Pristinamycin IIB
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Category | Antibiotics |
Catalog number | BBF-02586 |
CAS | 21102-49-8 |
Molecular Weight | 527.61 |
Molecular Formula | C28H37N3O7 |
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Description
Pristinamycin IIB is an ester peptide antibiotic produced by Str. pristinaespiralis 5647 (NRRL 2958). Activity against gram-positive bacteria.
Specification
Synonyms | Volpristin; Virginiamycin M2 |
IUPAC Name | (7R,10R,11R,12E,17E,19E,21S)-21-hydroxy-11,19-dimethyl-10-propan-2-yl-9,26-dioxa-3,15,28-triazatricyclo[23.2.1.03,7]octacosa-1(27),12,17,19,25(28)-pentaene-2,8,14,23-tetrone |
Canonical SMILES | CC1C=CC(=O)NCC=CC(=CC(CC(=O)CC2=NC(=CO2)C(=O)N3CCCC3C(=O)OC1C(C)C)O)C |
InChI | InChI=1S/C28H37N3O7/c1-17(2)26-19(4)9-10-24(34)29-11-5-7-18(3)13-20(32)14-21(33)15-25-30-22(16-37-25)27(35)31-12-6-8-23(31)28(36)38-26/h5,7,9-10,13,16-17,19-20,23,26,32H,6,8,11-12,14-15H2,1-4H3,(H,29,34)/b7-5+,10-9+,18-13+/t19-,20-,23-,26-/m1/s1 |
InChI Key | JOOMGSFOCRDAHL-WPZKFCHQSA-N |
Properties
Antibiotic Activity Spectrum | Gram-positive bacteria |
Boiling Point | 809.5±65.0°C at 760 mmHg |
Density | 1.3±0.1 g/cm3 |
Reference Reading
1. Mobile lincosamide resistance genes in staphylococci
Andrea T Feßler, Yang Wang, Congming Wu, Stefan Schwarz Plasmid. 2018 Sep;99:22-31. doi: 10.1016/j.plasmid.2018.06.002. Epub 2018 Jun 19.
Lincosamide resistance in staphylococci is based on the expression of a number of genes which specify three major resistance mechanisms: (i) enzymatic inactivation by lincosamide nucleotidyltransferases, (ii) ribosome protection by ABC-F proteins, and (iii) methylation of the ribosomal target sites in the 23S rRNA by Cfr or Erm methylases. So far, only two lnu genes, lnu(A) and lnu(B), which code for different types of lincosamide nucleotidyltransferases, have been found in staphylococci. The ABC-F proteins are encoded by genes of the vga, lsa and sal classes. The corresponding proteins exhibit ATP-binding domains, but lack transmembrane regions. So far, vga(A) genes - including the variant genes vga(A)V and vga(A)LC -, vga(C) genes and vga(E) genes - including the variant gene vga(E)V -, the lsa genes lsa(B) and lsa(E), as well as the sal(A) gene have been identified in staphylococci. The aforementioned genes, except lsa(B), confer resistance not only to lincosamides, but also to pleuromutilins and streptogramin A. The cfr and erm genes code for methylases which target the adenine residues at positions 2503 and 2048 in the 23S rRNA, respectively. While the cfr gene confers resistance to phenicols, lincosamides, oxazolidinones, pleuromutilins and streptogramin A, the erm genes mediate resistance to macrolides, lincosamides and streptogramin B. Many of the aforementioned lincosamide resistance genes are located on either plasmids or transposons and as such, can easily be disseminated across strain, species, and genus boundaries. The co-location of other antimicrobial resistance genes on the same mobile genetic element facilitates co-selection and persistence of the lincosamide resistance genes under the selective pressure imposed by other antimicrobial agents.
2. Small Antimicrobial Resistance Plasmids in Livestock-Associated Methicillin-Resistant Staphylococcus aureus CC398
Andrea Feßler, Kristina Kadlec, Yang Wang, Wan-Jiang Zhang, Congming Wu, Jianzhong Shen, Stefan Schwarz Front Microbiol. 2018 Sep 19;9:2063. doi: 10.3389/fmicb.2018.02063. eCollection 2018.
Livestock-associated methicillin-resistant Staphylococcus aureus (LA-MRSA) isolates of the clonal complex 398 are often resistant to a number of antimicrobial agents. Studies on the genetic basis of antimicrobial resistance in these bacteria identified SCCmec cassettes, various transposons and plasmids of different sizes that harbor antimicrobial resistance genes. While large plasmids that carry multiple antimicrobial resistance genes - occasionally together with heavy metal resistance genes and/or virulence genes - are frequently seen in LA-MRSA ST398, certain resistance genes are also associated with small plasmids of up to 15 kb in size. These small resistance plasmids usually carry only one, but in rare cases also two or three antimicrobial resistance genes. In the current review, we focus on small plasmids that carry the macrolide-lincosamide-streptogramin B resistance genes erm(C) or erm(T), the lincosamide resistance gene lnu(A), the pleuromutilin-lincosamide-streptogramin A resistance genes vga(A) or vga(C), the spectinomycin resistance gene spd, the apramycin resistance gene apmA, or the trimethoprim resistance gene dfrK. The detailed analysis of the structure of these plasmids allows comparisons with similar plasmids found in other staphylococci and underlines in many cases an exchange of such plasmids between LA-MRSA ST398 and other staphylococci including also coagulase-negative staphylococci.
3. A stepwise increase in pristinamycin II biosynthesis by Streptomyces pristinaespiralis through combinatorial metabolic engineering
Lei Li, Yawei Zhao, Lijun Ruan, Sheng Yang, Mei Ge, Weihong Jiang, Yinhua Lu Metab Eng. 2015 May;29:12-25. doi: 10.1016/j.ymben.2015.02.001. Epub 2015 Feb 20.
Pristinamycin, which is a streptogramin antibiotic produced by Streptomyces pristinaespiralis, contains two chemically unrelated compounds, pristinamycin I (PI) and pristinamycin II (PII). Semi-synthetic derivatives of PI and PII have been approved for use in human medicine to treat a broad range of drug-resistant pathogens. In this study, we design and implement a combinatorial metabolic engineering strategy for improving PII production. First, an extra copy of the PII biosynthetic gene cluster, which was assembled using a modified Gibson assembly method for cloning large DNA fragments with high GC contents, was introduced into a high-producing strain S. pristinaespiralis HCCB10218. This duplication of the PII biosynthetic gene cluster resulted in a maximum increase in PII titer by 45%. Second, all seven cluster-situated regulatory genes (from papR1 to papR6 and spbR) were systematically manipulated. Higher PII titers were achieved by deleting either one of the two repressor genes papR3 or papR5 in combination with overexpression of both activator genes papR4 and papR6, and the resulting strains ∆papR3+R4R6 and ∆papR5+R4R6 showed maximum increases in PII production by 99% and 75%, respectively. A combination of the above two different approaches was employed. Integration of the assembled PII gene cluster (BAC-F1F15) into ∆papR5+R4R6 led to the highest PII titer improvement, which was approximately 1.5-fold higher than the parental strain. By adding the macroreticular resin, which can separate pristinamycin in situ and thereby lessen end-product feedback inhibition and toxic effects, PII titers of the final engineered strain ∆papR5+R4R6/BAC-F1F15 reached 1.13 and 1.16g/L in the Erlenmeyer flask and 5-L bioreactor, respectively, with 5.13- and 5.26-fold improvements over the parental strain. Taken together, this combinatorial strategy is an efficient method to optimize PII biosynthesis of S. pristinaespiralis and may be extended to other industrially used streptomycetes for strain improvement.
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