Abstract
Pinnatoxin G (PnTx-G) is a marine cyclic imine toxin produced by the dinoflagellate Vulcanodinium rugosum, frequently detected in edible shellfish from Ingril Lagoon (France). As other pinnatoxins, to date, no human poisonings ascribed to consumption of PnTx-G contaminated seafood have been reported, despite its potent antagonism at nicotinic acetylcholine receptors and its high and fast-acting toxicity after intraperitoneal or oral administration in mice. The hazard characterization of PnTx-G by oral exposure is limited to a single acute toxicity study recording lethality and clinical signs in non-fasted mice treated by gavage or through voluntary food ingestion, which showed differences in PnTx-G toxic potency. Thus, an acute toxicity study was carried out using 3 h-fasted CD-1 female mice, administered by gavage with PnTx-G (8–450 µg kg−1). At the dose of 220 µg kg−1 and above, the toxin induced a rapid onset of clinical signs (piloerection, prostration, hypothermia, abdominal breathing, paralysis of the hind limbs, and cyanosis), leading to the death of mice within 30 min. Except for moderate mucosal degeneration in the small intestine recorded at doses of 300 µg kg−1, the toxin did not induce significant morphological changes in the other main organs and tissues, or alterations in blood chemistry parameters. This acute oral toxicity study allowed to calculate an oral LD50 for PnTx-G equal to 208 μg kg−1 (95% confidence limits: 155–281 µg kg−1) and to estimate a provisional NOEL of 120 µg kg−1.
Highlights
Pinnatoxins (PnTxs) are lipophilic cyclic imine toxins that can accumulate in edible marine shellfish
Pinnatoxin G (PnTx-G) has been administered by gavage to groups of three mice at the doses of 8, 20, 50, and 120 μg kg−1, and we recorded the clinical signs and lethality up to 24 h
Additional groups of 5 mice have been administered with PnTx-G at 220, 300, 370, and 450 μg kg−1 to calculate the toxin median lethal dose (LD50 ), based on 24 h lethality data
Summary
Pinnatoxins (PnTxs) are lipophilic cyclic imine toxins that can accumulate in edible marine shellfish. They have been initially isolated from the shellfish Pinna attenuata collected in China [1]. Pinnatoxin A (PnTx-A) has been firstly characterized after its isolation from the bivalve Pinna muricata collected in Okinawa (Japan), to its structural analogues PnTx-B, -C, and -D [2,3,4]. PnTx-E, -F, and -G have been subsequently isolated from oysters (Crassostrea gigas) collected in South Australia and. Strains of dinoflagellates producing PnTx-E and -F in New Zealand [7], have been shown to be identical to those producing PnTx-E, -F, and -G in Australia [8] or PnTx-G in Japan [9]
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