Angel Moldes-Anaya

Poisoning of dogs with tremorgenic Penicillium toxins.

Fungi in the genus Penicillium, particularly P. crustosum, produce tremorgenic mycotoxins, as well as suspected tremorgenic compounds. The accidental intoxication of six dogs with such toxins are reported. The clinical signs included vomiting, convulsions, tremors, ataxia, and tachycardia, all of which are indicators of intoxications affecting the nervous system. This symptomatology caused us to think that the dog poisoning was the result of tremorgenic mycotoxins. One dog was euthanized in the acute phase, while three others recovered completely within a few days. However, neurological symptoms were still observed four months after the poisoning of two of the dogs. One of these recovered completely within the next 2-3 months, while the other still suffers from ataxia three years later. Available samples of feed, stomach content and/or tissues from the intoxications were subjected to mycological and chemical analysis. Penitrem A was found in all reported poisonings and roquefortine C in all cases when this toxin was included in the analysis. The producer of these toxins, Penicillium crustosum, was detected in all cases where material suitable for mycological examinations (feed or vomit) was available. To our knowledge, this is the first report documenting the presence of penitrems and roquefortine C in organs from poisoned dogs. Furthermore, the report indicates that the recovery period after severe poisonings with P. crustosum may be protracted.

Determination of cyclopiazonic acid in food and feeds by liquid chromatography-tandem mass spectrometry.

A new, fast and efficient multiple reaction monitoring (MRM) high-performance liquid chromatography-tandem mass spectrometry (HPLC-MS/MS) method for the determination of cyclopiazonic acid (CPA) in mixed feed, wheat, peanuts and rice is presented. The analytical methodology involves sample extraction with an alkaline methanol-water mixture, defatting with hexane and quantification using HPLC-MS/MS without further treatment of sample extracts. Reversed-phase liquid chromatography using a C18 stationary phase coupled to negative mode electrospray triple quadrupole tandem mass spectrometry was applied. The limit of detection was 5 microg/kg while the limit of quantification was 20 microg/kg in the matrices investigated. The detector response was found to be linear over the range 25-250 microg/kg in feed and 25-500 microg/kg in wheat, peanuts and rice. The mean overall recoveries (n=18) of CPA varied from 79% to 114% in the range of concentrations studied over a period of 4 months. Mean recoveries (n=3 or 6) of CPA in wheat, peanuts and rice varied from 70% to 111%, 77% to 116% and 69% to 92%, respectively. The method was successfully applied to the analysis of feed and rice samples artificially infected with the fungal strain Penicillium commune, where the toxin was found at different levels.

In vitro and in vivo hepatic metabolism of the fungal neurotoxin penitrem A.

Penitrem A is a potent neurotoxin produced by several species in the genus Penicillium, which primarily affects the central nervous system. The toxin has several effects on neurotransmitter release, both at the central and peripheral level, as well as on ion channels. We have evaluated the hepatic metabolism of penitrem A by rat hepatocytes and rat-liver microsomes in vitro. In addition, we have conducted an in vivo study in mice and determined metabolites in several organs. According to our results, penitrem A is extensively metabolized in the liver to at least five metabolites more hydrophilic than the parent compound.

In vitro neuropharmacological evaluation of penitrem-induced tremorgenic syndromes: Importance of the GABAergic system

The effects of the fungal neurotoxin penitrem A on the GABAergic and glutamatergic systems in rat brain were evaluated. Penitrem A inhibited binding of the GABA(A)-receptor ligand [³H]TBOB to rat forebrain and cerebellar membrane preparations with IC₅₀ (half maximal inhibitory concentration) values of 11 and 9 μM, respectively. Furthermore, penitrem A caused a concentration-dependent increase of [³H]flunitrazepam and [³H]muscimol binding in rat forebrain, but not in cerebellar preparations. The stimulation of [³H]flunitrazepam binding by penitrem A was abolished by the addition of GABA. In cerebellar preparations, a different pharmacological profile was found, with penitrem A allosterically inhibiting [³H]TBOB binding by interacting with a bicuculline-sensitive site. Moreover, penitrem A inhibited the high affinity uptake of GABA and glutamate into cerebellar synaptosomes with IC₅₀ values of 20 and 47 μM, respectively. The toxin showed no effect on NMDA or AMPA glutamate receptor binding. In conclusion, our results suggest that penitrem A exerts region-specific effects in the brain, leading to positive modulation of GABA(A)-receptor function in forebrain. Conversely, penitrem A may act as a bicuculline-like convulsant in cerebellum.

