First Finding of Ostreopsis cf. ovata Toxins in Marine Aerosols

Since the late 1990s, a respiratory syndrome has been repetitively observed in humans concomitant with Ostreopsis spp. blooms (mainly O. cf. ovata) in the Mediterranean area. Previous studies have demonstrated that O. cf. ovata produces analogues of palytoxin (ovatoxins and a putative palytoxin), one of the most potent marine toxins. On the basis of the observed association between O. cf. ovata blooms, respiratory illness in people, and detection of palytoxin complex in algal samples, toxic aerosols, containing Ostreopsis cells and/or the toxins they produce, were postulated to be the cause of human illness. A small scale monitoring study of marine aerosol carried out along the Tuscan coasts (Italy) in 2009 and 2010 is reported. Aerosols were collected concomitantly with O. cf. ovata blooms, and they were analyzed by both PCR assays and LC-HRMS. The results, besides confirming the presence of O. cf. ovata cells, demonstrated for the first time the occurrence of ovatoxins in the aerosol at levels of 2.4 pg of ovatoxins per liter of air. Given the lack of toxicological data on palytoxins by inhalation exposure, our results are only a first step toward a more comprehensiveunderstanding of the Ostreopsis-related respiratory syndrome

Growth dynamics in relation to the production of the main cellular components in the toxic dinoflagellate Ostreopsis cf. ovata

In the last decade Ostreopsis cf. ovata blooms have been among the most intense along the entire Mediterranean coast, leading to ecological and human health problems, that are associated with the toxins (palytoxin-like compounds) produced by these algal cells. These compounds are secondary metabolites, whose rates of synthesis depend on the metabolism of their precursors. In general, growth dynamics and toxicity of dinoflagellates reflect the physiological status of the organism. The aim of the present study was to investigate the cellular production of the main biochemical compounds likely involved in the growth and toxicity dynamics of O. cf. ovata during exponential to the late stationary phase in batch cultures of an Adriatic strain. Removal of major nutrients from the medium was monitored along with concentration, biovolume and production of the main cellular components (e.g. polysaccharides, proteins, lipids and toxins). Nutrient uptake, as well as toxin production rates were calculated in the different growth periods. Nutrients (N and P) were completely depleted when cells entered stationary phase and the greatest net toxin production rate (RTOX) occurred during the first days of growth. The various palytoxins reported a relative abundance quite stable during the different growth phases, while the total toxin cellular amount increased along the growth curve. Total and extracellular released polysaccharides, as well as the lipid content increased greatly during the stationary phase, while proteins were mainly produced by cells during the exponential phase. The continuous release of polysaccharides could facilitate cell aggregation and the formation of the benthic community during algal blooms. The trend of production of the main cellular compounds in O. cf. ovata and the growth dynamics of this species lead us to hypothesize that the fast growth of this dinoflagellate, associated with the rapid use of environmental resources (nutrients, and phosphates in particular), may be an ecological/ adaptive strategy which could favor this organism in competition with other species

High resolution LC-MS study of ovatoxins produced by Ostreopsis ovata

In the last decades, the recurring presence of the benthic dinoflagellate Ostreopsis ovata has caused severe sanitary emergencies and economic losses along the whole Italian coastline. Liquid chromatography-mass spectrometry (LC-MS) technique played a key role in revealing the presence of putative palytoxin and much higher amounts of ovatoxin-a, a palytoxin-like compound, in field samples of O. ovata. In our ongoing research on O. ovata toxins we report herein on high resolution LC-MS and MS2 investigation of O. ovata cultures, which disclosed the occurrence of several new ovatoxins in algal extracts. Elemental formulae very close to palytoxin???s were assigned to the new compounds and information was gained about their structural features. A quantitative study of several O. ovata culture extracts indicated that ovatoxin-a generally represents the major component of the algal toxin profile and that the whole of the other ovatoxins constitutes up to 46% of the total toxin content of the analyzed strains; thus, their presence should be taken into account when LC-MS based monitoring programs of either plankton or contaminated seafood are carried out

Complex palytoxin-like profile of Ostreopsis ovata: Identification of four new ovatoxins by high resolution LC-MS

High resolution (HR) LC-MS investigation of an Adriatic Ostreopsis ovata culture is reported herein. It highlighted the presence of putative palytoxin and ovatoxin-a in combination with four new ovatoxins. Elemental formulae and information about their structural features were gained

Complex palitoxin-like profile of Ostreopsis ovata, identification of four new ovatoxins by high resolution liquid chromatography-mass spectrometry.

Over the last decades, Italian coastlines have been plagued by recurring presence of the benthic dinoflagellate Ostreopsis ovata. Such an alga has caused severe sanitary emergencies and economic losses due to its production of palytoxin-like compounds. Previous studies have confirmed the presence of ovatoxin-a (OVTX-a), as the major toxin of the algal toxin profile together with small amounts of putative palytoxin (PLTX). In our ongoing research on O. ovata toxins we report herein on in-depth investigation of an O. ovata culture carried out by high resolution (HR) LC-MS and tandem mass spectrometry (MS2). Particularly, the presence of putative PLTX and OVTX-a was confirmed and the occurrence in the extract of four new palytoxin-like compounds, OVTX-b, -c, -d, and -e, was highlighted. Elemental formulae have been assigned to the new ovatoxins and information has been gained about their structural features. A quantitative study of the O. ovata culture extract indicated that the whole of the new ovatoxins represents about 46% of the total toxin content and, thus, their presence has to be taken into account when LC/MS-based monitoring programs of either plankton or contaminated seafood are carried out