Brevetoxin 6

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Category Mycotoxins
Catalog number BBF-00179
CAS
Molecular Weight 911.08
Molecular Formula C50H70O15

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Description

Brevetoxin 6 is a polyacyl toxoid produced by Ptychodiscus brevis (Gymnodiniuin bervis).

Specification

Synonyms Brevetoxin PbTx-6
IUPAC Name 2-[[(6R,19S,26R,28S,36S,37S,39R,50S)-37-hydroxy-6,16,19,26,28,36,50-heptamethyl-14-oxo-4,9,13,18,22,27,31,35,40,44,47,51-dodecaoxadodecacyclo[26.23.0.03,26.05,23.08,21.010,19.012,17.030,50.032,45.034,43.036,41.046,48]henpentacont-15-en-39-yl]methyl]prop-2-enal
Canonical SMILES CC1CC2C(CC3(C(O2)CC4C(O3)C(=CC(=O)O4)C)C)OC5C1OC6CC7C(CC8C(O7)(CC9C(O9)C1C(O8)CC2C(O1)CC1C(O2)(C(CC(O1)CC(=C)C=O)O)C)C)(OC6(CC5)C)C
InChI InChI=1S/C50H70O15/c1-23(22-51)11-26-14-35(52)50(8)39(54-26)16-29-30(62-50)15-31-44(59-29)45-34(60-45)20-48(6)40(57-31)21-49(7)38(63-48)18-37-46(4,65-49)10-9-27-42(61-37)24(2)12-28-33(55-27)19-47(5)36(56-28)17-32-43(64-47)25(3)13-41(53)58-32/h13,22,24,26-40,42-45,52H,1,9-12,14-21H2,2-8H3/t24-,26-,27?,28?,29?,30?,31?,32?,33?,34?,35+,36?,37?,38?,39?,40?,42?,43?,44?,45?,46-,47+,48+,49+,50+/m1/s1
InChI Key XXPMBLWPRXRSBN-BZOZQHOFSA-N

