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6. The effect of supplementation with omega-3 polyunsaturated fatty acids on markers of oxidative stress in elderly exposed to PM2.5.

Author

Romieu I, Garcia-Esteban R, Sunyer J, Rios C, Alcaraz-Zubeldia M, Velasco SR, and Holguin F

Abstract

BACKGROUND: The mechanisms of particulate matter (PM)-induced health effects are believed to involve inflammation and oxidative stress. Increased intake of omega-3 polyunsaturated fatty acids (n-3 PUFA) appears to have anti-inflammatory effects. OBJECTIVE: As part of a trial to evaluate whether n-3 PUFA supplementation could protect against the cardiac alterations linked to PM exposure, we measured biomarkers of response to oxidative stimuli [copper/zinc (Cu/Zn) superoxide dismutase (SOD) activity, lipoperoxidation (LPO) products, and reduced glutathione (GSH)] and evaluated the impact of supplementation on plasma levels. METHODS: We recruited residents from a nursing home in Mexico City chronically exposed to PM <= 2.5 microm in aerodynamic diameter (PM2.5) and followed them from 26 September 2001 to 10 April 2002. We randomly assigned subjects in a double-blind fashion to receive either fish oil (n-3 PUFA) or soy oil. We measured PM2.5 levels indoors at the nursing home, and measured Cu/Zn SOD activity, LPO products, and GSH at different times during presupplementation and supplementation phases. RESULTS: Supplementation with either fish or soy oil was related to an increase of Cu/Zn SOD activity and an increase in GSH plasma levels, whereas exposure to indoor PM2.5 levels was related to a decrease in Cu/Zn SOD activity and GSH plasma levels. CONCLUSION: Supplementation with n-3 PUFA appeared to modulate the adverse effects of PM2.5 on these biomarkers, particularly in the fish oil group. Supplementation with n-3 PUFA could modulate oxidative response to PM2.5 exposure. [ABSTRACT FROM AUTHOR]

Published
2008
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12. An exploratory study on the ability of manganese to supplement rotenone neurotoxicity in rats.

Author

Ibarra-Gutiérrez MT, Serrano-García N, Alcaraz-Zubeldia M, Pedraza-Chaverri J, and Orozco-Ibarra M

Subjects
Animals, Male, Rats, Brain drug effects, Brain metabolism, Dopamine and cAMP-Regulated Phosphoprotein 32 metabolism, Mitochondria drug effects, Mitochondria metabolism, alpha-Synuclein metabolism, Neurotoxicity Syndromes metabolism, Corpus Striatum metabolism, Corpus Striatum drug effects, Rotenone toxicity, Rats, Wistar, Manganese toxicity, Tyrosine 3-Monooxygenase metabolism
Abstract

Parkinson's disease (PD) is a complex disorder, primarily of idiopathic origin, with environmental stressors like rotenone and manganese linked to its development. This study explores their potential interaction and resulting neurotoxicity, aiming to understand how environmental factors contribute to PD. In an eight-day experiment, male Wistar rats weighing 280-300 g were subjected to rotenone, manganese, or a combination of both. Various parameters were assessed, including body weight, behavior, serum markers, tissue damage, protein levels (tyrosine hydroxylase, Dopamine- and cAMP-regulated neuronal phosphoprotein -DARPP-32-, and α-synuclein), and mitochondrial function. Manganese heightened rotenone's impact on reducing food intake without causing kidney or liver dysfunction. However, the combined exposure intensified neurotoxicity, which was evident in augmented broken nuclei and decreased tyrosine hydroxylase and DARPP-32 levels in the striatum. While overall mitochondrial function was preserved, co-administration reduced complex IV activity in the midbrain and liver. In conclusion, our findings revealed a parallel toxic effect induced by rotenone and manganese. Notably, while these substances do not target the same dopaminergic regions, a notable escalation in toxicity is evident in the striatum, the brain region where their toxic effects converge. This study highlights the need for further exploration regarding the interaction of environmental factors and their possible impact on the etiology of PD., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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13. Influence of glutathione-related genetic variants on the oxidative stress profile of Mexican patients with psychotic disorders.

