Rajeshwar Singh scite author profile

g Gram-negative bacteria cause approximately 70% of the infections in intensive care units. A growing number of bacterial isolates responsible for these infections are resistant to currently available antibiotics and to many in development. Most agents under development are modifications of existing drug classes, which only partially overcome existing resistance mechanisms. Therefore, new classes of Gram-negative antibacterials with truly novel modes of action are needed to circumvent these existing resistance mechanisms. We have previously identified a new a way to inhibit an aminoacyl-tRNA synthetase, leucyl-tRNA synthetase (LeuRS), in fungi via the oxaborole tRNA trapping (OBORT) mechanism. Herein, we show how we have modified the OBORT mechanism using a structure-guided approach to develop a new boron-based antibiotic class, the aminomethylbenzoxaboroles, which inhibit bacterial leucyl-tRNA synthetase and have activity against Gram-negative bacteria by largely evading the main efflux mechanisms in Escherichia coli and Pseudomonas aeruginosa. The lead analogue, AN3365, is active against Gram-negative bacteria, including Enterobacteriaceae bearing NDM-1 and KPC carbapenemases, as well as P. aeruginosa. This novel boronbased antibacterial, AN3365, has good mouse pharmacokinetics and was efficacious against E. coli and P. aeruginosa in murine thigh infection models, which suggest that this novel class of antibacterials has the potential to address this unmet medical need.

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Boron‐based phosphodiesterase inhibitors show novel binding of boron to PDE4 bimetal center

Freund¹,

Akama²,

Alley³

et al. 2012

FEBS Letters

129

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a b s t r a c tWe have used boron-based molecules to create novel, competitive, reversible inhibitors of phosphodiesterase 4 (PDE4). The co-crystal structure reveals a binding configuration which is unique compared to classical catechol PDE4 inhibitors, with boron binding to the activated water in the bimetal center. These phenoxybenzoxaboroles can be optimized to generate submicromolar potency enzyme inhibitors, which inhibit TNF-a, IL-2, IFN-c, IL-5 and IL-10 activities in vitro and show safety and efficacy for topical treatment of human psoriasis. They provide a valuable new route for creating novel potent anti-PDE4 inhibitors.

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First and Second Generation γ-Secretase Modulators (GSMs) Modulate Amyloid-β (Aβ) Peptide Production through Different Mechanisms

Borgegard

Juréus

Olsson

et al. 2012

Journal of Biological Chemistry

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Background: ␥-Secretase modulators (GSMs) hold potential as disease modifiers in Alzheimer disease; however, their mechanism of action is not completely understood. Results: Second generation in vivo active GSMs were described and shown to modulate A␤ production via a non-APP targeting mechanism, different from the NSAIDs class of GSMs. Conclusion: A growing class of second generation GSMs appears to target ␥-secretase and displays a different mechanism of action compared with first generation GSMs. Significance: The identification of in vivo active non-APP targeting second generation GSMs may facilitate the development of novel therapeutics against AD.

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Identification of a novel boron-containing antibacterial agent (AN0128) with anti-inflammatory activity, for the potential treatment of cutaneous diseases

Baker¹,

Akama²,

Zhang³

et al. 2006

Bioorganic & Medicinal Chemistry Letters

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β-Lactamases and their Inhibitors: An Update

Micetich

Salama

Maiti

et al. 2002

CMCAIA

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Rajeshwar Singh

Discovery of a Novel Class of Boron-Based Antibacterials with Activity against Gram-Negative Bacteria

Boron‐based phosphodiesterase inhibitors show novel binding of boron to PDE4 bimetal center

First and Second Generation γ-Secretase Modulators (GSMs) Modulate Amyloid-β (Aβ) Peptide Production through Different Mechanisms

Identification of a novel boron-containing antibacterial agent (AN0128) with anti-inflammatory activity, for the potential treatment of cutaneous diseases

β-Lactamases and their Inhibitors: An Update

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Rajeshwar Singh

Discovery of a Novel Class of Boron-Based Antibacterials with Activity against Gram-Negative Bacteria

Boron‐based phosphodiesterase inhibitors show novel binding of boron to PDE4 bimetal center

First and Second Generation γ-Secretase Modulators (GSMs) Modulate Amyloid-β (Aβ) Peptide Production through Different Mechanisms

Identification of a novel boron-containing antibacterial agent (AN0128) with anti-inflammatory activity, for the potential treatment of cutaneous diseases

&#946;-Lactamases and their Inhibitors: An Update

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β-Lactamases and their Inhibitors: An Update