Substitution of lysine at position 104 or 240 of TEM-1pTZ18R .beta.-lactamase enhances the effect of serine-164 substitution on hydrolysis or affinity for cephalosporins and the monobactam aztreonam

Sowek, Judith A.; Singer, Susan B.; Ohringer, S. L.; Malley, Mary F.; Dougherty, Thomas J.; Gougoutas, Jack Z.; Bush, Karen

doi:10.1021/bi00227a004

Cited by 93 publications

(109 citation statements)

References 38 publications

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“…In general, our results with the mutations Lys-104, Ser-164, and Lys-240 are in accordance with those reported previously (28,30). Sowek et al (30) found a catalytic efficiency for cephaloridine in the Ser-164 mutant that was higher than ours, which can be related to the differences in the studied wild-type bla gene and/or in the enzyme preparation.…”

Section: Discussionsupporting

confidence: 93%

“…Sowek et al (30) found a catalytic efficiency for cephaloridine in the Ser-164 mutant that was higher than ours, which can be related to the differences in the studied wild-type bla gene and/or in the enzyme preparation. These three mutations, particularly Lys-104 and Ser-164, are in fact more frequently found among the more active extended-spectrum ␤-lactamases.…”

Section: Discussioncontrasting

confidence: 77%

“…Nevertheless, some of those mutants were constructed in different plasmids or genetic contexts. Indeed, the bla genes used for some of those constructions were not the original bla TEM-1 genes but derivatives with theoretically ''neutral'' mutations (11,30). The aim of this work was to construct a collection of TEM-1 derivatives in the same genetic context (plasmid, promoter, or strain) and define the change in the enzyme properties (kinetics, amount, and stability) and in the phenotype conferred by each one of these mutants.…”

Section: Discussionmentioning

confidence: 99%

“…These changes at positions 104 and 240 consistently decreased susceptibility to ceftazidime and aztreonam. It has been sugested that enzymes with lysines at positions 104 and 240 could establish electrostatic interactions with the oxime acid group of ceftazidime and aztreonam (30).…”

Section: Discussionmentioning

confidence: 99%

“…For each position, the replacement is with a particular amino acid, the only exception being Arg-164, which can be replaced by either Ser or His. Several authors constructed TEM-1 derivatives containing some of the abovedescribed single mutations by either oligonucleotide-directed mutagenesis (10,30) or subcloning of fragments containing those mutations (28). Biochemical and microbiological studies have been performed with some of these mutants.…”

mentioning

confidence: 99%

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Single amino acid replacements at positions altered in naturally occurring extended-spectrum TEM beta-lactamases

Blázquez

Morosini

Negri

et al. 1995

Antimicrob Agents Chemother

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By directed mutagenesis, we constructed a set of seven TEM-1 derivatives containing single replacements in each one of the amino acids substituted in naturally occurring extended-spectrum TEM ␤-lactamases. The exact contribution of each mutation to the resistance phenotype was determined. In addition, mutant enzyme production and stabilities were studied. Five of seven mutations determined to some extent variations in cephalosporin and/or monobactam activity. Dramatic changes in the hydrolysis of ceftazidime and aztreonam occurred when a serine was at position 164. Changes at positions 104, 238, and 240 showed more leaky variation in activity towards cephalosporins and aztreonam. Replacements at positions 237 and 265 caused no variation in susceptibility to cephalosporins. Interestingly, the change from Gln to Lys at position 39 found in TEM-2, classically considered a neutral change, slightly but consistently increased the MIC of ceftazidime and aztreonam. The in vitro construction of mutations appearing in naturally occurring TEM-␤-lactamases, studied in the same genetic context, may help to understand the evolution of extended-spectrum ␤-lactamases.The production of TEM-type ␤-lactamases is the most prevalent mode of resistance to ␤-lactam antibiotics. TEM-1 ␤-lactamase is considered a broad-spectrum enzyme because it hydrolyzes both penicillins and cephalosporins (4). TEM-1, however, cannot efficiently inactivate new extended-spectrum cephalosporins, such as cefotaxime and ceftazidime, and monobactams, such as aztreonam. Molecular variants of TEM-1, termed extended-spectrum ␤-lactamases, emerged and disseminated probably as a consequence of the introduction of these extended-spectrum ␤-lactam antibiotics.After years of intensive study of molecular variations involved in substrate profile alterations of TEM enzymes, it is now known that clinically resistant variants are the result of amino acid substitutions in one of several well-defined positions or of combinations of two to five of these substitutions (for a review, see reference 11). Figure 1 shows the modified positions in these resistant variants and the amino acids by which they are substituted in naturally occurring TEM-type ␤-lactamases. For each position, the replacement is with a particular amino acid, the only exception being Arg-164, which can be replaced by either Ser or His. Several authors constructed TEM-1 derivatives containing some of the abovedescribed single mutations by either oligonucleotide-directed mutagenesis (10, 30) or subcloning of fragments containing those mutations (28). Biochemical and microbiological studies have been performed with some of these mutants. Nevertheless, none of these publications includes a comparative study of the variations in ␤-lactamase phenotype and stability resulting from all seven single mutations corresponding to the seven positions modified in naturally occurring ␤-lactamases. In addition, the microbiological activities were, in each one of these studies, measured in a different genetic context (prom...

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Section: Discussionsupporting

confidence: 93%

Section: Discussioncontrasting

confidence: 77%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Single amino acid replacements at positions altered in naturally occurring extended-spectrum TEM beta-lactamases

Blázquez

Morosini

Negri

et al. 1995

Antimicrob Agents Chemother

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Water-Assisted Alkaline Hydrolysis of Monobactams: A Theoretical Study

et al. 2002

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Theoretical Study of Ammonolysis of Monobactams: Kinetic Role of theN-Sulfonate Group

Díaz

Suárez

Sordo

2002

HCA

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The ammonolysis reaction of 3-(formylamino)-4-methyl-2-oxoazetidine-1-sulfonate is investigated by quantum-chemical methods (B3LYP/6-31 G*) as a model system of the aminolysis reaction of monobactam antibiotics involved in the allergic reaction to these drugs. The influence of the N-sulfonate group on the blactam ring, reaction intermediates, and transition states is characterized in terms of the geometries and relative energies of the corresponding critical structures located on the B3LYP/6-31 G* potential-energy surface. It is shown that the N-sulfonate group, which has only a moderate impact on the structure and charge distribution of the b-lactam ring, reduces the rate-determining DG barrier by ca. 20 kcal/mol with respect to a purely uncatalyzed ammonolysis of the unsubstituted system, azetidin-2-one. This intramolecular catalytic effect occurs through a ÀNHÀSO À 3 6 [À NÀSO 3 H] À isomerization process, which is involved in the proton relay from the attacking ammonia molecule to the b-lactam N-atom. Our theoretical results predict that, in aqueous solution, monobactams will show an intrinsic reactivity against amine nucleophiles more important than that of penicillins.

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Substitution of lysine at position 104 or 240 of TEM-1pTZ18R .beta.-lactamase enhances the effect of serine-164 substitution on hydrolysis or affinity for cephalosporins and the monobactam aztreonam

Cited by 93 publications

References 38 publications

Single amino acid replacements at positions altered in naturally occurring extended-spectrum TEM beta-lactamases

Single amino acid replacements at positions altered in naturally occurring extended-spectrum TEM beta-lactamases

Water-Assisted Alkaline Hydrolysis of Monobactams: A Theoretical Study

Theoretical Study of Ammonolysis of Monobactams: Kinetic Role of theN-Sulfonate Group

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