Heiner Atze scite author profile

Arachidonic acid (AA) is metabolized to diverse bioactive lipid mediators. Whereas the 5-lipoxygenase-activating protein (FLAP) facilitates AA conversion by 5-lipoxygenase (5-LOX) to pro-inflammatory leukotrienes (LTs), the soluble epoxide hydrolase (sEH) degrades anti-inflammatory epoxyeicosatrienoic acids (EETs). Accordingly, dual FLAP/sEH inhibition might be advantageous drugs for intervention of inflammation. We present the in vivo pharmacological profile and efficiency of N-[4-(benzothiazol-2-ylmethoxy)-2-methylphenyl]-N′-(3,4-dichlorophenyl)urea (diflapolin) that dually targets FLAP and sEH. Diflapolin inhibited 5-LOX product formation in intact human monocytes and neutrophils with IC50 = 30 and 170 nM, respectively, and suppressed the activity of isolated sEH (IC50 = 20 nM). Characteristic for FLAP inhibitors, diflapolin (I) failed to inhibit isolated 5-LOX, (II) blocked 5-LOX product formation in HEK cells only when 5-LOX/FLAP was co-expressed, (III) lost potency in intact cells when exogenous AA was supplied, and (IV) prevented 5-LOX/FLAP complex assembly in leukocytes. Diflapolin showed target specificity, as other enzymes related to AA metabolism (i.e., COX1/2, 12/15-LOX, LTA4H, LTC4S, mPGES1, and cPLA2) were not inhibited. In the zymosan-induced mouse peritonitis model, diflapolin impaired vascular permeability, inhibited cysteinyl-LTs and LTB4 formation, and suppressed neutrophil infiltration. Diflapolin is a highly active dual FLAP/sEH inhibitor in vitro and in vivo with target specificity to treat inflammation-related diseases.

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Diazabicyclooctane Functionalization for Inhibition of β-Lactamases from Enterobacteria

Bouchet

Atze

Fonvielle

et al. 2020

J. Med. Chem.

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Second-generation-lactamase inhibitors containing a dia abic clooctane (DBO) scaffold restore the activit of-lactams against pathogenic bacteria, including those producing class A, C, and D en mes that are not susceptible to first-generation inhibitors containing a-lactam ring. Here, e report optimi ation of a s nthetic route to access tria olecontaining DBOs and biological evaluation of a series of 17 compounds for inhibition of five-lactamases representative of en mes found in pathogenic Gram-negative bacteria. A strong correlation (Spearman coefficient of 0.87; = 4.7 10-21) as observed bet een the inhibition efficac of purified-lactamases and the potentiation of-lactam antibacterial activit indicating that DBO functionali ation did not impair penetration. In comparison to reference DBOs, avibactam and relebactam, our compounds displa ed reduced efficac likel due to the absence of h drogen bonding ith a conserved asparagine residue at position 132. This as partiall compensated b additional interactions involving certain tria ole substituents.

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Impact of relebactam-mediated inhibition of Mycobacterium abscessus BlaMab β-lactamase on the in vitro and intracellular efficacy of imipenem

Run

Atze

Arthur

et al. 2019

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Objectives Imipenem is one of the recommended β-lactams for the treatment of Mycobacterium abscessus pulmonary infections in spite of the production of BlaMab β-lactamase. Avibactam, a second-generation β-lactamase inhibitor, was previously shown to inactivate BlaMab, but its partner drug, ceftazidime, is devoid of any antibacterial activity against M. abscessus. Here, we investigate whether relebactam, a novel second-generation inhibitor developed in combination with imipenem, improves the activity of this carbapenem against M. abscessus. Methods The impact of BlaMab inhibition by relebactam was evaluated by determining MICs, time–kill curves and M. abscessus intracellular proliferation in human macrophages. Kinetic parameters for the inhibition of BlaMab by relebactam were determined by spectrophotometry using nitrocefin as the substrate. The data were compared with those obtained with avibactam. Results Combination of relebactam (4 mg/L) with β-lactams led to >128- and 2-fold decreases in the MICs of amoxicillin (from >4096 to 32 mg/L) and imipenem (from 8 to 4 mg/L). In vitro, M. abscessus was not killed by the imipenem/relebactam combination. In contrast, relebactam increased the intracellular activity of imipenem, leading to 88% killing. Relebactam and avibactam similarly potentiated the antibacterial activities of β-lactams although BlaMab was inactivated 150-fold less effectively by relebactam than by avibactam. Conclusions Inhibition of BlaMab by relebactam improves the efficacy of imipenem against M. abscessus in macrophages, indicating that the imipenem/relebactam combination should be clinically considered for the treatment of infections due to M. abscessus.

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Heiner Atze

Pharmacological profile and efficiency in vivo of diflapolin, the first dual inhibitor of 5-lipoxygenase-activating protein and soluble epoxide hydrolase

Diazabicyclooctane Functionalization for Inhibition of β-Lactamases from Enterobacteria

Impact of relebactam-mediated inhibition of Mycobacterium abscessus BlaMab β-lactamase on the in vitro and intracellular efficacy of imipenem

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