Integration of Genomic Data with NMR Analysis Enables Assignment of the Full Stereostructure of Neaumycin B, a Potent Inhibitor of Glioblastoma from a Marine-Derived Micromonospora

The microbial metabolites known as the macrolides are some of the most successful natural products used to treat infectious and immune diseases. Describing the structures of these complex metabolites, however, is often extremely difficult due to the presence of multiple stereogenic centers inherent...

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Published inJournal of the American Chemical Society Vol. 140; no. 34; pp. 10775 - 10784
Main Authors Kim, Min Cheol, Machado, Henrique, Jang, Kyoung Hwa, Trzoss, Lynnie, Jensen, Paul R, Fenical, William
Format Journal Article
LanguageEnglish
Published WASHINGTON American Chemical Society 29.08.2018
Amer Chemical Soc
Subjects
Amino Acid Sequence
Antineoplastic Agents - chemistry
Antineoplastic Agents - isolation & purification
Antineoplastic Agents - pharmacology
bacteria
bioinformatics
biosynthesis
Carbon-13 Magnetic Resonance Spectroscopy
Cell Line, Tumor
Chemistry
Chemistry, Multidisciplinary
Computational Biology
crystallization
cytotoxicity
derivatization
enzymes
genome mining
Genomics - methods
glioblastoma
Humans
macrolides
Macrolides - chemistry
Macrolides - isolation & purification
Macrolides - pharmacology
metabolites
Micromonospora
Micromonospora - chemistry
Micromonospora - genetics
Multigene Family
nuclear magnetic resonance spectroscopy
nucleotide sequences
Physical Sciences
Science & Technology
Sequence Alignment
Stereoisomerism
stereospecificity
X-ray diffraction
MODULAR POLYKETIDE SYNTHASES
SUBSTRATE-SPECIFICITY
COMPLEX
STREPTOMYCES
NONRIBOSOMAL PEPTIDE ANTIBIOTICS
BIOSYNTHESIS
MACROLIDE
CONFIGURATION
STEREOCHEMICAL DETERMINATION
COUPLING-CONSTANTS
Online AccessGet full text
ISSN0002-7863
1520-5126
1520-5126
DOI10.1021/jacs.8b04848