Author

Mayén-Lobo YG, Alcaraz-Zubeldia M, Dávila-Ortiz de Montellano DJ, Motilla-Frías BA, García-Manteca MY, Ortega-Vázquez A, Aviña-Cervantes CL, Crail-Meléndez ED, Ríos C, López-López M, and Monroy-Jaramillo N

Subjects
Humans, Polymorphism, Genetic, DNA Copy Number Variations, Genotype, Oxidative Stress genetics, Glutathione genetics, Glutathione metabolism, Antioxidants, Genetic Predisposition to Disease, Case-Control Studies, Clozapine therapeutic use, Psychotic Disorders drug therapy, Psychotic Disorders genetics
Abstract

Objective: The clinical trajectories of patients with psychotic disorders have divergent outcomes, which may result in part from glutathione (GSH)-related high-risk genotypes. We aimed to determine pharmacokinetics of clozapine, GSH levels, GSH peroxidase (GPx) activity, gene variants involved in the synthesis and metabolism of GSH, and their association with psychotic disorders in Mexican patients on clozapine monotherapy and controls., Methods: The sample included 75 patients with psychotic disorders on clozapine therapy and 40 paired healthy controls. Plasma clozapine/N-desmethylclozapine, GSH concentrations, and GPx activity were determined, along with genotyping of GCLC and GSTP1 variants and copy number variations of GSTP1, GSTT1, and GSTM1. Clinical, molecular and biochemical data were analyzed with a logistic regression model., Results: GSH levels were significantly reduced and, conversely, GPx activity was higher in PD patients compared to controls. GCLC&#95;GAG-7/9 genotype (OR=4.3, CI95=1.40-14.31, p=0.019) and hetero-/homozygous genotypes of GCLC&#95;rs761142 (OR=6.09, CI95=1.93-22.59, p=0.003) were found as risk factors for psychosis. The genetic variants were not related to clozapine/N-desmethylclozapine levels or to metabolic ratio., Conclusions: GCLC variants were associated with the oxidative stress profile of PD patients raising opportunities for intervention to improve their antioxidant defenses. Further studies with larger samples should explore this proposal., Competing Interests: The authors report no conflicts of interest.

Published
2023
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14. Metal-containing Particulate Matter and Associated Reduced Olfactory Identification Ability in Children from an Area of High Atmospheric Exposure in Mexico City.

Author

Guarneros M, López-Rivera C, Gonsebatt ME, Alcaraz-Zubeldia M, Hummel T, Schriever VA, Valdez B, and Hudson R

Subjects
Atmosphere chemistry, Biomarkers analysis, Child, Female, Hair chemistry, Humans, Lead analysis, Male, Manganese analysis, Mexico, Olfaction Disorders physiopathology, Particle Size, Particulate Matter analysis, Lead adverse effects, Manganese adverse effects, Olfaction Disorders chemically induced, Particulate Matter adverse effects
Abstract

Air pollution has been linked to poor olfactory function in human adults. Among pollutants, particulate matter (PM) is especially relevant, as it may contain toxic metal ions that can reach the brain via olfactory pathways. Our purpose was to investigate the relation between atmospheric PM and olfactory identification performance in children. Using a validated method, we tested the olfactory identification performance of 120 children, 6-12 years old, from two locations in Mexico City: a focal group (n = 60) from a region with high PM levels and a control group of equal size and similar socioeconomic level from a region with markedly lower PM concentrations. Groups were matched for age and sex. Concentrations of manganese and lead in the hair of participants were determined as biomarkers of exposure. Daily outdoor PM levels were obtained from official records, and indoor PM levels were measured in the children's classrooms. Official records confirmed higher levels of outdoor PM in the focal region during the days of testing. We also found higher classroom PM concentrations at the focal site. Children from the focal site had on average significantly lower olfactory identification scores than controls, and hair analysis showed significantly higher levels of manganese for the focal children but no difference in lead. Children appear to be vulnerable to the effects of air pollution on olfactory identification performance, and metal-containing particles likely play a role in this. Olfactory tests provide a sensitive, noninvasive means to assess central nervous function in populations facing poor air quality., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2020
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15. Nitric oxide donor molsidomine promotes retrieval of object recognition memory in a model of cognitive deficit induced by 192 IgG-saporin.

Author

Hernández-Melesio MA, Alcaraz-Zubeldia M, Jiménez-Capdeville ME, Martínez-Lazcano JC, Santoyo-Pérez ME, Quevedo-Corona L, Gerónimo-Olvera C, Sánchez-Mendoza A, Ríos C, and Pérez-Severiano F

Subjects
Acetylcholine metabolism, Animals, Antibodies, Monoclonal pharmacology, Choline O-Acetyltransferase metabolism, Cholinergic Neurons drug effects, Cognition drug effects, Cognitive Dysfunction chemically induced, Cognitive Dysfunction drug therapy, Hippocampus metabolism, Male, Maze Learning drug effects, Memory drug effects, Memory, Short-Term physiology, Molsidomine metabolism, Nitric Oxide Donors metabolism, Nitric Oxide Donors pharmacology, Rats, Rats, Wistar, Saporins pharmacology, Visual Perception drug effects, Memory Disorders drug therapy, Molsidomine pharmacology, Recognition, Psychology drug effects
Abstract

