Current progress in isolation and characterization of toxins isolated from Pfiesteria piscicida.

The isolation and partial purification of toxic substances derived from Pfiesteria piscicida Steidinger & Burkholder extracts is described. Four distinct bioassay systems were used to monitor bioactivity of the P. piscicida extracts, including a high throughput cell cytotoxicity assay and a reporter gene assay as well as assays using brine shrimp and fish. Using these bioassays to guide fractionation, we have isolated two distinct, active fractions from Pfiesteria culture medium and cell mass extracts on the basis of their solubility characteristics. We have identified and characterized a bioactive lipophilic substance from Pfiesteria-derived extracts as di(2-ethylhexyl)phthalate, a commonly used plasticizer. The source of this typically man-made substance has been identified as originating from Instant Ocean (Aquarium Systems, Mentor, OH, USA), a commercially available seawater salt mixture used to prepare our mass culture growth medium. We have developed chromatographic methodology to isolate a bioactive polar compound isolated from extracts of Pfiesteria culture and presently report the characterization of the activity of this substance. The molecular structural analysis of the polar active component(s) using mass spectrometry and nuclear magnetic resonance spectroscopy is currently under way.

Okadaic acid production from the marine dinoflagellate Prorocentrum belizeanum Faust isolated from the Belizean coral reef ecosystem.

A species of epiphytic Prorocentrum (Dinophyta, Prorocentrales, collected from the macroalga Dictyota dichotoma, was brought into culture. Based on morphological characteristics, this isolate was identified as Prorocentrum belizeanum. Analysis of the culture extract using high-performance liquid chromatography and liquid chromatography-mass spectrometry indicated the production of okadaic acid, a toxic polyether linked with the human diseases, diarrhetic shellfish poisoning and ciguatera fish poisoning.

Serum mucin antigen (CASA) as a marker of amiodarone-induced pulmonary toxicity.

Amiodarone is used to treat life-threatening cardiac arrhythmias. Amiodarone-induced pulmonary toxicity (APT) can be difficult to diagnose. APT may result in increased mucus production and mucin expression. Thus, serum mucin-1 was evaluated as a marker for amiodarone-induced pulmonary toxicity. Concentrations of mucin-1 in peripheral blood were determined using cancer-associated serum antigen (CASA) assay in patients taking amiodarone. Eight of ten patients who developed major amiodarone toxicity had high serum CASA levels. Patients with toxicity had a significantly higher mean rank CASA concentration compared with those without major toxicity. CASA shows potential as a marker for amiodarone-induced toxicity, particularly pulmonary toxicity.

Determination of okadaic acid content of dinoflagellate cells: a comparison of the HPLC-fluorescent method and two monoclonal antibody ELISA test kits.

Total okadaic acid (okadaic acid plus methylokadaic acid) in acclimated clones of the dinoflagellates Prorocentrum hoffmannianum and P. lima was determined using the HPLC-fluorescent method, UBE ELISA test kit, and Rougier ELISA test kit. The nonokadaic acid-producing species. Amphidinium klebsii, Prorocentrum mexicanum, P. micans, P. cassubicum, and Gambierdiscus toxicus were examined using the same methods of analysis. All three methods yielded consistent results for P. hoffmannianum which produces only okadaic acid. However, results of the three methods were not consistent for P. lima which produces both okadaic acid and methylokadaic acid. The UBE ELISA demonstrated little or no cross-reactivity with methylokadaic acid; whereas, the Rougier ELISA demonstrated varying degrees of cross-reactivity with that analog. Analyses of nonokadaic acid producing-species yielded negative results, with one exception. The Rougier ELISA demonstrated reactivity with extracts of G. toxicus. Since outbreaks of DSP may be caused by okadaic acid, methylokadaic acid, or a combination of these toxins, both ELISA kits may underestimate total toxin present in toxic shellfish.