Comparative study of toxic effects of zearalenone and its two major metabolites α‐zearalenol and β‐zearalenol on cultured human Caco‐2 cells

Zearalenone (ZEN) is a fusarotoxin converted predominantly into α‐zearalenol (α‐Zol) and β‐zearalenol (β‐Zol) by hepatic hydroxysteroid dehydrogenases. The feeding of naturally contaminated grains with ZEN was associated with hyperestrogenic and adverse effects on humans and animals. There is a lack of information on the attribution of the toxic effects of these toxins. One wonders if these effects are due to the parent molecule (ZEN) or to its major metabolites (α‐Zol and β‐Zol). Using human Caco‐2 cells, we looked for the molecular mechanisms of toxicity of ZEN, α‐Zol, and β‐Zol. Toxicity effects were studied by MTT viability assay and oxidative stress induction by measuring malondialdehyde (MDA) generation. To check whether the oxidative stress induction was associated to DNA lesions, we looked for DNA fragmentation by means of the Comet and the diphenylamine assays. To specify cell death pathway, we investigated caspase‐3 activation, confirmed by poly(ADP‐ribose) polymerase cleavage and by Bcl‐2 depletion. Our results clearly demonstrated that ZEN as well as its two metabolites presented variable toxic effects. They induced cell death and an increase in MDA generation. These effects were associated to DNA fragmentation as well as caspase‐3 activation. The observed toxic effects seem to be relieved by the metabolism of ZEN into α‐Zol and β‐Zol. © 2009 Wiley Periodicals, Inc. J Biochem Mol Toxicol 23:233–243, 2009; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/jbt.20284     

L’éléphantiasis pénoscrotal, diagnostic et prise en charge: à propos de trois cas

Penoscrotal elephantiasis is a rare disease outside areas where filariasis is endemic. It is a benign disease but can become disabling in that it can make sexual relations difficult and sometimes even affect urination. We report three cases of primitive penoscrotal elephantiasis treated with complete surgical resection of pathological tissue and penoscrotal reconstruction, with good functional and aesthetic results. We update, through our own experience and a review of the literature, aspects of the diagnostic and therapeutic care of penoscrotal elephantiasis.     

Organic cation/carnitine transporter OCTN3 is present in astrocytes and is up-regulated by peroxisome proliferators-activator receptor agonist

In the brain β-oxidation, which takes place in astrocytes, is not a major process of energy supply. Astrocytes synthesize important lipid metabolites, mainly due to the processes taking place in peroxisomes. One of the compounds necessary in the process of mitochondrial β-oxidation and export of acyl moieties from peroxisomes is l-carnitine. Two Na-dependent plasma membrane carnitine transporters were shown previously to be present in astrocytes: a low affinity amino acid transporter B^0,+ and a high affinity cation/carnitine transporter OCTN2. The expression of OCTN2 is known to increase in peripheral tissues upon the stimulation of peroxisome proliferators-activator receptor α (PPARα), a nuclear receptor known to up-regulate several enzymes involved in fatty acid metabolism. The present study was focused on another high affinity carnitine transporter—OCTN3, its presence, regulation and activity in astrocytes. Experiments using the techniques of real-time PCR, Western blot and immunocytochemistry analysis demonstrated the expression of octn3 in rat astrocytes and, out of two rat sequences ascribed as similar to mouse OCTN3, XM_001073573 was found in these cells. PPARα activator–2-[4-chloro-6-[(2,3-dimethylphenyl)amino]-2-pyrimidinyl]thio]acetic acid (WY-14,643) stimulated by 50% expression of octn3, while, on the contrary to peripheral tissues, it did not change the expression of octn2. This observation was correlated with an increased Na-independent activity of carnitine transport. Analysis by transmission electron microscopy showed an augmented intracellular localization of OCTN3 upon PPARα stimulation, mainly in peroxisomes, indicating a physiological role of OCTN3 as peroxisomal membrane transporter. These observations point to an important role of OCTN3 in peroxisomal fatty acid metabolism in astrocytes.     

Crucial role for LKB1 to AMPKα2 axis in the regulation of CD36-mediated long-chain fatty acid uptake into cardiomyocytes

