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1.
Mol Cell Biochem ; 391(1-2): 137-45, 2014 Jun.
Article in English | MEDLINE | ID: mdl-24532006

ABSTRACT

Accumulation of methylmalonic acid (MMA) in tissues and biological fluids is the biochemical hallmark of methylmalonic aciduria. Affected patients present renal failure and severe neurological findings. Considering that the underlying pathomechanisms of tissue damage are not yet understood, in the present work we assessed the in vivo e in vitro effects of MMA on DNA damage in brain and kidney, as well as on p53 and caspase 3 levels, in the presence or absence of gentamicin (acute renal failure model). For in vitro studies, tissue prisms were incubated in the presence of different concentrations of MMA and/or gentamicin for one hour. For in vivo studies, animals received a single injection of gentamicin (70 mg/kg) and/or three injections of MMA (1.67 µmol/g; 11 h interval between injections). The animals were killed 1 h after the last MMA injection. Controls received saline in the same volumes. DNA damage was analyzed by the comet assay. We found that MMA and gentamicin alone or combined in vitro increased DNA damage in cerebral cortex and kidney of rats. Furthermore, MMA administration increased DNA damage in both brain and kidney. Gentamicin per se induced DNA damage only in kidney, and the association of MMA plus gentamicin also caused DNA damage in cerebral cortex and kidney. On the other hand, p53 and caspase 3 levels were not altered by the administration of MMA and/or gentamicin. Our findings provide evidence that DNA damage may contribute to the neurological and renal damage found in patients affected by methylmalonic aciduria.


Subject(s)
Brain/pathology , DNA Damage , Kidney/pathology , Methylmalonic Acid/toxicity , Animals , Brain/drug effects , Caspase 3/metabolism , Cell Count , Gentamicins/administration & dosage , Gentamicins/toxicity , Kidney/drug effects , Methylmalonic Acid/administration & dosage , Methylmalonic Acid/therapeutic use , Rats, Wistar , Tumor Suppressor Protein p53/metabolism
2.
Environ Toxicol Pharmacol ; 36(1): 194-201, 2013 Jul.
Article in English | MEDLINE | ID: mdl-23619523

ABSTRACT

The aims of the study were to determine the heavy metal content in the tissues of Hypsiboas faber from a coal mining area and to compare the DNA damage in the blood cells of these animals with that of animals living in an unpolluted area. The heavy metal content was detected according to the technique of Particle-Induced X-ray Emission (PIXE) and the DNA damage was assessed by the Comet assay. Our results reveal that the specimens of H. faber collected from the coal mining area exhibited elements of order Fe>Cu>Al>Zn>Rb>Mn>Br, independently of the organ. The values of Comet assay parameters (DNA damage index and DNA damage frequency) were significantly higher in specimens collected from the coal mining area than in the reference animals. Our study concludes that the coal mining residues are genotoxic to amphibians and may have adverse effects on soil, water, vegetation and wild animals.


Subject(s)
Anura/metabolism , Coal Mining , DNA Damage , Environmental Pollutants/analysis , Metals/analysis , Animals , Brazil , Bromine/analysis , Bromine/toxicity , Comet Assay , Environmental Monitoring , Environmental Pollutants/toxicity , Kidney/chemistry , Liver/chemistry , Male , Metals/toxicity , Muscle, Skeletal/chemistry
3.
Pharmacol Biochem Behav ; 103(2): 197-203, 2012 Dec.
Article in English | MEDLINE | ID: mdl-22960046

ABSTRACT

Neuropeptide S (NPS) and its receptor were recently discovered in the central nervous system. In rodents, NPS promotes hyperlocomotion, wakefulness, anxiolysis, anorexia, and analgesia and enhances memory when injected intracerebroventricularly (i.c.v.). Herein, NPS at different doses (0.01, 0.1 and 1nmol) was i.c.v. administered in mice challenged with pentylenetetrazole (PTZ; 60mg/kg) repeatedly injected. Aiming to assess behavioral alterations and oxidative damage to macromolecules in the brain, NPS was injected 5min prior to the last dose of PTZ. The administration of NPS only at 1nmol increased the duration of seizures evoked by PTZ, without modifying frequency and latency of seizures. Biochemical analysis revealed that NPS attenuated PTZ-induced oxidative damage to proteins and lipids in the hippocampus and cerebral cortex. In contrast, the administration of NPS to PTZ-treated mice increased DNA damage in the hippocampus, but not cerebral cortex. In conclusion, this is the first evidence of the potential proconvulsive effects of NPS in mice. The protective effects of NPS against lipid and protein oxidative damage in the mouse hippocampus and cerebral cortex evoked by PTZ-induced seizures are quite unexpected. The present findings were discussed analyzing the paradoxical effects of NPS: facilitation of convulsive behavior and protection against oxidative damage to lipids and proteins.


Subject(s)
Neuropeptides/pharmacology , Oxidative Stress/drug effects , Pentylenetetrazole/toxicity , Seizures/drug therapy , Animals , Behavior, Animal , Lipid Peroxidation , Male , Mice , Neuropeptides/therapeutic use , Seizures/metabolism
4.
Neurosci Lett ; 471(1): 6-9, 2010 Feb 26.
Article in English | MEDLINE | ID: mdl-20056132

ABSTRACT

There is an emerging body of data suggesting that bipolar disorder is associated with DNA damage. Intracerebroventricular (i.c.v.) administration of ouabain in rats results in manic-like alterations. We evaluated DNA damage of peripheral blood, cerebrospinal fluid and hippocampus of rats after i.c.v. ouabain injection. Ouabain-induced hyperlocomotion was examined in an open field. Additionally, we used single cell gel electrophoresis (comet assay) to measure early transient damage in cerebrospinal fluid (CSF), hippocampus and blood; and the micronucleus test to measure persistent damage in total blood samples of rats after ouabain administration. Our findings demonstrated that ouabain induced hyperlocomotion in rats, and this response remained up to 7 days following a single i.c.v. injection. In addition, we observed that the persistent increase in the rat spontaneous locomotion is associated with increased hippocampal and peripheral index of early DNA damage in rats. No significant alterations were observed in the micronucleus frequency in total blood samples of the rats after the ouabain i.c.v. injection. These results suggest that ouabain may induce peripheral and central early DNA damage, but this early damage may be repaired.


Subject(s)
Bipolar Disorder/genetics , DNA Damage , Ouabain , Animals , Bipolar Disorder/chemically induced , Bipolar Disorder/psychology , Comet Assay , DNA/blood , DNA/cerebrospinal fluid , DNA/metabolism , Disease Models, Animal , Hippocampus/metabolism , Injections, Intraventricular , Male , Micronucleus Tests , Motor Activity , Rats , Rats, Wistar
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