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Mining Translation Inhibitors by a Unique Peptidyl-Aminonucleoside Synthetase Reveals Cystocin Biosynthesis and Self-Resistance

Puromycin (Puro) is a natural aminonucleoside antibiotic that inhibits protein synthesis by its incorporation into elongating peptide chains. The unique mechanism of Puro finds diverse applications in molecular biology, including the selection of genetically engineered cell lines, in situ protein sy...

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Published in:	International journal of molecular sciences 2024-12, Vol.25 (23), p.12901
Main Authors:	Alferova, Vera A, Zotova, Polina A, Baranova, Anna A, Guglya, Elena B, Belozerova, Olga A, Pipiya, Sofiya O, Kudzhaev, Arsen M, Logunov, Stepan E, Prokopenko, Yuri A, Marenkova, Elisaveta A, Marina, Valeriya I, Novikova, Evgenia A, Komarova, Ekaterina S, Starodumova, Irina P, Bueva, Olga V, Evtushenko, Lyudmila I, Ariskina, Elena V, Kovalchuk, Sergey I, Mineev, Konstantin S, Babenko, Vladislav V, Sergiev, Petr V, Lukianov, Dmitrii A, Terekhov, Stanislav S
Format:	Article
Language:	English
Subjects:	Amino acids Analysis Anti-Bacterial Agents - biosynthesis Anti-Bacterial Agents - pharmacology Antibiotics Bacterial Proteins - genetics Bacterial Proteins - metabolism Biosynthesis Cells Cysteine Dehydrogenases Drug resistance in microorganisms Enzymes Genetic engineering Genetically modified organisms Genomes Genomics Humans Metabolites Mines and mineral resources Multigene Family Peptide Synthases - genetics Peptide Synthases - metabolism Peptides Phylogenetics Protein Biosynthesis Protein synthesis Protein Synthesis Inhibitors - metabolism Protein Synthesis Inhibitors - pharmacology Proteins Puromycin - metabolism Puromycin - pharmacology Ribonucleic acid Rifamycins RNA Streptomyces - genetics Streptomyces - metabolism Transfer RNA
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creator	Alferova, Vera A Zotova, Polina A Baranova, Anna A Guglya, Elena B Belozerova, Olga A Pipiya, Sofiya O Kudzhaev, Arsen M Logunov, Stepan E Prokopenko, Yuri A Marenkova, Elisaveta A Marina, Valeriya I Novikova, Evgenia A Komarova, Ekaterina S Starodumova, Irina P Bueva, Olga V Evtushenko, Lyudmila I Ariskina, Elena V Kovalchuk, Sergey I Mineev, Konstantin S Babenko, Vladislav V Sergiev, Petr V Lukianov, Dmitrii A Terekhov, Stanislav S
description	Puromycin (Puro) is a natural aminonucleoside antibiotic that inhibits protein synthesis by its incorporation into elongating peptide chains. The unique mechanism of Puro finds diverse applications in molecular biology, including the selection of genetically engineered cell lines, in situ protein synthesis monitoring, and studying ribosome functions. However, the key step of Puro biosynthesis remains enigmatic. In this work, pur6-guided genome mining is carried out to explore the natural diversity of Puro-like antibiotics. The diversity of biosynthetic gene cluster (BGC) architectures suggests the existence of distinct structural analogs of puromycin encoded by pur-like clusters. Moreover, the presence of tRNA in some BGCs, i.e., -like clusters, leads us to the hypothesis that Pur6 utilizes aminoacylated tRNA as an activated peptidyl precursor, resulting in cysteine-based analogs. Detailed metabolomic analysis of sp. VKM Ac-502 containing -like BGC revealed the production of a cysteinyl-based analog of Puro-cystocin (Cst). Similar to puromycin, cystocin inhibits both prokaryotic and eukaryotic translation by the same mechanism. Aminonucleoside N-acetyltransferase CstC inactivated Cst, mediating antibiotic resistance in genetically modified bacteria and human cells. The substrate specificity of CstC originated from the steric hindrance of its active site. We believe that novel aminonucleosides and their inactivating enzymes can be developed through the directed evolution of the discovered biosynthetic machinery.
