NB2001, a Novel Antibacterial Agent with Broad-Spectrum Activity and Enhanced Potency against β-Lactamase-Producing Strains

Li, Qing; Lee, Jean Y.; Castillo, Rosario; Hixon, Mark S.; Pujol, Catherine; Doppalapudi, Venkata Ramana; Shepard, H M; Wahl, Geoffrey M.; Lobl, Thomas J.; Chan, Ming Fai

doi:10.1128/aac.46.5.1262-1268.2002

Cited by 44 publications

(26 citation statements)

References 25 publications

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“…␤-Lactamase inhibitors, such as clavulanic acid and the penicillanic acid sulfones, mostly target class A enzymes; and their use in combination with older compounds has restored the broad-spectrum activities of older compounds, such as amoxicillin (18,22,25,26). Inhibitors that target class C and class B ␤-lactamases have yet to reach clinical development.Exploiting common ␤-lactamases to generate novel antibacterials is a strategy originally used by O'Callaghan et al (24) and subsequently by Mobashery and Johnston (20) and other investigators (6,10,16). It has been part of NewBiotics' general enzyme-catalyzed therapeutic activation (ECTA) prodrug approach that harnesses unique enzymes in bacteria to achieve selective release of cytotoxic agents from substrate-like molecules (16; M. V.…”

mentioning

confidence: 99%

“…Exploiting common ␤-lactamases to generate novel antibacterials is a strategy originally used by O'Callaghan et al (24) and subsequently by Mobashery and Johnston (20) and other investigators (6,10,16). It has been part of NewBiotics' general enzyme-catalyzed therapeutic activation (ECTA) prodrug approach that harnesses unique enzymes in bacteria to achieve selective release of cytotoxic agents from substrate-like molecules (16; M. V. Sergeeva, G. H. Khambatta, B. E. Cathers, R. S. Castillo, V. R. Doppalapudi, H. H. Bendall, A. R. Bueno, J. Y. Lee, Q. Li, and N. H. Georgopapadakou, Abstr.…”

mentioning

confidence: 99%

“…(13,17,31) was provided by K. Bush, and S. aureus strains RN4220 and PC1 (14,30,32) were provided by J. Iandolo. E. coli (TEM-1) and its parent strain, E. coli N, have been described previously (16).…”

mentioning

confidence: 99%

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Mechanism of Action of NB2001 and NB2030, Novel Antibacterial Agents Activated by β-Lactamases

Stone¹,

Zhang²,

Castillo³

et al. 2004

Antimicrob Agents Chemother

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Two potent antibacterial agents designed to undergo enzyme-catalyzed therapeutic activation were evaluated for their mechanisms of action. The compounds, NB2001 and NB2030, contain a cephalosporin with a thienyl (NB2001) or a tetrazole (NB2030) ring at the C-7 position and are linked to the antibacterial triclosan at the C-3 position. The compounds exploit ␤-lactamases to release triclosan through hydrolysis of the ␤-lactam ring. Like cephalothin, NB2001 and NB2030 were hydrolyzed by class A ␤-lactamases (Escherichia coli TEM-1 and, to a lesser degree, Staphylococcus aureus PC1) and class C ␤-lactamases (Enterobacter cloacae P99 and E. coli AmpC) with comparable catalytic efficiencies (k cat /K m ). They also bound to the penicillin-binding proteins of S. aureus and E. coli, but with reduced affinities relative to that of cephalothin. Accordingly, they produced a cell morphology in E. coli consistent with the toxophore rather than the ␤-lactam being responsible for antibacterial activity. In biochemical assays, they inhibited the triclosan target enoyl reductase (FabI), with 50% inhibitory concentrations being markedly reduced relative to that of free triclosan. The transport of NB2001, NB2030, and triclosan was rapid, with significant accumulation of triclosan in both S. aureus and E. coli. Taken together, the results suggest that NB2001 and NB2030 act primarily as triclosan prodrugs in S. aureus and E. coli.The ubiquitous occurrence of ␤-lactamases in bacteria and their association with clinical resistance to ␤-lactams have allowed strong interest in these enzymes to be sustained (3, 26). ␤-Lactamases are periplasmic in gram-negative bacteria, while they are exocellular in gram-positive bacteria. They are conveniently divided into four classes (classes A, B, C, and D) on the basis of amino acid sequence homologies (Ambler classification) (1, 15). Of these classes, classes A and C are of the greatest clinical significance. ␤-Lactamase inhibitors, such as clavulanic acid and the penicillanic acid sulfones, mostly target class A enzymes; and their use in combination with older compounds has restored the broad-spectrum activities of older compounds, such as amoxicillin (18,22,25,26). Inhibitors that target class C and class B ␤-lactamases have yet to reach clinical development.Exploiting common ␤-lactamases to generate novel antibacterials is a strategy originally used by O'Callaghan et al. (24) and subsequently by Mobashery and Johnston (20) and other investigators (6,10,16). It has been part of NewBiotics' general enzyme-catalyzed therapeutic activation (ECTA) prodrug approach that harnesses unique enzymes in bacteria to achieve selective release of cytotoxic agents from substrate-like molecules (16; M. V.

