Jeremy B. Alverson scite author profile

A carefully timed coculture fermentation of Penicillium fuscum and P. camembertii/clavigerum yielded eight new 16-membered-ring macrolides, berkeleylactones A–H (1, 4, 6–9, 12, 13), as well as the known antibiotic macrolide A26771B (5), patulin, and citrinin. There was no evidence of the production of the berkeleylactones or A26771B (5) by either fungus when grown as axenic cultures. The structures were deduced from analyses of spectral data, and the absolute configurations of compounds 1 and 9 were determined by single-crystal X-ray crystallography. Berkeleylactone A (1) exhibited the most potent antimicrobial activity of the macrolide series, with low micromolar activity (MIC = 1–2 μg/mL) against four MRSA strains, as well as Bacillus anthracis, Streptococcus pyogenes, Candida albicans, and Candida glabrata. Mode of action studies have shown that, unlike other macrolide antibiotics, berkeleylactone A (1) does not inhibit protein synthesis nor target the ribosome, which suggests a novel mode of action for its antibiotic activity.

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Toward New Therapeutics for Skin and Soft Tissue Infections: Propargyl-Linked Antifolates Are Potent Inhibitors of MRSA and Streptococcus pyogenes

Viswanathan

Frey

Scocchera

et al. 2012

PLoS ONE

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Hospital- and community-acquired, complicated skin and soft tissue infections, often attributed to Staphylococcus aureus and Streptococcus pyogenes, present a significant health burden that is associated with increased health care costs and mortality. As these two species are difficult to discern on diagnosis and are associated with differential profiles of drug resistance, the development of an efficacious antibacterial agent that targets both organisms is a high priority. Herein we describe a structure-based drug development effort that has produced highly potent inhibitors of dihydrofolate reductase from both species. Optimized propargyl-linked antifolates containing a key pyridyl substituent display antibacterial activity against both methicillin-resistant S. aureus and S. pyogenes at MIC values below 0.1 µg/mL and minimal cytotoxicity against mammalian cells. Further evaluation against a panel of clinical isolates shows good efficacy against a range of important phenotypes such as hospital- and community-acquired strains as well as strains resistant to vancomycin.

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Charged Nonclassical Antifolates with Activity Against Gram-Positive and Gram-Negative Pathogens

Scocchera

Reeve

Keshipeddy

et al. 2016

ACS Med. Chem. Lett.

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Although classical, negatively charged antifolates such as methotrexate possess high affinity for the dihydrofolate reductase (DHFR) enzyme, they are unable to penetrate the bacterial cell wall, rendering them poor antibacterial agents. Herein, we report a new class of charged propargyl-linked antifolates that capture some of the key contacts common to the classical antifolates while maintaining the ability to passively diffuse across the bacterial cell wall. Eight synthesized compounds exhibit extraordinary potency against Gram-positive S. aureus with limited toxicity against mammalian cells and good metabolic profile. High resolution crystal structures of two of the compounds reveal extensive interactions between the carboxylate and active site residues through a highly organized water network.

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Crystal Structures of Klebsiella pneumoniae Dihydrofolate Reductase Bound to Propargyl-Linked Antifolates Reveal Features for Potency and Selectivity

Lamb

Lombardo

Alverson

et al. 2014

Antimicrob Agents Chemother

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Resistance to the antibacterial antifolate trimethoprim (TMP) is increasing in members of the family Enterobacteriaceae, driving the design of next-generation antifolates effective against these Gram-negative pathogens. The propargyl-linked antifolates are potent inhibitors of dihydrofolate reductases (DHFR) from several TMP-sensitive and -resistant species, including Klebsiella pneumoniae. Recently, we have determined that these antifolates inhibit the growth of strains of K. pneumoniae, some with MIC values of 1 g/ml. In order to further the design of potent and selective antifolates against members of the Enterobacteriaceae, we determined the first crystal structures of K. pneumoniae DHFR bound to two of the propargyl-linked antifolates. These structures highlight that interactions with Leu 28, Ile 50, Ile 94, and Leu 54 are necessary for potency; comparison with structures of human DHFR bound to the same inhibitors reveal differences in residues (N64E, P61G, F31L, and V115I) and loop conformations (residues 49 to 53) that may be exploited for selectivity.

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Berkeleylactones and a Citreohybriddione Analogue from Penicillium turbatum

Stierle

Alverson

et al. 2021

J. Nat. Prod.

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In 2017 we reported the isolation and characterization of berkeleylactones A−H and A26771B from a coculture of two extremophilic Penicillium sp. isolated from an acid mine waste lake. Berkeleylactone A exhibited potent activity against several strains of multi-drug-resistant Staphylococcus aureus and Bacillus anthracis. A26771B, which is related to the berkeleylactones, also exhibited antibiotic activity. Although the berkeleylactones were novel compounds, A26771B was originally isolated by scientists at Eli Lilly Company from P. turbatum and reported in1977. We recently obtained P. turbatum and grew it in axenic culture. We isolated five new berkeleylactones (2 and 4−7), two berkeley-γ-lactones (8 and 9), and citreohybriddional (10), as well as the known compounds A26771B (1), berkeleylactone E (3), and gliovictin. The structures of the novel compounds were deduced from analysis of spectral data. Compounds 2 and 4 −7 are 16-membered macrolides, while 8 and 9 are γ-lactones that share the hexadecanoic acid skeleton. A26771B (1) and berkeleylactone I (2) were active against several strains of Staphylococcus aureus, including four multi-drug-resistant strains. Berkeleylactone N (8) was active only against Streptococcus pyogenes.

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