doi_str_mv	10.3390/ijms252312901
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The unique mechanism of Puro finds diverse applications in molecular biology, including the selection of genetically engineered cell lines, in situ protein synthesis monitoring, and studying ribosome functions. However, the key step of Puro biosynthesis remains enigmatic. In this work, pur6-guided genome mining is carried out to explore the natural diversity of Puro-like antibiotics. The diversity of biosynthetic gene cluster (BGC) architectures suggests the existence of distinct structural analogs of puromycin encoded by pur-like clusters. Moreover, the presence of tRNA in some BGCs, i.e., -like clusters, leads us to the hypothesis that Pur6 utilizes aminoacylated tRNA as an activated peptidyl precursor, resulting in cysteine-based analogs. Detailed metabolomic analysis of sp. VKM Ac-502 containing -like BGC revealed the production of a cysteinyl-based analog of Puro-cystocin (Cst). Similar to puromycin, cystocin inhibits both prokaryotic and eukaryotic translation by the same mechanism. Aminonucleoside N-acetyltransferase CstC inactivated Cst, mediating antibiotic resistance in genetically modified bacteria and human cells. The substrate specificity of CstC originated from the steric hindrance of its active site. 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The unique mechanism of Puro finds diverse applications in molecular biology, including the selection of genetically engineered cell lines, in situ protein synthesis monitoring, and studying ribosome functions. However, the key step of Puro biosynthesis remains enigmatic. In this work, pur6-guided genome mining is carried out to explore the natural diversity of Puro-like antibiotics. The diversity of biosynthetic gene cluster (BGC) architectures suggests the existence of distinct structural analogs of puromycin encoded by pur-like clusters. Moreover, the presence of tRNA in some BGCs, i.e., -like clusters, leads us to the hypothesis that Pur6 utilizes aminoacylated tRNA as an activated peptidyl precursor, resulting in cysteine-based analogs. Detailed metabolomic analysis of sp. VKM Ac-502 containing -like BGC revealed the production of a cysteinyl-based analog of Puro-cystocin (Cst). 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Academic</collection><jtitle>International journal of molecular sciences</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Alferova, Vera A</au><au>Zotova, Polina A</au><au>Baranova, Anna A</au><au>Guglya, Elena B</au><au>Belozerova, Olga A</au><au>Pipiya, Sofiya O</au><au>Kudzhaev, Arsen M</au><au>Logunov, Stepan E</au><au>Prokopenko, Yuri A</au><au>Marenkova, Elisaveta A</au><au>Marina, Valeriya I</au><au>Novikova, Evgenia A</au><au>Komarova, Ekaterina S</au><au>Starodumova, Irina P</au><au>Bueva, Olga V</au><au>Evtushenko, Lyudmila I</au><au>Ariskina, Elena V</au><au>Kovalchuk, Sergey I</au><au>Mineev, Konstantin S</au><au>Babenko, Vladislav V</au><au>Sergiev, Petr V</au><au>Lukianov, Dmitrii A</au><au>Terekhov, Stanislav S</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Mining Translation Inhibitors by a Unique Peptidyl-Aminonucleoside Synthetase Reveals Cystocin Biosynthesis and Self-Resistance</atitle><jtitle>International journal of molecular sciences</jtitle><addtitle>Int J Mol Sci</addtitle><date>2024-12-01</date><risdate>2024</risdate><volume>25</volume><issue>23</issue><spage>12901</spage><pages>12901-</pages><issn>1422-0067</issn><issn>1661-6596</issn><eissn>1422-0067</eissn><abstract>Puromycin (Puro) is a natural aminonucleoside antibiotic that inhibits protein synthesis by its incorporation into elongating peptide chains. The