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Mechanism of Action of NB2001 and NB2030, Novel Antibacterial Agents Activated by β-Lactamases

Stone¹,

Zhang²,

Castillo³

et al. 2004

Antimicrob Agents Chemother

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“…In this study, transformed E. coli exhibited enhanced susceptibility to aloin than non-transformed E. coli. The increased susceptibility could be explained by 'negative cross-resistance' or 'collateral sensitivity', where the induction of resistance to one compound enhances the toxicity to other compounds (Li et al 2002;Palmer et al 2010). Previously, similar phenomenon was observed through the increased susceptibility of E. coli to fusaric acid consequent to development of resistance against tetracyclines by modification of efflux pumps (Bochner et al 1980).…”

Section: Minimum Inhibitory Concentrationmentioning

confidence: 83%

First report on rapid screening of nanomaterial-based antimicrobial agents against β-lactamase resistance using pGLO plasmid transformed Escherichia coli HB 101 K-12

Raj¹,

Yegireddy²,

Sravanthi³

et al. 2015

Appl Nanosci

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Combating antibiotic resistance requires discovery of novel antimicrobials effective against resistant bacteria. Herein, we present for the first time, pGLO plasmid transformed Escherichia coli HB 101 K 12 as novel model for screening of nanomaterial-based antimicrobial agents against b-lactamase resistance. E. coli HB 101 was transformed by pGLO plasmid in the presence of calcium chloride (50 mM; pH 6.1) aided by heat shock (0-42-0°C). The transformed bacteria were grown on Luria-Bertani agar containing ampicillin (amp) and arabinose (ara). The transformed culture was able to grow in the presence of ampicillin and also exhibited fluorescence under UV light. Both untransformed and transformed bacteria were used for screening citrate-mediated nanosilver (CNS), aloin-mediated nanosilver (ANS), 11-a-ketoboswellic acid (AKBA)-mediated nanosilver (BNS); nanozinc oxide, nanomanganese oxide (NMO) and phytochemicals such as aloin and AKBA. Minimum inhibitory concentrations (MIC) were obtained by microplate method using q-iodo nitro tetrazolium indicator. All the compounds were effective against transformed bacteria except NMO and AKBA. Transformed bacteria exhibited reverse cross resistance against aloin. ANS showed the highest antibacterial activity with a MIC of 0.32 ppm followed by BNS (10.32 ppm), CNS (20.64 ppm) and NZO (34.83 ppm). Thus, pGLO plasmid can be used to induce resistance against b-lactam antibiotics and the model can be used for rapid screening of new antibacterial agents effective against resistant bacteria.

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“…A pesar de que los compuestos inhibidores de enzimas, como el ácido clavulánico y las sulfonas del ácido penicilánico (sulbactam y tazobactam), han ayudado a controlar la resistencia, se ha visto que su actividad es relativamente limitada contra las betalactamasas de clase C y contra algunas enzimas de clase A y, además, se ha reportado que estos compuestos, al presentar el mismo núcleo químico de los fármacos betalactámicos, pueden inducir la expresión de betalactamasas en microorganismos resistentes (16)(17)(18)(19)(20)(21)(22).…”

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Actividad inhibitoria de dihidroxifenilpropenona sobre β-lactamasa de Enterobacter cloacae: estudio preliminar en el desarrollo de fármacos para enfrentar la resistencia bacteriana

2013

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NB2001, a Novel Antibacterial Agent with Broad-Spectrum Activity and Enhanced Potency against β-Lactamase-Producing Strains

Cited by 44 publications

References 25 publications

Mechanism of Action of NB2001 and NB2030, Novel Antibacterial Agents Activated by β-Lactamases

Mechanism of Action of NB2001 and NB2030, Novel Antibacterial Agents Activated by β-Lactamases

First report on rapid screening of nanomaterial-based antimicrobial agents against β-lactamase resistance using pGLO plasmid transformed Escherichia coli HB 101 K-12

Actividad inhibitoria de dihidroxifenilpropenona sobre β-lactamasa de Enterobacter cloacae: estudio preliminar en el desarrollo de fármacos para enfrentar la resistencia bacteriana

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