Maria Cabré

Inhibition of hepatic cell nuclear DNA fragmentation by zinc in carbon tetrachloride-treated rats.

BACKGROUND/AIMS The aims of this study were to ascertain: 1) whether hepatic cell DNA fragmentation is increased in rats with early stages of liver disease induced by carbon tetrachloride; 2) whether the inhibition of DNA cleavage is involved in the hepatoprotective effects of zinc; and 3) if relationships exist between DNA fragmentation and the onset of fibrosis in this experimental model. METHODS Twenty-one treated rats and 23 controls were divided into two groups to receive either a standard diet or one supplemented with zinc. All the animals were sacrificed 1 week later for histological and biochemical assessments, which included a DNA fragmentation index, hepatic zinc and metallothionein concentrations, fibrosis measured by hepatic hydroxyproline concentration and plasma alanine aminotransferase activity. RESULTS Hepatic cell DNA fragmentation was increased in rats with early hepatic fibrosis and the increase was independent of hepatocytolysis, as measured by alanine aminotransferase activity. Oral zinc administration inhibited hepatic cell DNA fragmentation in the treated rats and was proportional to the hepatic concentration of the metal. The mechanism of the zinc-mediated decrease in DNA cleavage was related to an increase in the hepatic metallothionein concentration. Hepatic cell DNA fragmentation was related to hydroxyproline concentration. CONCLUSIONS Our results suggest that apoptosis may be involved in the early transformations occurring in the liver and which can lead to the initiation of cirrhosis. As such, the potential therapeutic use of zinc supplementation would warrant further investigation.

Aluminum exposure through the diet : Metal levels in AβPP transgenic mice, a model for Alzheimer's disease

Aluminum (Al), iron (Fe), copper (Cu), and zinc (Zn) cause have been implicated in the etiology of certain neurodegenerative disorders. Moreover, these elements cause the conformational changes of Alzheimers amyloid beta protein. In this study, we determined the concentrations of Al, Cu, Zn, Fe, and Mn in various tissues of Tg 2576 (AbetaPP transgenic) Al-treated mice. Female Tg 2576 mice and wild-type littermates were exposed through the diet to 1mg Al/g for 6 months. At 11 months of age, metal concentrations were measured in various tissues. In brain, Al levels were higher in hippocampus than in cortex and cerebellum. In hippocampus, Cu concentrations decreased in non-treated Tg 2576 mice, while Zn levels were higher in Al-treated mice. Copper, Zn, Mn and Fe concentrations in liver, kidney and bone were not affected by Al exposure. The current results show that Al exposure of Tg 2576 and wild-type mice did not produce important metal changes related with the genotype, responding similarly both groups of animals. As Tg 2576 mice have been considered as a potential model for Alzheimers disease (AD), the present results would not support the hypothetical role of Al in the etiology of AD.

Specific gene hypomethylation and cancer: new insights into coding region feature trends.

Giving coding region structural features a role in the hypomethylation of specific genes, the occurrence of G+C content, CpG islands, repeat and retrotransposable elements in demethylated genes related to cancer has been evaluated. A comparative analysis among different cancer types has also been performed. In this work, the inter-cancer coding region features comparative analysis carried out, show insights into what structural trends/patterns are present in the studied cancers.

Evaluation of the protective role of melatonin on the behavioral effects of aluminum in a mouse model of Alzheimer's disease.

In this study, five months old female transgenic (Tg2576) and wild-type mice were exposed for 6 months to aluminum (1mg Al/g diet), melatonin (10mg/kg/day), Al plus melatonin, or vehicle only (control group). General motor activity was evaluated using an open-field, whereas spatial learning and memory were assessed in a water maze. Aluminum levels in hippocampus, cortex and cerebellum were determined. Aluminum-treated Tg2576 mice showed higher Al levels in hippocampus than non-Al treated animals. No Al effects on general motor activity were found, while the open-field test showed an increased number of rearings in Tg2576 mice. A lower habituation pattern was observed in melatonin-treated animals. Differences in learning were noted in the water maze acquisition test, in which Al-treated Tg2576 mice showed more difficulties in learning the task than Al-exposed wild mice. No significant effects of melatonin in the acquisition task were observed. The present results indicate that Tg2576 mice are sensitive to high dietary Al levels. A significant protector role of melatonin on Al-induced behavioral effects was not observed.

