Neomycin B Sulfate

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Neomycin B Sulfate
Category Antibiotics
Catalog number BBF-05814
CAS 25389-98-4
Molecular Weight 712.72
Molecular Formula C23H46N6O13.H2O4S
Purity ≥95%

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Description

Neomycin B Sulfate is the sulfate salt form of Neomycin B, an aminoglycoside antibiotic.

Specification

Related CAS 119-04-0 (free base) 4146-30-9 (trisulfate) 28002-70-2 (x-sulfate) 1405-10-3 (Neomycin sulfate (1:x)) 879480-48-5 (Neomycin trisulfate)
Synonyms O-2,6-Diamino-2,6-dideoxy-β-L-idopyranosyl-(1→3)-O-β-D-ribofuranosyl-(1→5)-O-[2,6-diamino-2,6-dideoxy-α-D-glucopyranosyl-(1→4)]-2-deoxy-D-streptamine Sulfate (1:1); Framycetin Sulphate; D-Streptamine, O-2,6-diamino-2,6-dideoxy-β-L-idopyranosyl-(1→3)-O-β-D-ribofuranosyl-(1→5)-O-[2,6-diamino-2,6-dideoxy-α-D-glucopyranosyl-(1→4)]-2-deoxy-, sulfate (1:1); Neomycin B monosulfate; D-Streptamine, O-2,6-diamino-2,6-dideoxy-α-D-glucopyranosyl-(1→4)-O-[O-2,6-diamino-2,6-dideoxy-β-L-idopyranosyl-(1→3)-β-D-ribofuranosyl-(1→5)]-2-deoxy-, sulfate (1:1) (salt); Neomycin B, sulfate (1:1) (salt); NSC 156885
Storage Store at -20°C
IUPAC Name (2R,3S,4R,5R,6R)-5-amino-2-(aminomethyl)-6-[(1R,2R,3S,4R,6S)-4,6-diamino-2-[(2S,3R,4S,5R)-4-[(2R,3R,4R,5S,6S)-3-amino-6-(aminomethyl)-4,5-dihydroxyoxan-2-yl]oxy-3-hydroxy-5-(hydroxymethyl)oxolan-2-yl]oxy-3-hydroxycyclohexyl]oxyoxane-3,4-diol;sulfuric acid
Canonical SMILES C1C(C(C(C(C1N)OC2C(C(C(C(O2)CN)O)O)N)OC3C(C(C(O3)CO)OC4C(C(C(C(O4)CN)O)O)N)O)O)N.OS(=O)(=O)O
InChI InChI=1S/C23H46N6O13.H2O4S/c24-2-7-13(32)15(34)10(28)21(37-7)40-18-6(27)1-5(26)12(31)20(18)42-23-17(36)19(9(4-30)39-23)41-22-11(29)16(35)14(33)8(3-25)38-22;1-5(2,3)4/h5-23,30-36H,1-4,24-29H2;(H2,1,2,3,4)/t5-,6+,7-,8+,9-,10-,11-,12+,13-,14-,15-,16-,17-,18-,19-,20-,21-,22-,23+;/m1./s1
InChI Key OIXVKQDWLFHVGR-WQDIDPJDSA-N

Properties

Appearance White to Off-white Solid
Melting Point >160°C (dec.)
Solubility Soluble in Aqueous Acid (Slightly), Water (Slightly)

