Bicarbonate Alters Bacterial Susceptibility to Antibiotics by Targeting the Proton Motive Force

Farha, Maya A.; French, Shawn; Stokes, Jonathan; Brown, Eric D.

doi:10.1021/acsinfecdis.7b00194

Cited by 106 publications

(146 citation statements)

References 48 publications

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“…2). To probe the possibility that CBG selectively dissipated membrane potential (Δψ) component of proton motive force, we tested for synergy with sodium bicarbonate, a known perturbant of ΔpH, that has been shown to synergize with molecules that reduce Δψ 25 . A lack of synergy between these compounds suggested CBG disrupts the integrity of the cytoplasmic membrane (Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

Uncovering the hidden antibiotic potential of Cannabis

Farha

El-Halfawy

Gale

et al. 2019

Preprint

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26The spread of antimicrobial resistance continues to be a priority health concern worldwide, 27 necessitating exploration of alternative therapies. Cannabis sativa has long been known to contain 28 antibacterial cannabinoids, but their potential to address antibiotic resistance has only been 29 superficially investigated. Here, we show that cannabinoids exhibit antibacterial activity against 30 MRSA, inhibit its ability to form biofilms and eradicate stationary phase cells persistent to antibiotics. 31 We show that the mechanism of action of cannabigerol is through targeting the cytoplasmic membrane 32 of Gram-positive bacteria and demonstrate in vivo efficacy of cannabigerol in a murine systemic 33 infection model caused by MRSA. We also show that cannabinoids are effective against Gram-negative 34 organisms whose outer membrane is permeabilized, where cannabigerol acts on the inner membrane. 35Finally, we demonstrate that cannabinoids work in combination with polymyxin B against multi-drug 36 resistant Gram-negative pathogens, revealing the broad-spectrum therapeutic potential for Public Health agencies around the globe have identified antimicrobial resistance as one of the 62 most critical challenges of our time. The rapid and global spread of antimicrobial-resistant organisms in 63 recent years has been unprecedented. So much so that the world health organization (WHO) published 64 its first ever list of antibiotic-resistant "priority pathogens", made up of 12 families of bacteria that pose 65 the greatest threat to human health 1 . Among them, Staphylococcus aureus is the leading cause of both 66 healthcare and community-associated infections worldwide and a major cause for morbidity and 67 mortality 2 , especially with the emergence and rapid spread of methicillin-resistant S. aureus (MRSA), 68 which is resistant to all known β-lactam antibiotics 3 . Worse yet, resistance to vancomycin, linezolid 69 and daptomycin has already been reported in MRSA clinical strains, compromising the therapeutic 70 alternatives for life-threatening MRSA infections 4 . Further, antibiotic-resistant Gram-negative 71 infections have increasingly become a pressing issue in the clinic. Indeed, of the bacteria highlighted 72 by the WHO, 75% are Gram-negative organisms. Among the currently approved antibiotics, the latest 73 discovery of a new drug class dates back to more than 30 years ago. The rapid loss of antibiotic 74 effectiveness and diminishing pipeline beg for the exploration of alternative therapies. 75 Cannabis plants are important herbaceous species that have been used in folk medicine since 76 the dawn of times. Increasing scientific evidence is accumulating for the efficacy of its metabolites in 77 the treatment, for example, of epilepsy, Parkinson disease, analgesia, multiple sclerosis, Tourette's 78 syndrome and other neurological diseases 5 . At a very nascent stage are investigations into the potential 79 of cannabis metabolites as antibacterial therapies. To date, assessments of their antibacterial activ...

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Section: Resultsmentioning

confidence: 99%

Uncovering the hidden antibiotic potential of Cannabis

Farha

El-Halfawy

Gale

et al. 2019

Preprint

Self Cite

View full text Add to dashboard Cite

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“…All of these components modulate various pathways and are mainly causative for the altered in vivo efficiency of antibiotics. [77,78] Despite these advancements of in vitro AST,t he full complexity of bacterial infections in vivo can hardly be simulated. [75,76] Ar ecent study by Ersoy et al revealed that the antibiotic susceptibility of various clinical isolates strongly depends on the medium used for in vitro cultivation.…”

Section: Screening Platformsmentioning

confidence: 99%

“…[77] Similarly, the addition of physiological concentrations of NaHCO 3 to standard MHB medium resulted in ah ost-mimicking environment, which suggests that the salt is akey component that contributes to antibiotic susceptibility in vivo. [77,78] Despite these advancements of in vitro AST,t he full complexity of bacterial infections in vivo can hardly be simulated. Therefore,h igh-throughput infection screening has become av aluable tool, especially for secondary antibiotic screens.…”