Oxidative Stress-Related Markers and Langerhans Cells in a Hairless Rat Model Exposed to UV Radiation

Biomarkers related to the oxidative stress in blood and epidermis and the number of Langerhans cells were determined in hairless rats after acute irradiation with 1.54, 1.93, or 2.41 J/cm2 of ultraviolet (UV) light and chronic exposure to 13 suberythemal UV doses of 1.1 J/cm2 for 2 mo. After acute UV irradiation, in epidermis, the thiobarbituric acid-reactive substances (TBARS) content increased at the highest UV dose, whereas the activities of glutathione S-transferase and catalase rose and the oxidized glutathione (GSSG) content diminished at all UV doses. In erythrocytes, glutathione S-transferase activity increased at the two lowest UV doses, glutathione peroxidase activity rose at all UV doses, and catalase activity increased after the highest UV dose. In plasma, the TBARS content and the reduced glutathione (GSH)/GSSG ratio increased at the highest UV dose; the number of Langerhans cells decreased at all UV doses. Linear Pearson correlation analysis revealed many relationships between different biomarkers, and multiple linear regression analysis indicated that the number of Langerhans cells was predicted by epidermal GSSG and catalase (R 2 = .64) and by erythrocytic glutathione peroxidase and GSSG (R 2 = .72). After suberythemal UV radiation, in epidermis, the GST activity and the content of GSH and GSSG increased; in erythrocytes, the GST activity decreased and the GSH/GSSG ratio increased. Thus, the hairless rat appears to be a useful model for studying the oxidative stress-related mechanisms after UV radiation, which are involved in the loss of the immune capacity mediated by Langerhans cells, even at suberythemal doses. This study was conducted at the School of Medicine, Rovira i Virgili University, Reus, Spain. This work was supported by a Research and Development grant (SAF-99-0048) from the Spanish Ministry of Health and Social Security and cosponsored by Novartis CH (Spain). We thank Prof. J. Fernández of the School of Medicine (Reus) for his help with the statistical analyses.

Amyloid β peptide levels increase in brain of AβPP Swedish mice after exposure to chlorpyrifos.

Chlorpyrifos (CPF) is an organophosphate pesticide widely used in intensive agriculture. Various studies have demonstrated delayed neurotoxic effects in adult mammals after acute CPF exposure. This pesticide induces oxidative stress and neuronal damage, which suggests a possible relationship between CPF exposure and Alzheimers disease (AD). In the present study, we examined in a mice model of AD, long-term changes in the behavior and brain levels of amyloid β after acute CPF exposure. Fifty mg/kg of CPF were subcutaneously injected to Tg2576 (Tg) mice carrying the Swedish amyloid-β protein precursor (AβPP) mutation for AD. General status, body weight, acetyl cholinesterase (AChE) inhibition, and behavioral changes were assessed. Amyloid β fragment (1-40 and 1-42) levels were also measured in the cortical and hippocampal brain regions. A significant and transient decrease in body weight was observed 72 hr after treatment, while no autonomic effects were noted. Motor activity was decreased in Tg mice seven months after CPF treatment. Acquisition learning in a water maze task was not affected, but retention was ameliorated in CPF-exposed Tg mice. Amyloid β levels increased in the brains of treated Tg mice eight months after CPF exposure. The results of this study show that some behavioral changes persisted or emerged months after acute CPF exposure, while amyloid β levels increased. These findings raise concern about the risk of developing neurodegenerative diseases following moderate exposure to CPF in vulnerable subjects.

Impaired retention in AβPP Swedish mice six months after oral exposure to chlorpyrifos

Chlorpyrifos (CPF) is an organophosphate pesticide. This pesticide induces cognitive impairments, oxidative stress and neuronal damage, which suggests a possible relationship between CPF exposure and Alzheimers disease. In this study we examined long-term changes in behavior and brain levels of the amyloid beta (Aβ) protein after repeated CPF exposure in a mouse model of Alzheimers disease. Tg2576 male mice between four and six months of age carrying the human Swedish mutation for Alzheimers disease were exposed to eight doses of 25 mg/kg of CPF distributed over four weeks. Five months after exposure, general activity was measured in an open-field, while learning and memory were assessed in a Morris water maze task six months after treatment with CPF. Levels of the Aβ fragments (1-40 and 1-42) were also measured in the frontal cortex and hippocampal brain regions. Motor activity was increased in CPF-exposed mice. Although acquisition learning in a water maze task was not affected, retention was worsened in CPF-exposed mice. There were no significant increases of Aβ levels in the brains of CPF-treated mice six months after exposure. These findings raise concerns about the risk of developing neurodegenerative diseases in vulnerable subjects following repeated exposure to CPF.

