ciguatoxins and domoic-acid

At the European level, detection of marine neurotoxins in seafood is still based on ethically debated and expensive in vivo rodent bioassays. The development of alternative methodologies for the detection of marine neurotoxins is therefore of utmost importance. We therefore investigated whether and to what extent a multielectrode array (MEA) approach can be used as an in vitro alternative for screening of marine neurotoxins potentially present in seafood.. This MEA approach utilizes rat cortical neurons comprising a wide range of ion channels/pumps and neurotransmitter receptors targeted by marine neurotoxins. We tested the effects of neurotoxic model compounds, pure marine neurotoxins, and extracts from contaminated seafood on neuronal activity of rat cortical neurons cultured on commercial 48-well plates to increase throughput.. We demonstrate that the MEA approach has a sensitivity of 88% (7/9 model compounds, 6/6 pure marine neurotoxins, and 2/2 marine neurotoxins present in seafood extracts were correctly identified) and a good reproducibility compared to existing in vitro alternatives. We therefore conclude that this MEA-based approach could be a valuable tool for future food safety testing.

Topics: Acrylamides; Animal Use Alternatives; Animals; Cells, Cultured; Ciguatoxins; Cnidarian Venoms; Fishes; Food Contamination; Food Safety; Kainic Acid; Marine Toxins; Neurons; Neurotoxins; Oxocins; Rats; Rats, Wistar; Reproducibility of Results; Seafood; Tetrodotoxin

The monoclonal antibody to ciguatoxin (CTX) produced from a hybridoma cell line was assayed for the detection of four congeners of CTX: Pacific ciguatoxin-1 (P-CTX-1), Pacific ciguatoxin-2 (P-CTX-2), Pacific ciguatoxin-3 (P-CTX-3), and Caribbean ciguatoxin-1 (C-CTX-1) and related marine toxins, including domoic acid, palytoxin, and okadaic acid, using a modified enzyme-linked immunosorbent assay (ELISA). Lower detection limits were assessed and linearity was statistically established (P<0.05) for P-CTX-1, P-CTX-2, and P-CTX-3 and C-CTX-1 at concentrations ranging from 0 to 5.00 ng, while the other marine toxins showed statistically insignificant cross-reactivities at similar concentrations. Thus, the monoclonal antibody to CTX is able to specifically detect various CTX congeners at levels comparable to those naturally occurring in ciguatoxic fish.

Topics: Acrylamides; Antibodies, Monoclonal; Caribbean Region; Ciguatera Poisoning; Ciguatoxins; Cnidarian Venoms; Cross Reactions; Enzyme-Linked Immunosorbent Assay; Kainic Acid; Okadaic Acid; Pacific Ocean; Seafood

The frequency and scale of Harmful Algal Bloom (HAB) and marine algal toxin incidents have been increasing and spreading in the past two decades, causing damages to the marine environment and threatening human life through contaminated seafood. To better understand the effect of HAB and marine algal toxins on marine environment and human health in China, this paper overviews HAB occurrence and marine algal toxin incidents, as well as their environmental and health effects in this country. HAB has been increasing rapidly along the Chinese coast since the 1970s, and at least 512 documented HAB events have occurred from 1952 to 2002 in the Chinese mainland. It has been found that PSP and DSP toxins are distributed widely along both the northern and southern Chinese coasts. The HAB and marine algal toxin events during the 1990s in China were summarized, showing that the HAB and algal toxins resulted in great damages to local fisheries, marine culture, quality of marine environment, and human health. Therefore, to protect the coastal environment and human health, attention to HAB and marine algal toxins is urgently needed from the environmental and epidemiological view.

Topics: Amnesia; Animals; China; Ciguatoxins; Diarrhea; Dinoflagellida; Environment; Eukaryota; Eutrophication; Fisheries; Food Contamination; Foodborne Diseases; Humans; Kainic Acid; Lethal Dose 50; Marine Toxins; Neurotoxicity Syndromes; Okadaic Acid; Oxocins; Paralysis; Seawater; Shellfish Poisoning

The lack of rapid, high throughput assays is a major obstacle to many aspects of research on marine phycotoxins. Here we describe the application of microplate scintillation technology to develop high throughput assays for several classes of marine phycotoxin based on their differential pharmacologic actions. High throughput "drug discovery" format microplate receptor binding assays developed for brevetoxins/ciguatoxins and for domoic acid are described. Analysis for brevetoxins/ciguatoxins is carried out by binding competition with [3H] PbTx-3 for site 5 on the voltage dependent sodium channel in rat brain synaptosomes. Analysis of domoic acid is based on binding competition with [3H] kainic acid for the kainate/quisqualate glutamate receptor using frog brain synaptosomes. In addition, a high throughput microplate 45Ca flux assay for determination of maitotoxins is described. These microplate assays can be completed within 3 hours, have sensitivities of less than 1 ng, and can analyze dozens of samples simultaneously. The assays have been demonstrated to be useful for assessing algal toxicity and for assay-guided purification of toxins, and are applicable to the detection of biotoxins in seafood.

Topics: Animals; Binding, Competitive; Brain; Calcium; Cell Membrane; Cells, Cultured; Ciguatoxins; Kainic Acid; Marine Toxins; Neuromuscular Depolarizing Agents; Oxocins; Pituitary Gland; Rana pipiens; Rats; Rats, Sprague-Dawley