Nitric oxide (NO) plays a leading role in learning and memory processes. Previously, we showed its ability to modify the deleterious effect of immunotoxin 192 IgG-saporin (192-IgG-SAP) in the cholinergic system. The aim of this study was to analyze the potential of a NO donor (molsidomine, MOLS) to prevent the recognition memory deficits resulting from the septal cholinergic denervation by 192 IgG-SAP in rats. Quantification of neuronal and endothelial nitric oxide synthase (nNOS and eNOS, respectively) expression was evaluated in striatum, prefrontal cortex, and hippocampus. In addition, a choline acetyltransferase immunohistochemical analysis was performed in medial septum and assessed the effect of MOLS treatment on the spatial working memory of rats through a recognition memory test. Results showed that 192-IgG-SAP reduced the immunoreactivity of cholinergic septal neurons (41%), compared with PBS-receiving control rats (p < 0.05). Treatment with MOLS alone failed to antagonize the septal neuron population loss but prevented the progressive abnormal morphological changes of neurons. Those animals exposed to 192-IgG-SAP immunotoxin exhibited a reduction of cortical nNOS expression against the control group, whereas expression was enhanced in the 192-IgG-SAP + MOLS group. The most relevant finding was the recovering of the discrimination index exhibited by the 192-IgG-SAP + MOLS group. When compared with the rats exposed to the 192-IgG-SAP immunotoxin, they reached values similar to those observed in the PBS group. Our results show that although MOLS failed to block the cholinergic neurons loss induced by 192-IgG-SAP, it avoided the neuronal damage progression., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2019
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16. A Hypothesis of the Interaction of the Nitrergic and Serotonergic Systems in Aggressive Behavior Induced by Exposure to Lead.

Author

Martínez-Lazcano JC, López-Quiroz A, Alcantar-Almaraz R, Montes S, Sánchez-Mendoza A, Alcaraz-Zubeldia M, Tristán-López LA, Sánchez-Hernández BE, Morales-Martínez A, Ríos C, and Pérez-Severiano F

Abstract

The effects caused by exposure to lead (Pb) are still considered as a relevant health risk despite public policies aimed to restricting the use of this element. The toxicity limit in the blood (10 μg/dL, established by the Center for Disease Control and Prevention) has been insufficient to prevent adverse effects and even lower values have been related to neurobehavioral dysfunctions in children. Currently, there is not a safe limit of exposure to Pb. A large body of evidence points to environmental pollutant exposure as the cause of predisposition to violent behavior, among others. Considering the evidence by our group and others, we propose that Pb exposure induces alterations in the brain vasculature, specifically in nitric oxide synthases (NOS), affecting in turn the serotonergic system and leading to heightened aggressive behavior in the exposed individuals. This review article describes the consequences of Pb exposure on the nitrergic and serotonergic systems as well as its relationship with aggressive behavior. In addition, it summarizes the available therapy to prevent damage in gestation and among infants.

Published
2018
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17. Prenatal malnutrition and lead intake produce increased brain lipid peroxidation levels in newborn rats.

Author

Maldonado-Cedillo BG, Díaz-Ruiz A, Montes S, Galván-Arzate S, Ríos C, Beltrán-Campos V, Alcaraz-Zubeldia M, and Díaz-Cintra S

Subjects
Animals, Animals, Newborn, Cerebellum metabolism, Cerebellum pathology, Cerebral Cortex pathology, Female, Fetal Development, Fetal Growth Retardation etiology, Fetal Growth Retardation pathology, Lead Poisoning complications, Lead Poisoning metabolism, Lead Poisoning pathology, Male, Neurons metabolism, Organ Size, Organometallic Compounds administration & dosage, Oxidative Stress, Pregnancy, Pregnancy Complications metabolism, Pregnancy Complications pathology, Protein Deficiency complications, Protein Deficiency metabolism, Protein Deficiency pathology, Rats, Sprague-Dawley, Weight Gain, Cerebral Cortex metabolism, Fetal Growth Retardation metabolism, Lead Poisoning physiopathology, Lipid Peroxidation, Maternal Nutritional Physiological Phenomena, Pregnancy Complications physiopathology, Protein Deficiency physiopathology
Abstract