Isolation and structure elucidation of secopenitrem D, an indole alkaloid from Penicillium crustosum Thom.

Chemical investigation of three isolates of Penicillium crustosum Thom cultures, one of which was derived from a recent dog poisoning investigation, has led to the isolation and structure elucidation of secopenitrem D (1). Penitrems A-F and roquefortine C were also present in the isolates analyzed. The structure of 1 was unambiguously assigned based on extensive 1D and 2D-NMR spectroscopic experiments, MS-aided structural studies and by comparison with structurally related congeners. Secopenitrem D lacks the C-16-C-18 ether linkage present in penitrems A-F.

Neurotoxicity of Penicillium crustosum secondary metabolites: Tremorgenic activity of orally administered penitrem A and thomitrem A and E in mice

Several cases of neurological disease in dogs after poisoning by food- and feed-borne Penicillium toxins in Norway during the last years have uncovered a lack of knowledge regarding the toxicity and mechanism of action of neuroactive mycotoxins. In the present study, the lowest tremor-inducing dose after single oral administration of penitrem A to mice was 0.50 mg/kg bw. The estimated half maximal effective dose (ED(50)) in respect to the visual tremor scale was 2.74 mg/kg bw. Mice receiving the maximum penitrem A dose (8 mg/kg bw) suffered severe spontaneous tremors and even convulsions. Thomitrem A and E are penitrem analogues lacking the C-16-C-18 ether linkage and possessing an olefin at C-18-C-19. Compared with penitrem A, the lowest tremor-inducing dose of thomitrem A was 16-times higher (8 mg/kg bw) and thomitrem E was found to be non-tremorgenic at the highest dose tested (16 mg/kg bw). During a recovery phase of two weeks post administration animals appeared restored and no changes in feeding and other biological processes were observed. An initial dose-related weight reduction was observed 2 days after penitrem A administration. Penitrem A was absorbed and distributed to gastrointestinal tract, liver, kidneys and brain in the mice. Elimination of penitrem A appeared to be mainly hepatic and the highest concentration levels were found 1 h post administration for all investigated organs. The relationship between liver and gastrointestinal tract concentration levels showed time-dependent linear correlation and a doubling within 1.5 h.

PFOS-induced excitotoxicity is dependent on Ca2+ influx via NMDA receptors in rat cerebellar granule neurons

&NA; Perfluoroalkyl acids (PFAAs) are persistent compounds used in many industrial as well as consumer products. Despite restrictions, these compounds are found at measurable concentrations in samples of human and animal origin. In the present study we examined whether the effects on cell viability of two sulfonated and four carboxylated PFAAs in cultures of cerebellar granule neurons (CGNs), could be associated with deleterious activation of the N‐methyl‐d‐aspartate receptor (NMDA‐R). PFAA‐induced effects on viability in rat CGNs and unstimulated PC12 cells were examined using the MTT assay. Cells from the PC12 rat pheochromocytoma cell line lack the expression of functional NMDA‐Rs and were used to verify lower toxicity of perfluorooctanesulfonic acid (PFOS) in cells not expressing NMDA‐Rs. Protective effects of NMDA‐R antagonists, and extracellular as well as intracellular Ca2+ chelators were investigated. Cytosolic Ca2+ ([Ca2+]i) was measured using Fura‐2. In rat CGNs the effects of the NMDA‐R antagonists MK‐801, memantine and CPP indicated involvement of the NMDA‐R in the decreased viability induced by PFOS and perfluorohexanesulfonic acid (PFHxS). No effects were associated with the four carboxylated PFAAs studied. Further, EGTA and CPP protected against PFOS‐induced decreases in cell viability, whereas no protection was afforded by BAPTA‐AM. [Ca2+]i significantly increased after exposure to PFOS, and this increase was completely blocked by MK‐801. In PC12 cells a higher concentration of PFOS was required to induce equivalent levels of toxicity as compared to in rat CGNs. PFOS‐induced toxicity in PC12 cells was not affected by CPP. In conclusion, PFOS at the tested concentrations induces excitotoxicity in rat CGNs, which likely involves influx of extracellular Ca2+ via the NMDA‐R. This effect can be blocked by specific NMDA‐R antagonists. HighlightsPFOS induces rapid excitotoxicity in rat cerebellar granule neurons (CGNs) in vitroPFOS‐induced excitotoxicity is dependent on calcium influx via the NMDA receptorExtracellular, but not intracellular calcium chelators protects against cell deathPFOS, but not PFOA increases cytosolic calcium after short term (1 h) exposurePFOS toxicity is lower in PC12 cells lacking functional NMDA receptor expression

