Language：English   Publishing type：Research paper (scientific journal)   Publisher：Oxford University Press (OUP)  

ABSTRACT

In this paper, we describe our discovery of burnettiene A (1) as an antimalarial compound from the culture broth of Lecanicillium primulinum (current name: Flavocillium primulinum) FKI-6715 strain utilizing our original multidrug-sensitive yeast system. This polyene-decalin polyketide natural product was originally isolated as an antifungal active compound from Aspergillus burnettii. However, the antifungal activity of 1 has been revealed in only one fungal species, and the mechanism of action of 1 remains unknown. After the validation of mitochondrial function inhibitory of 1, we envisioned a new antimalarial drug discovery platform based on mitochondrial function inhibitory activity. We evaluated antimalarial activity and 1 showed antimalarial activity against Plasmodium falciparum FCR3 (chloroquine sensitive) and the K1 strain (chloroquine resistant). Our study revealed the utility of our original screening system based on a multidrug-sensitive yeast and mitochondrial function inhibitory activity for the discovery of new antimalarial drug candidates.

DOI： 10.1093/bbb/zbae098

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Other Link： https://academic.oup.com/bbb/article-pdf/88/10/1212/59210421/zbae098.pdf

Language：English   Publishing type：Research paper (scientific journal)  

The first report of transmissible carbapenem resistance encoded by blaIMP-1 was discovered in Pseudomonas aeruginosa GN17203 in 1988, and blaIMP-1 has since been detected in other bacteria, including Enterobacterales. Currently, many variants of blaIMPs exist, and point mutations in the blaIMP promoter have been shown to alter promoter strength. For example, the promoter (Pc) of blaIMP-1, first reported in P. aeruginosa GN17203, was a weak promoter (PcW) with low-level expression intensity. This study investigates whether point mutations in the promoter region have helped to create strong promoters under antimicrobial selection pressure. Using bioinformatic approaches, we retrieved 115 blaIMPs from 14,529 genome data of Pseudomonadota and performed multiple alignment analyses. The results of promoter analysis of the 115 retrieved blaIMPs showed that most of them used the Pc located in class 1 integrons (n = 112, 97.4%). The promoter analysis by year revealed that the blaIMP population with the strong promoter, PcS, was transient. In contrast, the PcW-TG population, which had acquired a TGn-extended -10 motif in PcW and had an intermediate promoter strength, gradually spread throughout the world. An inverse correlation between Pc promoter strength and Intl1 integrase excision efficiency has been reported previously [1]. Because of this trade-off, it is unlikely that blaIMPs with strong promoters will increase rapidly, but the possibility that promoter strength will increase with the use of other integrons cannot be ruled out. Monitoring of the blaIMP genes, including promoter analysis, is necessary for global surveillance of carbapenem-resistant bacteria.

DOI： 10.1038/s41429-024-00715-5

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Three new antiplasmodial compounds, named akedanones A (1), B (2), and C (3), were discovered from the cultured material of Streptomyces sp. K20-0187 isolated from a soil sample collected at Takeda, Kofu, Yamanashi prefecture in Japan. The structures of compounds 1-3 were elucidated as new 2,3-dihydronaphthoquinones having prenyl and reverse prenyl groups by mass spectrometry and nuclear magnetic resonance analyses. Compound 1 and the known furanonaphthoquinone I (4) showed potent in vitro antiplasmodial activity against chloroquine-sensitive and chloroquine-resistant Plasmodium falciparum strains, with half-maximal inhibitory concentration values ranging from 0.06 to 0.3 μM. Compounds 1 and 4 also displayed potent in vivo antiplasmodial activity against drug-sensitive rodent malaria Plasmodium berghei N strain, with inhibition rates of 47.6 and 43.1%, respectively, on intraperitoneal administration at a dose of 5 mg kg-1 day-1 for 4 days.

DOI： 10.1021/acs.jnatprod.3c01285

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Actinomycetes are well-known as the main producers of bioactive compounds such as antibiotics, anticancers, and immunosuppressants. Screening of natural products from actinomycetes has been an essential part of several drug discovery programs. Finding such novel biologically active metabolites is immensely important because of their beneficial health effects. Recently, the discovery of new compounds has diverted attention to rare actinomycetes, since they are rich sources of natural products. In this study, a collection of rare actinomycetes at Kitasato University has been screened for potential novel compound producers. Among the rare actinomycetes, Saccharopolyspora sp. KR21-0001 isolated from soil on Ōha Island, Okinawa, Japan was selected as a potential producer. The strain was cultured in 20 L of production medium in a jar fermenter and the culture broth was extracted. Further purification revealed the presence of a new compound designated KR21-0001A (1). The structure was elucidated by NMR, and the absolute stereochemistry was determined by advanced Marfey's method. The results indicated that 1 is a new analog of dihydroxybenzoic acid. 1 has no antimicrobial activity against bacteria and fungi but showed potent antioxidant activity.

