Mark Poli scite author profile

In June of 1996, three family members were diagnosed as suffering from neurotoxic shellfish poisoning (NSP) as a result of eating shellfish harvested from Sarasota Bay, Florida. Urine from two of these patients and extracts of shellfish collected from the same location were analyzed by radioimmunoassay (RIA) and by receptor binding assay. Activity consistent with brevetoxins was present in both urine and shellfish extracts. High performance liquid chromatographic (HPLC) analysis of shellfish extracts demonstrated multiple fractions recognized by specific anti-brevetoxin antibodies, suggesting metabolic conversion of parent brevetoxins. Affinity-purification of these extracts yielded four major peaks of activity. One peak was identified by HPLC-mass spectroscopy (HPLC-MS) to be PbTx-3, which was likely produced metabolically from the dominant parent toxin PbTx-2. No PbTx-2, however, was detected. Other peaks of activity were determined to consist of compounds of apparent masses of [M + H]+ of 1018, 1034, and 1005. These higher masses are suggestive of conjugated metabolites, but their structures have yet to be determined. The material associated with these latter three peaks were recognized by both RIA and receptor binding assay, but they quantitated differently. This finding suggests that these metabolites react differently in the two assays, and this result may have important implications for seafood safety and regulation. We suggest these metabolites to be the true cause of NSP, and they should be taken into account during regulatory testing.

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Strain dependent production of ciguatoxin precursors (gambiertoxins) by Gambierdiscus toxicus (Dinophyceae) in culture

Holmes¹,

Lewis²,

Poli

et al. 1991

Toxicon

142

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Stereostructure and Biological Activity of 42-Hydroxy-palytoxin: A New Palytoxin Analogue from Hawaiian Palythoa Subspecies

Ciminiello

Dell’Aversano²,

Iacovo³

et al. 2009

Chem. Res. Toxicol.

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This paper reports on the analysis of the toxin content from Palythoa tuberculosa and Palythoa toxica samples collected off of the Hawaiian coast. Our work, based on in-depth high-resolution liquid chromatography-mass spectrometry analysis along with extensive NMR study, led us to structurally characterize 42-hydroxy-palytoxin, a new palytoxin congener. This toxin and palytoxin itself appeared to be the major components of toxic extract from a P. tuberculosa sample, while 42-hydroxy-palytoxin was proven by far to be the main palytoxin derivative in P. toxica. Functional studies on this new palytoxin-like compound suggest that the new palytoxin analogue and palytoxin itself present similar biological activities.

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Hypertension and identification of toxin in human urine and serum following a cluster of mussel-associated paralytic shellfish poisoning outbreaks

Gessner

Bell

Doucette

et al. 1997

Toxicon

113

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Mark Poli

Purification and characterization of ciguatoxins from moray eel (Lycodontis javanicus, Muraenidae)

Neurotoxic shellfish poisoning and brevetoxin metabolites: a case study from Florida

Strain dependent production of ciguatoxin precursors (gambiertoxins) by Gambierdiscus toxicus (Dinophyceae) in culture

Stereostructure and Biological Activity of 42-Hydroxy-palytoxin: A New Palytoxin Analogue from Hawaiian Palythoa Subspecies

Hypertension and identification of toxin in human urine and serum following a cluster of mussel-associated paralytic shellfish poisoning outbreaks

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