Reference Reading

1. Neomycin B-cyclen conjugates and their Zn(II) complexes as RNA-binding agents
Bopha Kong, Tanmaya Joshi, Matthew J Belousoff, Yitzhak Tor, Bim Graham, Leone Spiccia J Inorg Biochem. 2016 Sep;162:334-342. doi: 10.1016/j.jinorgbio.2015.11.029. Epub 2015 Dec 31.
Three new conjugates featuring the aminoglycoside antibiotic neomycin B linked to the 1,4,7,10-tetraazacyclododecane (cyclen) macrocycle via alkyl chains of varying lengths were synthesized from suitably protected derivatives of these precursors via conventional peptide coupling protocols. The final products were characterized by 1H NMR spectroscopy, mass spectrometry, and elemental analysis. FRET-based measurements examining the ability of the compounds to displace coumarin-labelled kanamycin A or neomycin B from Dy547-labelled prokaryotic ribosomal A-site RNA revealed that they bind to the A-site with slightly higher affinities than the parent aminoglycoside (e.g., IC50 at pH7=1.42-2.30μM vs. 2.35μM for neomycin B). This is attributed to the higher overall positive charge of the conjugates, resulting from protonation of the macrocylic amines. Consistent with a predominantly electrostatic mode of interaction, the binding affinities of the conjugates were found to increase with decreasing pH, reflecting a greater degree of protonation at lower pH. The zinc(II) complexes of the neomycin B-cyclen conjugates were found to bind to A-site RNA with even higher affinities (IC50=0.85-1.32μM), due to the Zn(II)-cyclen motif forming coordinative (and/or electrostatic) interactions with the uracil bases and/or phosphate groups within the A-site. These results highlight the potential for the nucleic acid-binding properties of aminoglycosides to be tuned via the covalent attachment of metal complexes, which could ultimately prove useful to the development of new anti-bacterial and anti-viral agents.
2. Characterization of a radical S-adenosyl-L-methionine epimerase, NeoN, in the last step of neomycin B biosynthesis
Fumitaka Kudo, Shota Hoshi, Taiki Kawashima, Toshiaki Kamachi, Tadashi Eguchi J Am Chem Soc. 2014 Oct 1;136(39):13909-15. doi: 10.1021/ja507759f. Epub 2014 Sep 17.
The last step of neomycin biosynthesis is the epimerization at C-5‴ of neomycin C to give neomycin B. A candidate enzyme responsible for the epimerization was a putative radical S-adenosyl-L-methionine (SAM) enzyme, NeoN, which is uniquely encoded in the neomycin biosynthetic gene cluster and remained an unassigned protein in the neomycin biosynthesis. The reconstituted and reduced NeoN showed the expected epimerization activity in the presence of SAM. In the epimerization, 1 equiv of SAM was consumed to convert neomycin C into neomycin B. The site of neomycin C reactive toward epimerization was clearly confirmed to be C-5‴ by detecting the incorporation of a deuterium atom from the deuterium oxide-based buffer solution. Further, alanine scanning of the NeoN cysteine residues revealed that C249 is a critical amino acid residue that provides a hydrogen atom to complete the epimerization. Furthermore, electron paramagnetic resonance analysis of the C249A variant in the presence of SAM and neomycin C revealed that a radical intermediate is generated at the C-5‴ of neomycin C. Therefore, the present study clearly illustrates that the epimerization of neomycin C to neomycin B is catalyzed by a unique radical SAM epimerase NeoN with a radical reaction mechanism.
3. New Application of Neomycin B-Bisbenzimidazole Hybrids as Antifungal Agents
Nishad Thamban Chandrika, Sanjib K Shrestha, Nihar Ranjan, Anindra Sharma, Dev P Arya, Sylvie Garneau-Tsodikova ACS Infect Dis. 2018 Feb 9;4(2):196-207. doi: 10.1021/acsinfecdis.7b00254. Epub 2017 Dec 11.
Alkylated aminoglycosides and bisbenzimidazoles have previously been shown to individually display antifungal activity. Herein, we explore for the first time the antifungal activity (in liquid cultures and in biofilms) of ten alkylated aminoglycosides covalently linked to either mono- or bisbenzimidazoles. We also investigate their toxicity against mammalian cells, their hemolytic activity, and their potential mechanism(s) of action (inhibition of fungal ergosterol biosynthetic pathway and/or reactive oxygen species (ROS) production). Overall, many of our hybrids exhibited broad-spectrum antifungal activity. We also found them to be less cytotoxic to mammalian cells and less hemolytic than the FDA-approved antifungal agents amphotericin B and voriconazole, respectively. Finally, we show with our best derivative (8) that the mechanism of action of our compounds is not the inhibition of ergosterol biosynthesis, but that it involves ROS production in yeast cells.

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