unique mechanism of Puro finds diverse applications in molecular biology, including the selection of genetically engineered cell lines, in situ protein synthesis monitoring, and studying ribosome functions. However, the key step of Puro biosynthesis remains enigmatic. In this work, pur6-guided genome mining is carried out to explore the natural diversity of Puro-like antibiotics. The diversity of biosynthetic gene cluster (BGC) architectures suggests the existence of distinct structural analogs of puromycin encoded by pur-like clusters. Moreover, the presence of tRNA in some BGCs, i.e., -like clusters, leads us to the hypothesis that Pur6 utilizes aminoacylated tRNA as an activated peptidyl precursor, resulting in cysteine-based analogs. Detailed metabolomic analysis of sp. VKM Ac-502 containing -like BGC revealed the production of a cysteinyl-based analog of Puro-cystocin (Cst). Similar to puromycin, cystocin inhibits both prokaryotic and eukaryotic translation by the same mechanism. Aminonucleoside N-acetyltransferase CstC inactivated Cst, mediating antibiotic resistance in genetically modified bacteria and human cells. The substrate specificity of CstC originated from the steric hindrance of its active site. We believe that novel aminonucleosides and their inactivating enzymes can be developed through the directed evolution of the discovered biosynthetic machinery.</abstract><cop>Switzerland</cop><pub>MDPI AG</pub><pmid>39684615</pmid><doi>10.3390/ijms252312901</doi><orcidid>https://orcid.org/0000-0003-1870-4092</orcidid><orcidid>https://orcid.org/0000-0003-2220-0452</orcidid><orcidid>https://orcid.org/0000-0001-8110-6509</orcidid><orcidid>https://orcid.org/0000-0003-1413-9559</orcidid><orcidid>https://orcid.org/0009-0001-2045-0952</orcidid><orcidid>https://orcid.org/0000-0001-5799-8164</orcidid><orcidid>https://orcid.org/0000-0001-8620-6998</orcidid><orcidid>https://orcid.org/0000-0002-2603-5506</orcidid><orcidid>https://orcid.org/0000-0003-2433-8201</orcidid><orcidid>https://orcid.org/0000-0002-5593-0403</orcidid><orcidid>https://orcid.org/0000-0001-8866-1863</orcidid><orcidid>https://orcid.org/0000-0002-6285-6395</orcidid><orcidid>https://orcid.org/0000-0002-8961-5890</orcidid><orcidid>https://orcid.org/0000-0002-2418-9421</orcidid><orcidid>https://orcid.org/0000-0002-5603-5371</orcidid><orcidid>https://orcid.org/0000-0003-2242-2127</orcidid><oa>free_for_read</oa></addata></record>
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identifier	ISSN: 1422-0067
ispartof	International journal of molecular sciences, 2024-12, Vol.25 (23), p.12901
issn	1422-0067 1661-6596 1422-0067
language	eng
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source	Publicly Available Content Database; PubMed Central
subjects	Amino acids Analysis Anti-Bacterial Agents - biosynthesis Anti-Bacterial Agents - pharmacology Antibiotics Bacterial Proteins - genetics Bacterial Proteins - metabolism Biosynthesis Cells Cysteine Dehydrogenases Drug resistance in microorganisms Enzymes Genetic engineering Genetically modified organisms Genomes Genomics Humans Metabolites Mines and mineral resources Multigene Family Peptide Synthases - genetics Peptide Synthases - metabolism Peptides Phylogenetics Protein Biosynthesis Protein synthesis Protein Synthesis Inhibitors - metabolism Protein Synthesis Inhibitors - pharmacology Proteins Puromycin - metabolism Puromycin - pharmacology Ribonucleic acid Rifamycins RNA Streptomyces - genetics Streptomyces - metabolism Transfer RNA
title	Mining Translation Inhibitors by a Unique Peptidyl-Aminonucleoside Synthetase Reveals Cystocin Biosynthesis and Self-Resistance
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