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1.
Bioorg Med Chem Lett ; 24(3): 780-5, 2014 Feb 01.
Article in English | MEDLINE | ID: mdl-24433862

ABSTRACT

ß-Lactamase inhibitors with a bicyclic urea core and a variety of heterocyclic side chains were prepared and evaluated as potential partners for combination with imipenem to overcome class A and C ß-lactamase mediated antibiotic resistance. The piperidine analog 3 (MK-7655) inhibited both class A and C ß-lactamases in vitro. It effectively restored imipenem's activity against imipenem-resistant Pseudomonas and Klebsiella strains at clinically achievable concentrations. A combination of MK-7655 and Primaxin® is currently in phase II clinical trials for the treatment of Gram-negative bacterial infections.


Subject(s)
Azabicyclo Compounds/chemistry , Azabicyclo Compounds/pharmacology , Cilastatin/chemistry , Drug Discovery , Enzyme Inhibitors/chemistry , Imipenem/chemistry , beta-Lactamase Inhibitors , Cilastatin/pharmacology , Cilastatin, Imipenem Drug Combination , Crystallography, X-Ray , Drug Combinations , Drug Resistance, Bacterial/drug effects , Imipenem/pharmacology , Inhibitory Concentration 50 , Klebsiella/drug effects , Microbial Sensitivity Tests , Models, Biological , Pseudomonas/drug effects , Structure-Activity Relationship
2.
Bioorg Med Chem Lett ; 21(14): 4267-70, 2011 Jul 15.
Article in English | MEDLINE | ID: mdl-21676616

ABSTRACT

The bridged monobactam ß-lactamase inhibitor MK-8712 (1) effectively inhibits class C ß-lactamases. Side chain N-alkylated and ring-opened analogs of 1 were prepared and evaluated for combination with imipenem to overcome class C ß-lactamase mediated resistance. Although some analogs were more potent inhibitors of AmpC, none exhibited better synergy with imipenem than 1.


Subject(s)
Anti-Bacterial Agents/chemistry , Enzyme Inhibitors/chemistry , Monobactams/chemical synthesis , beta-Lactamase Inhibitors , Anti-Bacterial Agents/chemical synthesis , Anti-Bacterial Agents/pharmacology , Binding Sites , Computer Simulation , Enzyme Inhibitors/chemical synthesis , Enzyme Inhibitors/pharmacology , Imipenem/pharmacology , Microbial Sensitivity Tests , Monobactams/pharmacology , Protein Structure, Tertiary , Structure-Activity Relationship , beta-Lactamases/metabolism
3.
J Lipid Res ; 49(6): 1333-43, 2008 Jun.
Article in English | MEDLINE | ID: mdl-18354137

ABSTRACT

Mutations within proprotein convertase subtilisin/kexin type 9 (PCSK9) are associated with dominant forms of familial hypercholesterolemia. PCSK9 binds the LDL receptor (LDLR), and addition of PCSK9 to cells promotes degradation of LDLR. PCSK9 mutant proteins associated with hypercholesterolemia (S127R and D374Y) are more potent in decreasing LDL uptake than is wild-type PCSK9. To better understand the mechanism by which mutations at the Ser127 and Asp374 residues of PCSK9 influence PCSK9 function, a limited vertical scanning mutagenesis was performed at both sites. S127R and S127K proteins were more potent in decreasing LDL uptake than was wild-type PCSK9, and each D374 mutant tested was more potent in reducing LDL uptake when the proteins were added exogenously to cells. The potencies of D374 mutants in lowering LDL uptake correlated with their ability to interact with LDLR in vitro. Combining S127R and D374Y was also found to have an additive effect in enhancing PCSK9's ability to reduce LDL uptake. Modeling of PCSK9 S127 and D374 mutations indicates that mutations that enhance PCSK9 function stabilize or destabilize the protein, respectively. In conclusion, these results suggest a model in which mutations at Ser127 and Asp374 residues modulate PCSK9's ability to regulate LDLR function through distinct mechanisms.


Subject(s)
Hypercholesterolemia/physiopathology , Serine Endopeptidases/physiology , Aspartic Acid/metabolism , Base Sequence , Cell Line , DNA Primers , Humans , Lipoproteins, LDL/metabolism , Mutagenesis , Proprotein Convertase 9 , Proprotein Convertases , Receptors, LDL/physiology , Serine/metabolism , Serine Endopeptidases/chemistry , Serine Endopeptidases/genetics , Serine Endopeptidases/metabolism
4.
J Biol Chem ; 282(28): 20502-12, 2007 Jul 13.
Article in English | MEDLINE | ID: mdl-17493938

ABSTRACT

Mutations within PCSK9 (proprotein convertase subtilisin/kexin type 9) are associated with dominant forms of familial hyper- and hypocholesterolemia. Although PCSK9 controls low density lipoprotein (LDL) receptor (LDLR) levels post-transcriptionally, several questions concerning its mode of action remain unanswered. We show that purified PCSK9 protein added to the medium of human endothelial kidney 293, HepG2, and Chinese hamster ovary cell lines decreases cellular LDL uptake in a dose-dependent manner. Using this cell-based assay of PCSK9 activity, we found that the relative potencies of several PCSK9 missense mutants (S127R and D374Y, associated with hypercholesterolemia, and R46L, associated with hypocholesterolemia) correlate with LDL cholesterol levels in humans carrying such mutations. Notably, we found that in vitro wild-type PCSK9 binds LDLR with an approximately 150-fold higher affinity at an acidic endosomal pH (K(D) = 4.19 nm) compared with a neutral pH (K(D) = 628 nm). We also demonstrate that wild-type PCSK9 and mutants S127R and R46L are internalized by cells to similar levels, whereas D374Y is more efficiently internalized, consistent with their affinities for LDLR at neutral pH. Finally, we show that LDL diminishes PCSK9 binding to LDLR in vitro and partially inhibits the effects of secreted PCSK9 on LDLR degradation in cell culture. Together, the results of our biochemical and cell-based experiments suggest a model in which secreted PCSK9 binds to LDLR and directs the trafficking of LDLR to the lysosomes for degradation.


Subject(s)
Lipoproteins, LDL/metabolism , Lysosomes/metabolism , Models, Biological , Receptors, LDL/metabolism , Serine Endopeptidases/metabolism , Animals , CHO Cells , Cell Line , Cricetinae , Cricetulus , Genes, Dominant , Genetic Diseases, Inborn/genetics , Genetic Diseases, Inborn/metabolism , Humans , Hypercholesterolemia/genetics , Hypercholesterolemia/metabolism , Lysosomes/genetics , Mutation, Missense , Proprotein Convertase 9 , Proprotein Convertases , Protein Binding/genetics , Receptors, LDL/agonists , Serine Endopeptidases/pharmacology
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