Multi-drug resistant Gram negative bacteria (MDR-GNB) present a significant threat to successful antimicrobial chemotherapy. Among MDR-GNB, extended spectrum beta-lactamase (ESBL) producing Klebsiella pneumoniae resistant to ceftazidime are associated with increased mortality. The atomic structure determination of the SHV-2 beta-lactamase, the first ESBL described, revealed the active site of the enzyme is widened to accommodate the side chain of ceftazidime. Despite this insight, our understanding is still incomplete. The broad, long-term objectives of this proposal are: 1) To determine the atomic structures of boronic acid transition-state analogue inhibitors that have the R1 side chains of ceftazidime and cefotaxime in the SHV-1, -2 and -5 beta-lactamases. This will elucidate the critical interactions that define the ability of ESBLs to hydrolyze advanced generation cephalosporins. 2) Using strains of E. coli deficient in the principal DNA mismatch repair protein, mutS, select blaSHV mutants that stabilize and enhance expression of SHV beta-lactamase. 3) To determine if mutator phenotypes exist in K. pneumoniae; assess the relationship between ESBL enzymes, mutator phenotypes, and mutS expression. 4) To develop a model for ESBL evolution using blaSHV in a mutS deficient strain of E. coli. Accomplishing these goals will achieve an unprecedented understanding of the protein and substrate interactions and genetic properties responsible for the ESBL phenotype. This work will also serve as a paradigm for the prediction of novel ESBL phenotypes in SHV enzymes, form a basis for the evaluation of novel beta-lactams, and show how enzyme drug targets influence substrate affinity and catalysis.

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI063517-02
Application #
7018438
Study Section
Special Emphasis Panel (ZRG1-IDM-N (90))
Program Officer
Peters, Kent
Project Start
2005-02-15
Project End
2010-01-31
Budget Start
2006-02-01
Budget End
2007-01-31
Support Year
2
Fiscal Year
2006
Total Cost
$283,430
Indirect Cost
Name
Case Western Reserve University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106
Nukaga, Michiyoshi; Papp-Wallace, Krisztina M; Hoshino, Tyuji et al. (2018) Probing the Mechanism of Inactivation of the FOX-4 Cephamycinase by Avibactam. Antimicrob Agents Chemother 62:
Kanwar, Anubhav; Marshall, Steven H; Perez, Federico et al. (2018) Emergence of Resistance to Colistin During the Treatment of Bloodstream Infection Caused by Klebsiella pneumoniae Carbapenemase-Producing Klebsiella pneumoniae. Open Forum Infect Dis 5:ofy054
Ghiglione, Barbara; Rodríguez, María Margarita; Curto, Lucrecia et al. (2018) Defining Substrate Specificity in the CTX-M Family: the Role of Asp240 in Ceftazidime Hydrolysis. Antimicrob Agents Chemother 62:
Papp-Wallace, Krisztina M; Barnes, Melissa D; Alsop, Jim et al. (2018) Relebactam Is a Potent Inhibitor of the KPC-2 ?-Lactamase and Restores Imipenem Susceptibility in KPC-Producing Enterobacteriaceae. Antimicrob Agents Chemother 62:
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VanPelt, Jamie; Shurina, Ben A; Ramelot, Theresa A et al. (2018) 1H, 13C, and 15N backbone resonance assignments for KPC-2, a class A serine-?-lactamase. Biomol NMR Assign :
Papp-Wallace, Krisztina M; Nguyen, Nhu Q; Jacobs, Michael R et al. (2018) Strategic Approaches to Overcome Resistance against Gram-Negative Pathogens Using ?-Lactamase Inhibitors and ?-Lactam Enhancers: Activity of Three Novel Diazabicyclooctanes WCK 5153, Zidebactam (WCK 5107), and WCK 4234. J Med Chem 61:4067-4086
Ju, Lin-Cheng; Cheng, Zishuo; Fast, Walter et al. (2018) The Continuing Challenge of Metallo-?-Lactamase Inhibition: Mechanism Matters. Trends Pharmacol Sci 39:635-647
Bergstrom, Alexander; Katko, Andrew; Adkins, Zach et al. (2018) Probing the Interaction of Aspergillomarasmine A with Metallo-?-lactamases NDM-1, VIM-2, and IMP-7. ACS Infect Dis 4:135-145

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