Section: Screening Platformsmentioning

confidence: 99%

Thinking Outside the Box—Novel Antibacterials To Tackle the Resistance Crisis

et al. 2018

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The public view on antibiotics as reliable medicines changed when reports about "resistant superbugs" appeared in the news. While reasons for this resistance development are easily spotted, solutions for re-establishing effective antibiotics are still in their infancy. This Review encompasses several aspects of the antibiotic development pipeline from very early strategies to mature drugs. An interdisciplinary overview is given of methods suitable for mining novel antibiotics and strategies discussed to unravel their modes of action. Select examples of antibiotics recently identified by using these platforms not only illustrate the efficiency of these measures, but also highlight promising clinical candidates with therapeutic potential. Furthermore, the concept of molecules that disarm pathogens by addressing gatekeepers of virulence will be covered. The Review concludes with an evaluation of antibacterials currently in clinical development. Overall, this Review aims to connect select innovative antimicrobial approaches to stimulate interdisciplinary partnerships between chemists from academia and industry.

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“…All diese Komponenten regulieren zahlreiche bakterielle Stoffwechselwege und sind der Hauptgrund füreine veränderte Invivo-Effizienz von Antibiotika. [77,78] Tr otz der beschriebenen Fortschritte des In-vitro-AST kann die volle Komplexitätd er bakteriellen Infektion in vivo jedoch kaum simuliert werden. Ein leicht umsetzbarer und sehr effektiver Ansatz ist die Substitution von geläufigen Vollmedien durch Minimalmedien.…”

Section: Screening-plattformenunclassified

“…[75,76] [77] In ähnlicher Weise führte die Zugabe von physiologischen Konzentrationen von NaHCO 3 zum geläufigen MHB-Medium zu einer Wirt-ähnlichen Umgebung.D as Salz scheint somit eine entscheidende Komponente fürdie Antibiotika-Empfindlichkeit in vivo zu sein. [77,78] Tr otz der beschriebenen Fortschritte des In-vitro-AST kann die volle Komplexitätd er bakteriellen Infektion in vivo jedoch kaum simuliert werden. Hochdurchsatz-Infektions-Screenings haben sich daher heute zu einer wertvollen Methode,i nsbesondere fürs ekundäre Antibiotika-Screenings, entwickelt.…”

Section: Screening-plattformenunclassified

Über bisherige Denkweisen hinaus – neue Wirkstoffe zur Überwindung der Antibiotika‐Krise

et al. 2018

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Die öffentliche Wahrnehmung von Antibiotika als verlässliche Arzneimittel veränderte sich drastisch, als Meldungen über “multiresistente Super‐Erreger” die Nachrichten aufrüttelten. Während die Ursachen für die bakterielle Resistenzentwicklung schnell erkannt wurden, befindet sich die Forschung zur Wiedergewinnung von Antibiotika als effektive Arzneistoffe immer noch am Anfang. Dieser Aufsatz umfasst zahlreiche Aspekte des Entwicklungsprozesses neuer Antibiotika, von der Grundlagenforschung bis zum fertigen Medikament. Er bietet einen interdisziplinären Überblick über Methoden zur Identifizierung neuer Antibiotika und erörtert Strategien, um ihren molekularen Wirkmechanismus aufzuklären. Die Darstellung ausgewählter Antibiotika, die kürzlich mithilfe dieser Plattformen entdeckt wurden, verdeutlicht die Effizienz der Ansätze und hebt vielversprechende klinische Kandidaten mit therapeutischem Potential hervor. Zusätzlich wird das Konzept von Molekülen erörtert, die Krankheitserreger “entwaffnen”, indem sie Schlüsselpunkte der Virulenz adressieren. Der Aufsatz schließt mit einer kritischen Beurteilung jener antibakteriellen Wirkstoffe, die sich derzeit in klinischer Entwicklung befinden. Insgesamt soll dieser Aufsatz ausgewählte, innovative antibakterielle Ansätze verknüpfen, um interdisziplinäre Partnerschaften zwischen Chemikern aus der akademischen und industriellen Forschung anzuregen.

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Bicarbonate Alters Bacterial Susceptibility to Antibiotics by Targeting the Proton Motive Force

Cited by 106 publications

References 48 publications

Uncovering the hidden antibiotic potential of Cannabis

Uncovering the hidden antibiotic potential of Cannabis

Thinking Outside the Box—Novel Antibacterials To Tackle the Resistance Crisis

Über bisherige Denkweisen hinaus – neue Wirkstoffe zur Überwindung der Antibiotika‐Krise

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