Properties

Melting Point 295-297°C

Reference Reading

1. Semisynthesis of radiolabeled amino acid and lipid brevetoxin metabolites and their blood elimination kinetics in C57BL/6 mice
Tod A Leighfield, Noah Muha, Christopher O Miles, John S Ramsdell Chem Res Toxicol. 2013 Jun 17;26(6):868-77. doi: 10.1021/tx4000057. Epub 2013 May 30.
Brevetoxin B (BTX-B), produced by dinoflagellates of the species Karenia, is a highly reactive molecule, due in part to an α,β-unsaturated aldehyde group at the terminal side chain, leading to the production of metabolites in shellfish by reduction, oxidation, and conjugation. We have investigated in mice the blood elimination of three common bioactive brevetoxin metabolites found in shellfish, which have been semisynthesized from BTX-B in radioactive forms. BTX-B was reduced at C42 to yield [(3)H] dihydro-BTX-B. [(3)H] S-desoxy-BTX-B2 (cysteine brevetoxin B) was semisynthesized from BTX-B by the conjugation of cysteine at the C50 olefinic group then [(3)H] radiolabeled by C42 aldehyde reduction. [(14)C] N-Palmitoyl-S-desoxy-BTX-B2 was prepared using S-desoxy-BTX-B2 as the starting material with addition of the [(14)C] radiolabeled fatty acid via cysteine-amide linkage. The elimination of intravenously administered [(3)H] S-desoxy-BTX-B2, [(14)C] N-palmitoyl-S-desoxy-BTX-B2, or [(3)H] dihydro-BTX-B was measured in blood collected from C57BL/6 mice over a 48 h period. Each brevetoxin metabolite tested exhibited biexponential elimination kinetics and fit a two-compartment model of elimination that was applied to generate toxicokinetic parameters. The rate of transfer between the central compartment (i.e., blood) and the peripheral compartment (e.g., tissue) for each brevetoxin differed substantially, with dihydro-BTX-B exchanging rapidly with the peripheral compartment, S-desoxy-BTX-B2 eliminating rapidly from the central compartment, and N-palmitoyl-S-desoxy-BTX-B2 eliminating slowly from the central compartment. Toxicokinetic parameters were analyzed in the context of the unique structure of each brevetoxin metabolite resulting from a reduction, amino acid conjugation, or fatty acid addition to BTX-B.
2. Profiling of Brevetoxin Metabolites Produced by Karenia brevis 165 Based on Liquid Chromatography-Mass Spectrometry
Huihui Shen, Xiuxian Song, Yue Zhang, Peipei Zhang, Jing Li, Weijia Song, Zhiming Yu Toxins (Basel). 2021 May 14;13(5):354. doi: 10.3390/toxins13050354.
In this study, Karenia brevis 165 (K. brevis 165), a Chinese strain, was used to research brevetoxin (BTX) metabolites. The sample pretreatment method for the enrichment of BTX metabolites in an algal culture medium was improved here. The method for screening and identifying intracellular and extracellular BTX metabolites was established based on liquid chromatography-time-of-flight mass spectrometry (LC-ToF-MS) and liquid chromatography triple quadrupole tandem mass spectrometry (LC-QqQ-MS/MS). The results show that the recovery rates for BTX toxins enriched by a hydrophilic-lipophilic balance (HLB) extraction column were higher than those with a C18 extraction column. This method was used to analyze the profiles of extracellular and intracellular BTX metabolites at different growth stages of K. brevis 165. This is the first time a Chinese strain of K. brevis has been reported that can produce toxic BTX metabolites. Five and eight kinds of BTX toxin metabolites were detected in the cell and culture media of K. brevis 165, respectively. Brevenal, a toxic BTX metabolite antagonist, was found for the first time in the culture media. The toxic BTX metabolites and brevenal in the K. brevis 165 cell and culture media were found to be fully proven in terms of the necessity of establishing a method for screening and identifying toxic BTX metabolites. The results found by qualitatively and quantitatively analyzing BTX metabolites produced by K. brevis 165 at different growth stages show that the total toxic BTX metabolite contents in single cells ranged between 6.78 and 21.53 pg/cell, and the total toxin concentration in culture media ranged between 10.27 and 449.11 μg/L. There were significant differences in the types and contents of toxic BTX metabolites with varying growth stages. Therefore, when harmful algal blooms occur, the accurate determination of BTX metabolite types and concentrations will be helpful to assess the ecological disaster risk in order to avoid hazards and provide appropriate disaster warnings.
3. Brevetoxin inhalation alters the pulmonary response to influenza A in the male F344 rat
Janet M Benson, Molly L Wolf, Adriana Kajon, Brad M Tibbetts, Andrea J Bourdelais, Daniel G Baden, Thomas H March J Toxicol Environ Health A. 2011;74(5):313-24. doi: 10.1080/15287394.2010.519316.
Epidemiological studies demonstrated that the number of emergency-room visits for respiratory indications increases during periods of Florida Red Tides. The purpose of this study was to examine whether or not repeated brevetoxin inhalation, as may occur during a Florida Red Tide, affects pulmonary responses to influenza A. Male F344 rats were divided into four groups: (1) sham aerosol/no influenza; (2) sham aerosol/influenza; (3) brevetoxin/no influenza; and (4) brevetoxin/influenza. Animals were exposed by nose-only inhalation to vehicle or 50 μg brevetoxin-3/m3, 2 h/d for 12 d. On d 6 of aerosol exposure, groups 2 and 4 were administered 10,000 plaque-forming units of influenza A, strain HKX-31 (H3N2), by intratracheal instillation. Subgroups were euthanized at 2, 4, and 7 d post influenza treatment. Lungs were evaluated for viral load, cytokine content, and histopathologic changes. Influenza virus was cleared from the lungs over the 7-d period; however, there was significantly more virus remaining in the group 4 lungs compared to group 2. Influenza virus significantly increased interleukins-1α and -6 and monocyte chemotactic protein-1 in lung; brevetoxin exposure significantly enhanced the influenza-induced response. At 7 d, the severity of perivascular and peribronchiolar inflammatory cell infiltrates was greatest in group 4. Bronchiolitis persisted, with low incidence and severity, only in group 4 at d 7. These results suggest that repeated inhalation exposure to brevetoxin may delay virus particle clearance and recovery from influenza A infection in the rat lung.

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