Julian G. Hurdle scite author profile

Persistent infections involving slow-growing or non-growing bacteria are hard to treat with antibiotics that target biosynthetic processes in growing cells. Consequently, there is a need for antimicrobials that can treat infections containing dormant bacteria. In this Review, we discuss the emerging concept that disrupting the bacterial membrane bilayer or proteins that are integral to membrane function (including membrane potential and energy metabolism) in dormant bacteria is a strategy for treating persistent infections. The clinical applicability of these approaches is exemplified by the efficacy of lipoglycopeptides that damage bacterial membranes and of the diarylquinoline TMC207, which inhibits membrane-bound ATP synthase. Despite some drawbacks, membrane-active agents form an important new means of eradicating recalcitrant, non-growing bacteria.

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Frizzled proteins are colonic epithelial receptors for C. difficile toxin B

Tao

Zhang

Meraner

et al. 2016

Nature

236

288

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SummaryClostridium difficile toxin B (TcdB) is a critical virulence factor causing diseases associated with C. difficile infection (CDI). Here we carried out CRISPR/Cas9-mediated genome-wide screens and identified the members of the Wnt receptor Frizzled (FZDs) family as TcdB receptors. TcdB binds to the conserved Wnt-binding site known as the cysteine-rich domain (CRD), with the highest affinity toward FZD1, 2, and 7. TcdB competes with Wnt for binding to FZDs, and its binding blocks Wnt signaling. FZD1/2/7 triple-knockout (KO) cells are highly resistant to TcdB, and recombinant FZD2-CRD prevented TcdB binding to the colonic epithelium. Colonic organoids cultured from FZD7 KO mice, combined with knock-down of FZD1 and 2, showed increased resistance to TcdB. The colonic epithelium in FZD7 KO mice was less susceptible to TcdB-induced tissue damage in vivo. These findings establish FZDs as physiologically relevant receptors for TcdB in the colonic epithelium.

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Spectinamides: a new class of semisynthetic antituberculosis agents that overcome native drug efflux

Lee

Hurdle

Liu

et al. 2014

Nat Med

169

207

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Although the classical antibiotic spectinomycin is a potent bacterial protein synthesis inhibitor, poor antimycobacterial activity limits its clinical application for treating tuberculosis. Using structure-based design, a novel semisynthetic series of spectinomycin analogs was generated with selective ribosomal inhibition and excellent narrow-spectrum antitubercular activity. In multiple murine infection models, these spectinamides were well tolerated, significantly reduced lung mycobacterial burden and increased survival. In vitro studies demonstrated a lack of cross-resistance with existing tuberculosis therapeutics, activity against MDR/XDR-tuberculosis, and an excellent pharmacological profile. Key to their potent antitubercular properties was their structural modification to evade the Rv1258c efflux pump, which is upregulated in MDR strains and is implicated in macrophage induced drug tolerance. The antitubercular efficacy of spectinamides demonstrates that synthetic modifications to classical antibiotics can overcome the challenge of intrinsic efflux pump-mediated resistance and expands opportunities for target based tuberculosis drug discovery.

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Julian G. Hurdle

Targeting bacterial membrane function: an underexploited mechanism for treating persistent infections

Frizzled proteins are colonic epithelial receptors for C. difficile toxin B

Spectinamides: a new class of semisynthetic antituberculosis agents that overcome native drug efflux

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