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Abstract The microbial metabolites known as the macrolides are some of the most successful natural products used to treat infectious and immune diseases. Describing the structures of these complex metabolites, however, is often extremely difficult due to the presence of multiple stereogenic centers inherent in this class of polyketide-derived metabolites. With the availability of genome sequence data and a better understanding of the molecular genetics of natural product biosynthesis, it is now possible to use bioinformatic approaches in tandem with spectroscopic tools to assign the full stereostructures of these complex metabolites. In our quest to discover and develop new agents for the treatment of cancer, we observed the production of a highly cytotoxic macrolide, neaumycin B, by a marine-derived actinomycete bacterium of the genus Micromonospora. Neaumycin B is a complex polycyclic macrolide possessing 19 asymmetric centers, usually requiring selective degradation, crystallization, derivatization, X-ray diffraction analysis, synthesis, or other time-consuming approaches to assign the complete stereostructure. As an alternative approach, we sequenced the genome of the producing strain and identified the neaumycin gene cluster (neu). By integrating the known stereospecificities of biosynthetic enzymes with comprehensive NMR analysis, the full stereostructure of neaumycin B was confidently assigned. This approach exemplifies how mining gene cluster information while integrating NMR-based structure data can achieve rapid, efficient, and accurate stereostructural assignments for complex macrolides.
AbstractList The microbial metabolites known as the macrolides are some of the most successful natural products used to treat infectious and immune diseases. Describing the structures of these complex metabolites, however, is often extremely difficult due to the presence of multiple stereogenic centers inherent in this class of polyketide-derived metabolites. With the availability of genome sequence data and a better understanding of the molecular genetics of natural product biosynthesis, it is now possible to use bioinformatic approaches in tandem with spectroscopic tools to assign the full stereostructures of these complex metabolites. In our quest to discover and develop new agents for the treatment of cancer, we observed the production of a highly cytotoxic macrolide, neaumycin B, by a marine-derived actinomycete bacterium of the genus Micromonospora. Neaumycin B is a complex polycyclic macrolide possessing 19 asymmetric centers, usually requiring selective degradation, crystallization, derivatization, X-ray diffraction analysis, synthesis, or other time-consuming approaches to assign the complete stereostructure. As an alternative approach, we sequenced the genome of the producing strain and identified the neaumycin gene cluster (neu). By integrating the known stereospecificities of biosynthetic enzymes with comprehensive NMR analysis, the full stereostructure of neaumycin B was confidently assigned. This approach exemplifies how mining gene cluster information while integrating NMR-based structure data can achieve rapid, efficient, and accurate stereostructural assignments for complex macrolides.
The microbial metabolites known as the macrolides are some of the most successful natural products used to treat infectious and immune diseases. Describing the structures of these complex metabolites, however, is often extremely difficult due to the presence of multiple stereogenic centers inherent in this class of polyketide-derived metabolites. With the availability of genome sequence data and a better understanding of the molecular genetics of natural product biosynthesis, it is now possible to use bioinformatic approaches in tandem with spectroscopic tools to assign the full stereostructures of these complex metabolites. In our quest to discover and develop new agents for the treatment of cancer, we observed the production of a highly cytotoxic macrolide, neaumycin B, by a marine-derived actinomycete bacterium of the genus Micromonospora. Neaumycin B is a complex polycyclic macrolide possessing 19 asymmetric centers, usually requiring selective degradation, crystallization, derivatization, X-ray diffraction analysis, synthesis, or other time-consuming approaches to assign the complete stereostructure. As an alternative approach, we sequenced the genome of the producing strain and identified the neaumycin gene cluster ( neu). By integrating the known stereospecificities of biosynthetic enzymes with comprehensive NMR analysis, the full stereostructure of neaumycin B was confidently assigned. This approach exemplifies how mining gene cluster information while integrating NMR-based structure data can achieve rapid, efficient, and accurate stereostructural assignments for complex macrolides.The microbial metabolites known as the macrolides are some of the most successful natural products used to treat infectious and immune diseases. Describing the structures of these complex metabolites, however, is often extremely difficult due to the presence of multiple stereogenic centers inherent in this class of polyketide-derived metabolites. With the availability of genome sequence data and a better understanding of the molecular genetics of natural product biosynthesis, it is now possible to use bioinformatic approaches in tandem with spectroscopic tools to assign the full stereostructures of these complex metabolites. In our quest to discover and develop new agents for the treatment of cancer, we observed the production of a highly cytotoxic macrolide, neaumycin B, by a marine-derived actinomycete bacterium of the genus Micromonospora. Neaumycin B is a complex polycyclic macrolide possessing 19 asymmetric centers, usually requiring selective degradation, crystallization, derivatization, X-ray diffraction analysis, synthesis, or other time-consuming approaches to assign the complete stereostructure. As an alternative approach, we sequenced the genome of the producing strain and identified the neaumycin gene cluster ( neu). By integrating the known stereospecificities of biosynthetic enzymes with comprehensive NMR analysis, the full stereostructure of neaumycin B was confidently assigned. This approach exemplifies how mining gene cluster information while integrating NMR-based structure data can achieve rapid, efficient, and accurate stereostructural assignments for complex macrolides.
Author Machado, Henrique
Jensen, Paul R
Jang, Kyoung Hwa
Trzoss, Lynnie
Kim, Min Cheol
Fenical, William
AuthorAffiliation Center for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography
University of California, San Diego
Moores Comprehensive Cancer Center
Center for Microbiome Innovation
Skaggs School of Pharmacy and Pharmaceutical Sciences
AuthorAffiliation_xml – name: Moores Comprehensive Cancer Center
– name: University of California, San Diego
– name: Skaggs School of Pharmacy and Pharmaceutical Sciences
– name: Center for Microbiome Innovation
– name: Center for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography
– name: Skaggs School of Pharmacy and Pharmaceutical Sciences, University of California, San Diego, La Jolla, California 92093-0204, United States
– name: Center for Microbiome Innovation, University of California, San Diego, La Jolla, California 92093-0204, United States
– name: Moores Comprehensive Cancer Center, University of California, San Diego, La Jolla, California 92093-0204, United States
– name: Center for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography, University of California, San Diego, La Jolla, California 92093-0204, United States
Author_xml – sequence: 1
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  surname: Kim
  fullname: Kim, Min Cheol
  organization: Center for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography
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  organization: Center for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography
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  surname: Jang
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  surname: Trzoss
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/30085661$$D View this record in MEDLINE/PubMed
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Issue 34
Keywords MODULAR POLYKETIDE SYNTHASES
SUBSTRATE-SPECIFICITY
COMPLEX
STREPTOMYCES
NONRIBOSOMAL PEPTIDE ANTIBIOTICS
BIOSYNTHESIS
MACROLIDE
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content type line 23
M. C. Kim and H. Machado contributed equally.
Korea Ginseng Research Institute, Korea Ginseng Corporation, Daejeon 305-805, South Korea.
Jecure Therapeutics Inc., 4757 Nexus Center Drive, Suite 150, San Diego, California 92121, United States.
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SSID ssj0004281
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Snippet The microbial metabolites known as the macrolides are some of the most successful natural products used to treat infectious and immune diseases. Describing the...
Source Web of Science
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proquest
pubmed
webofscience
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acs
SourceType Open Access Repository
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Enrichment Source
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StartPage 10775
SubjectTerms Amino Acid Sequence
Antineoplastic Agents - chemistry
Antineoplastic Agents - isolation & purification
Antineoplastic Agents - pharmacology
bacteria
bioinformatics
biosynthesis
Carbon-13 Magnetic Resonance Spectroscopy
Cell Line, Tumor
Chemistry
Chemistry, Multidisciplinary
Computational Biology
crystallization
cytotoxicity
derivatization
enzymes
genome mining
Genomics - methods
glioblastoma
Humans
macrolides
Macrolides - chemistry
Macrolides - isolation & purification
Macrolides - pharmacology
metabolites
Micromonospora
Micromonospora - chemistry
Micromonospora - genetics
Multigene Family
nuclear magnetic resonance spectroscopy
nucleotide sequences
Physical Sciences
Science & Technology
Sequence Alignment
Stereoisomerism
stereospecificity
X-ray diffraction
Title Integration of Genomic Data with NMR Analysis Enables Assignment of the Full Stereostructure of Neaumycin B, a Potent Inhibitor of Glioblastoma from a Marine-Derived Micromonospora
URI http://dx.doi.org/10.1021/jacs.8b04848
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https://www.ncbi.nlm.nih.gov/pubmed/30085661
https://www.proquest.com/docview/2085655479
https://www.proquest.com/docview/2237505543
https://pubmed.ncbi.nlm.nih.gov/PMC6533909
Volume 140
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