Enhanced contractile activity increases cardiac long-chain fatty acid (LCFA) uptake via translocation of CD36 to the sarcolemma, similarly to increase in glucose uptake via GLUT4 translocation. AMP-activated protein kinase (AMPK) is assumed to mediate contraction-induced LCFA utilization. However, which catalytic isoform (AMPKα1 versus AMPKα2) is involved, is unknown. Furthermore, no studies have been performed on the role of LKB1, a kinase with AMPKK activity, on the regulation of cardiac LCFA utilization. Using different mouse models (AMPKα2-kinase-dead, AMPKα2-knockout and LKB1-knockout mice), we tested whether LKB1 and/or AMPK are required for stimulation of LCFA and glucose utilization upon treatment of cardiomyocytes with compounds (oligomycin/AICAR/dipyridamole) which induce CD36 translocation similar to that seen upon contraction. In AMPKα2- kinase-dead cardiomyocytes, the stimulating effects of oligomycin and AICAR on palmitate and deoxyglucose uptake and palmitate oxidation were almost completely lost. Moreover, in AMPKα2- and LKB1-knockout cardiomyocytes, oligomycin-induced LCFA and deoxyglucose uptake were completely abolished. However, the stimulatory effect of dipyridamole on palmitate uptake and oxidation was preserved in AMPKα2-kinase-dead cardiomyocytes. In conclusion, in the heart there is a signaling axis consisting of LKB1 and AMPKα2 which activation results in enhanced LCFA utilization, similarly to enhanced glucose uptake. In addition, an unknown dipyridamole-activated pathway can stimulate cardiac LCFA utilization by activating signaling components downstream of AMPK.     

Activation of the calcium-sensing receptor by high calcium induced breast cancer cell proliferation and TRPC1 cation channel over-expression potentially through EGFR pathways

The calcium sensing receptor (CaR) is a G-protein-coupled receptor that is activated by extracellular calcium ([Ca²⁺]_o). In MCF-7 human breast cancer cells, we previously reported that treatment with [Ca²⁺]_o for 24 h leads to an over-expression of the Transient Receptor Potential Canonical 1 (TRPC1) cation channel and cell proliferation. Both involve the extracellular signal-regulated Kinases 1 & 2 (ERK1/2). MCF-7 also expressed epidermal growth factor receptor (EGFR) which is involved in cell proliferation through ERK1/2. Therefore, we investigated the cross-talk between CaR and EGFR in mediating ERK1/2 phosphorylation, TRPC1 over-expression and cell proliferation. Our data show that both high [Ca²⁺]_o and EGF phosphorylate ERK1/2. Furthermore, inhibition of EGFR kinase and matrix metalloproteinases (MMPs) reduced the overall effects mediated by [Ca²⁺]_o such as activation of ERK1/2, expression of TRPC1 and cell proliferation. They indicate the important role of the CaR-EGFR-ERK axis in transmitting mitogenic signals generated by high [Ca²⁺]_o in MCF-7 cells.     

Mercury in wild terrestrial carnivorous mammals from north-western Poland and unusual fish diet of red fox

Total mercury concentrations were determined in the kidney (K), liver (L), and pectoral muscle (M) of 19 individuals representing wild carnivorous mammals from NW Poland: 10 red foxes Vulpes vulpes (Linnaeus, 1758), 3 raccoon dogs Nyctereutes procyonoides Gray, 1834, 2 badgers Meles meles Linnaeus, 1758, 3 pine martens Martes martes Linnaeus, 1758, and 1 polecat Mustela putorius Linnaeus, 1758. The sample of red fox included 3 immature specimens found on Mielin Island; the island supports a black cormorant colony, and the foxes found there had fed mostly on cormorant nestlings as well as on fish and their remains. In addition to the Mielin Island foxes, the group of foxes included 3 other immature and 4 adult individuals. The highest mean of mercury concentrations were revealed in the Mielin red fox juveniles: 5.11, 4.52, and 1.56 mg/kg d.w. being recorded in K, L, and M. No significant differences in mercury concentrations in the respective tissues were found between the remaining immature and adult red foxes; their mercury concentrations were several times lower than those of the Mielin individuals. In all the animals except the Mielin foxes, mercury concentrations in K, L, and M did not exceed 1.3, 1.0 and 0.5 mg/kg d.w., respectively, the highest values being in badgers (which feed mostly on soil invertebrates), followed by pine martens and then the canids (red fox and raccoon dog). Studies on common and widely distributed terrestrial animals, particularly red fox and badger, may provide numerous valuable comparative data on mercury contamination of different areas of the northern hemisphere.     

Involvement of cysteine 306 and alanine 63 in the thermostability and oligomeric organization of glucose isomerase from <Emphasis Type="Italic">Streptomyces</Emphasis> sp. SK

The implication of the original alanine 63 (Ala63) and the unique cysteine 306 (Cys306) residues in the thermostability of the Streptomyces sp. SK glucose isomerase (SKGI) were investigated by site-directed mutagenesis and homology modelling. The Cys306 to Ala mutation within SKGI dramatically affected its thermal stability by decreasing the half-life from 80 to 15 min at 90°C while the Ala63 to Ser replacement shifted this half-life to 65 min. The electrophoretic analysis proves that the residue Cys306 participates in oligomerization of the SKGI. Its stabilizing role is materialized by hydrogen bonds established with arginines at positions 284 and 259, as deduced from the constructed three-dimensional model. We have also shown that the presence of an Ala63 instead of Ser63 seems to be more suitable for enzyme thermostability by maintaining hydrophobic pocket that contributes to the protection of the enzyme active site.