Chemoreactive Natural Products that Afford Resistance Against Disparate Antibiotics and Toxins

Du, Lin; You, Jinhong; Nicholas, Kenneth M.; Cichewicz, Robert H.

doi:10.1002/anie.201511348

Cited by 12 publications

(27 citation statements)

References 19 publications

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“…Considering the problems associated with existing “de-skunking” strategies, we set out to identify a safer and more effective skunk-spray-deodorizing solution. One of the lead substances to emerge from our search was the chemoreactive fungal metabolite pericosine A ( 4 ) (Figure ), which had been previously reported by our group to protect fungi from nucleophilic antibiotics/toxins . On the basis of those findings, we hypothesized that pericosine A and its synthetic analogues might offer an appealing solution to the neutralization of thiols and even thioacetates via S N 2′ substitution mechanisms under aqueous conditions.…”

mentioning

confidence: 80%

An Electrophilic Natural Product Provides a Safe and Robust Odor Neutralization Approach To Counteract Malodorous Organosulfur Metabolites Encountered in Skunk Spray

Munteanu

King

et al. 2019

J. Nat. Prod.

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The anal secretions of skunks comprise several types of malodorous organosulfur compounds. The pungent metabolites are used defensively by skunks to repel threats posed by predators, and in many parts of the world, those perceived threats include humans and their pets. The extremely low thresholds for detection of the organosulfur metabolites make efforts to “de-skunk” people, animals, and clothing a process fraught with many challenges. The fungal-derived metabolite pericosine A (4) is a promiscuous yet stabile electrophilic compound that we propose is used by some fungi as a novel form of chemical defense. Our investigations have indicated that pericosine A readily reacts with skunk-spray secretions to transform them into odorless products. Mechanistic and computational studies suggested that pericosine A and its synthetic analogues react via SN2′-type mechanisms with thiols and thioacetates under aqueous conditions to generate stable thioethers. Testing revealed that pericosine A did not cause skin or eye irritation and was highly effective at deodorizing skunk anal gland secretions when formulated to include adjunctive cosmetic ingredients.

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confidence: 80%

An Electrophilic Natural Product Provides a Safe and Robust Odor Neutralization Approach To Counteract Malodorous Organosulfur Metabolites Encountered in Skunk Spray

Munteanu

King

et al. 2019

J. Nat. Prod.

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“…As mentioned above, donor 9 could be derived from syn -epoxide 11 , which corresponds with a pericoxide proven to be the precursor of pericosine A in the culture of Tolypocladium sp. [ 27 ]. Therefore, our strategy might be biomimetic.…”

Section: Resultsmentioning

confidence: 99%

“…Recently, the Cichewicz group reported the isolation of maximiscin, which shows potent inhibition against melanoma cell line UACC-62 and contains a pericosine moiety, as a fungal metabolite of Tolypocladium sp. [ 26 , 27 ]. However, our attention was focused on the co-isolation of (+)-pericosine A ( 1 ) and precursor pericoside ( 7 ) from the fungal extract (our second synthetic intermediate, syn -epoxide 11 , extracted later) [ 27 ].…”

Section: Introductionmentioning

confidence: 99%

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Synthesis of Natural O-Linked Carba-Disaccharides, (+)- and (−)-Pericosine E, and Their Analogues as α-Glucosidase Inhibitors

et al. 2017

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Pericosine E (6), a metabolite of Periconia byssoides OUPS-N133 was originally isolated from the sea hare Aplysia kurodai, which exists as an enantiomeric mixture in nature. The enantiospecific syntheses of both enantiomers of Periconia byssoides OUPS-N133 has been achieved, along with six stereoisomers, using a common simple synthetic strategy. For these efficient syntheses, highly regio- and steroselective processes for the preparation of bromohydrin and anti-epoxide intermediates were applied. In order to access the unique O-linked carbadisaccharide structure, coupling of chlorohydrin as a donor and anti-epoxide as an acceptor was achieved using catalytic BF3·Et2O. Most of the synthesized compounds exhibited selectively significant inhibitory activity against α-glycosidase derived from yeast. The strongest analog showed almost 50 times the activity of the positive control, deoxynojirimycin.

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“…One example is the compound maximiscin from Tolypocladium sp. which results from highly reactive intermediates that can detoxify various synthetic and naturally derived antifungals via nucleophilic substitutions [ 11 ]. Previously, we found that the endophyte Chalara sp.…”

Section: Introductionmentioning

confidence: 99%

Precursor-Directed Biosynthesis of Aminofulvenes: New Chalanilines from Endophytic Fungus Chalara sp.

et al. 2021

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The plant endophyte Chalara sp. is able to biotransform the epigenetic modifier vorinostat to form unique, aniline-containing polyketides named chalanilines. Here, we sought to expand the chemical diversity of chalaniline A-type molecules by changing the aniline moiety in the precursor vorinostat. In total, twenty-three different vorinostat analogs were prepared via two-step synthesis, and nineteen were incorporated by the fungus into polyketides. The highest yielding substrates were selected for large-scale precursor-directed biosynthesis and five novel compounds, including two fluorinated chalanilines, were isolated, purified, and structurally characterized. Structure elucidation relied on 1D and 2D NMR techniques and was supported by low- and high-resolution mass spectrometry. All compounds were tested for their bioactivity but were not active in antimicrobial or cell viability assays. Aminofulvene-containing natural products are rare, and this high-yielding, precursor-directed process allows for the diversification of this class of compounds.

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Chemoreactive Natural Products that Afford Resistance Against Disparate Antibiotics and Toxins

Cited by 12 publications

References 19 publications

An Electrophilic Natural Product Provides a Safe and Robust Odor Neutralization Approach To Counteract Malodorous Organosulfur Metabolites Encountered in Skunk Spray

An Electrophilic Natural Product Provides a Safe and Robust Odor Neutralization Approach To Counteract Malodorous Organosulfur Metabolites Encountered in Skunk Spray

Synthesis of Natural O-Linked Carba-Disaccharides, (+)- and (−)-Pericosine E, and Their Analogues as α-Glucosidase Inhibitors

Precursor-Directed Biosynthesis of Aminofulvenes: New Chalanilines from Endophytic Fungus Chalara sp.

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