA-181, CTX-M-15, SHV-12, CMY, and DHA. Genomic analysis revealed multiple mutations in PBP1-3, with PBP2 mutations correlating with DBO susceptibility variations. Importantly, DBOs remained highly effective against isolates with PBP mutations, even those belonging to high-risk clonal lineages (ST167, ST410, ST131). Time-kill studies confirmed the bactericidal activity of DBOs, with only one strain showing reduced susceptibility (MIC: 4 µg/ml).CONCLUSIONSThis study provides compelling evidence for the potential of DBOs, particularly zidebactam, as novel antibacterial agents. Their unique characteristics and broad-spectrum activity position them as promising candidates for future antibiotic development. While the inclusion of DBO therapies in the antibiotic arsenal could significantly impact MDR pathogen treatment, realizing their full potential requires further research, clinical evaluation, and vigilant monitoring of resistance mechanisms through integrated genomic approaches.

2025-04-02·Journal of Antimicrobial Chemotherapy

Decreased susceptibility to cefepime/zidebactam among carbapenemase-producing Escherichia coli from Stockholm, Sweden with alterations in PBP2

Article

作者: Jonsson, Patrik ; Dunleavy, Chantel ; Tellapragada, Chaitanya ; Giske, Christian G

AbstractObjectivesWe aimed to investigate the in vitro activity and genetic determinants of decreased susceptibility (DS; MIC > 4 mg/L) to cefepime/zidebactam of carbapenemase-producing Escherichia coli.MethodsClinical isolates (N = 150) of carbapenemase-producing E. coli (CP-EC) belonging to seven distinct STs, isolated at a university clinical microbiology laboratory during 2019–2023 in Stockholm, Sweden were included. MICs for cefepime/zidebactam were determined using the broth microdilution method and interpreted using the tentative EUCAST clinical breakpoints (Susceptible; MIC < 4 mg/L; based on cefepime breakpoint). Whole genome sequences of the isolates were analysed with an emphasis on identifying alterations in PBPs 2 and 3.ResultsOf the 150 isolates, 145 (96.6%) isolates had MICs <4 mg/L indicating susceptibility and 5 (3.3%) had MICs >4 mg/L. MICs for zidebactam alone among the five isolates with DS to cefepime/zidebactam were ≥8 mg/L. WGS analysis revealed that these five isolates were NDM-5 producers and belonged to ST405 (n = 1), ST410 (n = 2) and ST648 (n = 2). Presence of four-amino-acid inserts (YRIK/YRIN) in PBP3 was observed in 80/150 (53.3%) isolates, and mutations leading to alterations in PBP2 were observed in 41/150 (27.3%) isolates. Presence of other β-lactamases (CTX-M group) and/or cephalosporinases (blaCMY) did not have an impact on the susceptibility to cefepime/zidebactam. Three of the five isolates with DS had a V522I substitution in PBP2.ConclusionsOur results indicate that DS to cefepime/zidebactam among clinical isolates of E. coli could arise due to targeted mutations in PBP2.

2024-03-01·Microbial Drug Resistance

Affinity of β-Lactam Antibiotics for Neisseria gonorrhoeae Penicillin-Binding Protein 2 Having Wild, Cefixime-Reduced-Susceptible, and Cephalosporin (Ceftriaxone)-Resistant penA Alleles

Article

作者: Yokota, Shin-Ichi ; Ogasawara, Noriko ; Takahashi, Satoshi ; Masumori, Naoya ; Sato, Toyotaka ; Yamamoto, Soh ; Hiyama, Yoshiki

Multidrug-resistant Neisseria gonorrhoeae is a serious concern worldwide. Resistance to β-lactam antibiotics occurs through mutations in penicillin-binding proteins (PBPs), acquisition of β-lactamases, and alteration of antibiotic penetration. Mosaic structures of penA, which encodes PBP2, play a major role in resistance to β-lactams, especially cephalosporins. Ceftriaxone (CRO) is recognized as the only satisfiable antibiotic for the treatment of gonococcal infections; however, CRO-resistant isolates have emerged in the community. Here, we examined the affinity of β-lactam antibiotics for recombinant PBP2 in a competition assay using fluorescence-labeled penicillin. We found no or little difference in the affinities of penicillins and meropenem (MEM) for PBP2 from cefixime (CFM)-reduced-susceptible strain and cephalosporin-resistant strain. However, the affinity of cephalosporins, including CRO, for PBP2 from the cephalosporin-resistant strain was markedly lower than that for PBP2 from the CFM-reduced-susceptible-resistant strain. Notably, piperacillin (PIP) showed almost the same affinity for PBP2 from penicillin-susceptible, CFM-reduced-susceptible, and cephalosporin (including CRO)-resistant strains. Thus, PIP/tazobactam and MEM are candidate antibiotics for the treatment of CRO-resistant/multidrug-resistant N. gonorrhoeae.

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