The Antioxidant and Hepato-Protective Effects of Zinc are Related to Hepatic Cytochrome P450 Depression and Metallothionein Induction in Rats with Experimental Cirrhosis

The aim of the present study was to investigate the time-course of changes in hepatic lipid peroxidation, cytochrome P450 and metallothionein concentrations, and superoxide dismutase and catalase activities in relation to the onset and development of cirrhosis in CCl4-treated rats. Further, the effects of oral zinc administration on these parameters were assessed. Cirrhosis was induced in 120 rats by intraperitoneal injections of CCl4 twice weekly over 9 weeks. Controls were 120 additional animals. Both groups were further subdivided to receive either a standard diet or one supplemented with zinc. Subsets of 10 animals each were euthanized at weeks 1, 2, 3, 5, 7 and 9 from the start of the study. Results indicated that zinc administration delayed the cirrhotic process and the increase in lipid peroxidation. These changes, consistently maintained during the first 5 weeks of the study, were associated with a significant decrease in the hepatic concentration of cytochrome P450 and an increase in the hepatic concentration of metallothioneins. Zinc supplementation did not produce any significant change in superoxide dismutase and catalase activities. These results suggest that cytochrome P450 and metallothioneins may play an important role in the hepato-protective effects of zinc against lipid peroxidation in experimental cirrhosis.

Adulthood dietary exposure to a common pesticide leads to an obese-like phenotype and a diabetic profile in apoE3 mice.

Increasing evidence links the widespread exposure to organophosphate (OP) pesticides to the global epidemics of type 2 diabetes and obesity. Our recent data highlighted gene×environment interactions: mice expressing the human apolipoprotein E3 (apoE3) isoform were more prone to develop obesity than those expressing apoE2 or apoE4 upon dietary challenge with chlorpyrifos (CPF), the most used OP worldwide. Thus, we aimed to further explore the contribution of the APOE3 genotype on the emergence of obesity and related metabolic dysfunctions upon subchronic exposure to CPF. Seven-month-old targeted replacement apoE3 and C57BL/6N male mice were orally exposed to CPF at 0 or 2mg/kg body weight/day for 8 consecutive weeks. We examined body weight status, food and water intake, lipid and glucose homeostasis, metabolic biomarkers concentrations, insulin levels and insulin resistance, and leptin and ghrelin profiles. CPF exposure generally increased food ingestion, glucose and total cholesterol concentrations, and tended to elevate acyl ghrelin levels. Nonetheless, excess weight gain and increased leptin levels were inherent to apoE3 mice. Moreover, the propensity towards a diabetic profile was markedly higher in these animals than in C57BL/6N, as they showed a higher homeostatic model assessment for insulin resistance index and higher insulin levels. Although both genotypes were metabolically affected by CPF, the results of the present investigation revealed that apoE3 mice were the most vulnerable to developing obesity and related disturbances following CPF administration through the diet. Since the APOE3 genotype is the most prevalent worldwide, current findings have particular implications for human health.

Chronic exposure to chlorpyrifos triggered body weight increase and memory impairment depending on human apoE polymorphisms in a targeted replacement mouse model

Despite restrictions on their use, humans are still constantly exposed to organophosphates (OPs). A huge number of studies have ratified the neurotoxic effects of chlorpyrifos (CPF) and suggested its association with neurodegenerative diseases, but data are still scarce. Human apolipoprotein E (apoE) plays an important role in lipid transport and distribution. In humans, the apoE4 isoform has been linked to an increased risk of Alzheimers disease (AD). ApoE3 is the most prevalent isoform worldwide, and has been often established as the healthful one. The current study, performed in targeted replacement (TR) adult male mice, aimed to inquire whether genetic variations of the human apoE respond differently to a chronic dietary challenge with CPF. At four/five months of age, mice carrying apoE2, apoE3 or apoE4 were pair-fed a diet supplemented with CPF at 0 or 2mg/kg body weight/day for 13weeks. Cholinergic signs were monitored daily and body weight changes weekly. In the last week of treatment, learning and memory were assessed in a Barnes maze task. Dietary CPF challenge increased body weight only in apoE3 mice. Differences in the acquisition and retention of the Barnes maze were attributed to apoE genetic differences. Our results showed that apoE4 mice performed worse than apoE2 and apoE3 carriers in the acquisition period of the spatial task, and that apoE2 mice had poorer retention than the other two genotypes. On the other hand, CPF increased the search velocity of apoE2 subjects during the acquisition period. Retention was impaired only in CPF-exposed apoE3 mice. These results underline that gene×environment interactions need to be taken into account in epidemiological studies. Given that apoE3, the most common polymorphism in humans, has proved to be the most sensitive to CPF, the potential implications for human health merit serious thought.