Beta-Lactamases
An In-Depth Look at the GES Family of Enzymes
Dr. Clyde Smith Jared MunozKwame Wiafe
Role and Identity
• Enzymes • Role in antibiotic breakdown
o Carbapenemso Penicillinso Cephamycins
• Gram negative and Gram positive bacteria
The GES Family
• GES-1 through GES-15o GES-2 through GES-15 are all point mutants of GES-1
• GES-2 and GES-5 are single AA mutations at residue 170.o GES-2 is Gly170 to Asn170o GES-5 is Gly170 to Ser170
• Famous point group mutations
o Sickle Cell Anemia Glu-6 to Val-6
o Tay-Sachs Diseaseo Cystic Fibrosis
How do they work?• Bind and break down beta-lactam rings
o Indirectly destroys bacterial cell wall• Deacylation renders drug inactive
Reasonable threat...• Antibiotics are our first line of defense against bacterial
diseases.o B-lactamases are shortening the list of effective
antibiotics• Another issue:
o genetic information that codes for B-lactamases can be transferred amongst bacteria
Beta-lactam ring
General core structure of penicillins
General core structure of cephalosporins
Carbapenems1. Imipenem
2. Ertapenem
3. Meropenem
Binding to Penicilling Binding Protein
Penicillin binding Protein is also known as Cell Wall Transamidase.
Covalent bond between PBP and beta-lactam ring on antibiotic would render the protein uselss.
Beta-lactamases take care of this by breaknig the Beta-lactam ring. This action prevents binding of antibiotic to PBP.
ComparisonGES-2 GES-1
Asparagine at position 166 in GES-2. Glycine in GES-1 at position 166
ComparisonGES-5 GES-1
Serine at position 166. Shown here are two conformations of Serine
Glycine in GES-1 at position 166.
Technique
• X-ray Crystallographyo X-rays diffract
Bragg's Law nλ = 2d sinΘ
o Creates diffraction pattern Governed by components of crystal Resulting Intensities
o Construction of electron density maps
The Phase Problem
• Loss of information concerning a phase• Methods
o MADo SADo Molecular replacemento Multiple isomorphous replacemento Patterson function
• Molecular replacement- o First a similar model is needed o Since the structure of GES-1 is known, GES-2 and GES-
5 crystal structures were solved using GES-1.
Modeling/Refinement
• Modeling program, Coot, was used to examine crystal structures of GES-1, GES-2 and GES-5
• Refinment program allows refinement based on generated density maps
• Protein model is loaded • Phenix Refinement
o Detailedo Generates a new map based on current structure
Active Site with Ertapenem
GES-2 with Ertapenem
Active Site with Ertapenem 2
GES-5 and Ertapenem
Conclusion
• GES-2 and GES-5 have increased binding and activity for carbapenemso Caused by single point mutations
• Refinement shows lower occupancy of drugs in binding siteso Confirms the drug is being deacylated or released from
active site• Research is essential to creating new antibiotics
o Carbapenems are usually a last resorto More and more resistant bacteria
Sources1. Structure of GES-1 at atomic resolution: insights into the evolution of carbapenemase activity in the class A extended-spectrum B-lactamases. Smith, Clyde A., Caccamo, Marissa, Kantardjieff, Katherine A. et al. Acta Cryst. (2007). D63, 982-9922. Source of Images for Imipenem, Meropenem, Ertapenem and General Strucutre of Beta-lactams: http://en.wikipedia.org/wiki/File:Imipenem.svg http://en.wikipedia.org/wiki/File:Ertapenem.svg http://en.wikipedia.org/wiki/File:Meropenem.svg http://en.wikipedia.org/wiki/File:Beta-lactam_antibiotics_example_1.svg http://commons.wikimedia.org/wiki/File:Penicillin_inhibition.svg
3. The PyMOL Molecular Graphics System, Version 1.2r3pre, Schrödinger, LLC.
4. "Coot: model-building tools for molecular graphics" Emsley P, Cowtan K Acta Crystallographica Section D-Biological Crystallography 60: 2126-2132 Part 12 Sp. Iss. 1 DEC 2004
5. General Reference: http://www.acsmedchem.org/module/betalactam.html
Questions?
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