The fungal neurotoxin penitrem A induces the production of reactive oxygen species in human neutrophils at submicromolar concentrations

Penitrem A is a fungal neurotoxin that recurrently causes intoxication in animals, and occasionally also in humans. We have previously reported that penitrem A induced the production of reactive oxygen species (ROS) in rat cerebellar granule cells, opening for a new mechanism of action for the neurotoxin. The aim of this study was to examine the potential of penitrem A to induce ROS production in isolated human neutrophil granulocytes, and to study possible mechanisms involved. Penitrem A significantly increased the production of ROS in human neutrophils at concentrations as low as 0.25μM (40% increase over basal levels), as measured with the DCF fluorescence assay. The EC50 determined for the production of ROS by penitrem A was 3.8μM. The maximal increase in ROS production was approximately 330% over basal levels at a concentration of 12.5μM. ROS formation was significantly inhibited by the antioxidant vitamin E (50μM), the intracellular Ca+2 chelator BAPTA-AM (5μM), the mitogen activated protein kinase kinase (MEK) 1/2 and 5 inhibitor U0126 (1 and 10μM), the p38 mitogen activated protein kinase (MAPK) inhibitor SB203580 (1μM), the c-Jun amino-terminal kinase (JNK) inhibitor SP600125 (10μM), and the calcineurin inhibitors FK-506 and cyclosporine A (1.5 and 0.5μM, respectively). These finding suggest that penitrem A is able to induce an increase in ROS production in neutrophils via the activation of several MAPK-signalling pathways. We suggest that this increase may partly explain the pathophysiology generated by penitrem A neuromycotoxicosis in both humans and animals.

Two Isomeric C16 Oxo-Fatty Acids from the Diatom Chaetoceros karianus Show Dual Agonist Activity towards Human Peroxisome Proliferator-Activated Receptors (PPARs) α/γ

The peroxisome proliferator-activated receptors (PPARs) function as ligand-activated transcription factors that convert signals in the form of lipids to physiological responses through the activation of metabolic target genes. Due to their key roles in lipid and carbohydrate metabolism, the PPARs are important drug targets. However, for several of the PPAR drugs currently in use, adverse side effects have been reported. In an effort to identify compounds from marine organisms that may serve as molecular scaffolds for the development of novel and safer PPAR-targeting drugs, we performed a bioassay-guided screening of organic extracts made from organisms supplied by the Norwegian Biobank of Arctic Marine Organisms (Marbank). Among several interesting hits, we identified two poorly described isomeric oxo-fatty acids from the microalgae Chaetoceros karianus for which we provide the first evidence that they might display dual specificity towards human PPARα and PPARγ. Principal component analysis showed that C. karianus stood out from other Chaetoceros species, both with respect to the metabolic profile and the PPAR activity. The isolation of these compounds holds the potential of uncovering a PPAR pharmacophore with tunable activity and specificity.