DOI： 10.3762/bjoc.20.44

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A new peptide, emblestatin (1), was discovered from a culture broth of Embleya scabrispora K20-0267. This strain was isolated from soil using an agar medium containing lysozyme. Based on NMR and mass spectrometric analyses, 1 consists of 2-(2-hydroxyphenyl)-2-oxazoline, β-alanine, glutamine, Nα-methyl-Nω-hydroxyornithine and 3-amino-1-hydroxy-2-piperidone moieties. Further analysis using the advanced Marfey's method revealed that all amino acids with the stereogenic α-carbon in 1 had the L configuration. Compound 1 exhibited iron chelating activity and weak antibacterial activity against Proteus vulgaris and Staphylococcus aureus.

DOI： 10.1038/s41429-023-00645-8

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Language：English   Publishing type：Research paper (scientific journal)  

Limited microbial genera such as Streptomyces have served as sources of natural products (NPs), whereas most others have been less investigated. The vast accumulation of genomic data available in the NCBI database enables us to bioinformatically estimate the ability of other microbial groups to produce NPs. We analyzed 21,052 complete bacterial genome sequences using antiSMASH and compared the average numbers of biosynthetic gene clusters (BGCs) related to polyketides, non-ribosomal peptides, and/or terpenes biosynthesis at the genus level. Our bioinformatic analyses showed that Tumebacillus has 5-15 BGCs and is a promising NP producer. We searched for NPs from the culture broth of Tumebacillus permanentifrigoris JCM 14557T and found two novel compounds (tumebacin with anti-Bacillus activity and tumepyrazine) and identified two known compounds. Our results highlight the diversity of sources of NPs awaiting discovery.

DOI： 10.1038/s41429-023-00609-y

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Language：Japanese   Publisher：日本細菌学会  

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Language：English   Publishing type：Research paper (scientific journal)   Publisher：Springer Science and Business Media LLC  

The blaNDM-1 gene encodes a carbapenemase, New Delhi metallo-β-lactamase (NDM-1), and the ability to produce NDM-1 is spread among Enterobacteriaceae via horizontal gene transfer of plasmids. It has been widely accepted that blaNDM-1 is regulated by a hybrid promoter (PISAba125) consisting of a -10 box from the original blaNDM-1 and a -35 box from ISAba125. However, the conservation of this promoter and the vertical transmission of blaNDM genes by chromosomal integration have not been comprehensively analyzed. We retrieved the region containing the ORF of blaNDM-1 (>95% translated protein identity) and a region 120 bp upstream of the blaNDM-1 start codon from the complete sequence data of Enterobacteriaceae plasmids (n = 10,914) and chromosomes (n = 4908) deposited in GenBank, and the 310 extracted blaNDM genes were analyzed by an in-silico approach. The results showed that most blaNDM genes (99.0%) utilized the promoter, PISAba125. Interestingly, two blaNDM-1 genes from the genus Citrobacter utilized the ISCR1-derived outward-oriented promoters POUT (PISCR1). Furthermore, the insertion of ISAba125 and ISCR1 occurred upstream of the CCATATTT sequence, which is located upstream of the -10 box. We also confirmed that most of the blaNDM genes were disseminated by horizontal gene transfer of the plasmid, but 10 cases of the blaNDM genes were integrated into the chromosome via mobile genetic elements such as IS26, IS150, ISCR1, ICE, and Tn7-like elements. Thus, plasmid-mediated transmission of the PISAba125-blaNDM genes is predominant in Enterobacteriaceae. However, the spread of blaNDM genes with new promoters and vertical dissemination via chromosomal integrations may pose additional serious clinical problems.

DOI： 10.1038/s41429-022-00553-3

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Other Link： https://www.nature.com/articles/s41429-022-00553-3

Event date： 2022.3

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Language：English  

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Language：Japanese   Presentation type：Oral presentation (general)  

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