Objectives: Prenatal malnutrition (M) and lead intoxication (Pb) have adverse effects on neuronal development; one of the cellular mechanisms involved is a disruption of the pro- and anti-oxidant balance. In the developing brain, the vulnerability of neuronal membrane phospholipids is variable across the different brain areas. This study assesses the susceptibility of different brain regions to damage by quitar tissue oxidative stress and lead quitar concentrations to determine whether the combined effect of prenatal malnutrition (M) and lead (Pb) intoxication is worse than the effect of either of them individually., Methods: M was induced with an isocaloric and hypoproteinic (6% casein) diet 4 weeks before pregnancy. Intoxication was produced with lead acetate in drinking water, from the first gestational day. Both the M and Pb models were continued until the day of birth. Four brain regions (hippocampus, cortex, striatum, and cerebellum) were dissected out to analyze the lipid peroxidation (LP) levels in four groups: normally nourished (C); normally nourished but intoxicated with lead (CPb); malnourished (M); and M intoxicated with lead (MPb)., Results: Dam body and brain weights were significantly reduced in the fourth gestational week in the MPb group. Their pups had significantly lower body weights than those in the C and CPb groups. The PbM group exhibited significant increases of lead concentration and LP in all areas evaluated. A potentiation effect of Pb and M on LP was found in the cerebellum., Discussion: This study provides information on how environmental conditions (intoxication and malnutrition) during the intrauterine period could differentially affect the development of neuronal plasticity and, in consequence, alter adult brain functions such as learning and memory.

Published
2016
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18. Clinical and biological changes under treatment with lithium carbonate and valproic acid in sporadic amyotrophic lateral sclerosis.

Author

Boll MC, Bayliss L, Vargas-Cañas S, Burgos J, Montes S, Peñaloza-Solano G, Rios C, and Alcaraz-Zubeldia M

Subjects
Amyotrophic Lateral Sclerosis mortality, Cadmium blood, Cadmium urine, Cause of Death, Disability Evaluation, Female, Follow-Up Studies, Glutathione metabolism, Glutathione Peroxidase metabolism, Humans, Kaplan-Meier Estimate, Male, Middle Aged, Statistics, Nonparametric, Superoxide Dismutase metabolism, Superoxide Dismutase-1, Amyotrophic Lateral Sclerosis drug therapy, Amyotrophic Lateral Sclerosis metabolism, Enzyme Inhibitors therapeutic use, Lithium Carbonate therapeutic use, Valproic Acid therapeutic use
Abstract

The aim of this study was to evaluate the ability of lithium carbonate and valproate cotreatment to modify the survival rate and functional score of patients with definite sporadic amyotrophic lateral sclerosis (ALS). The clinical response of 18 enrolled patients was compared to the evolution of 31 ALS out-patients, carefully paired by age, gender, evolution rate and time of the disease, who never received treatment with lithium and/or valproate. The ALS functional rating scale, revised version (ALSFRS-R), was applied at baseline, 1 month, and every 4 months until the outcome (death or an adverse event). Biochemical markers, such as Cu/Zn superoxide dismutase and glutathione peroxidase activity, and reduced glutathione were assayed in plasma samples obtained at the baseline visit and after 5 and 9 months of treatment. Our results showed that lithium and valproate cotreatment significantly increased survival (p=0.016), and this treatment also exerted neuroprotection in our patients because all three markers reached levels that were not significantly different from the matched samples of healthy donors. The trial stopped after 21 months, when the sample was reduced to under two-thirds, due to the late adverse events of the treatment. The results call for large randomized clinical trials with the dual association, but at low doses to avoid adverse events., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2014
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19. Medical management of Parkinson's disease: focus on neuroprotection.

Author

Boll MC, Alcaraz-Zubeldia M, and Rios C

Abstract

Neuroprotection refers to the protection of neurons from excitotoxicity, oxidative stress and apoptosis as principal mechanisms of cell loss in a variety of diseases of the central nervous system. Our interest in Parkinson's disease (PD) treatment is focused on drugs with neuroprotective properties in preclinical experiments and evidence-based efficacy in human subjects. To this date, neuroprotection has never been solidly proven in clinical trials but recent adequate markers and/or strategies to study and promote this important goal are described. A myriad of compounds with protective properties in cell cultures and animal models yield to few treatments in clinical practice. At present, markers of neuronal vitality, disease modifying effects and long term clinical stability are the elements searched for in clinical trials. This review highlights new strategies to monitor patients with PD. Currently, neuroprotection in subjects has not been solidly achieved for selegiline and pramipexole; however, a recent rasagiline trial design is showing new indications of disease course modifying effects. In neurological practice, it is of utmost importance to take into account the potential neuroprotection exerted by a treatment in conjunction with its symptomatic efficacy.

Published
2011
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20. Molsidomine modulates the cNOS activity in an experimental model of cholinergic damage induced by 192-IgG saporin.

Author

Hernández-Melesio MA, González-Esquivel D, Ortíz-Plata A, Sánchez-Mendoza A, Sánchez-García A, Alcaraz-Zubeldia M, Ríos C, and Pérez-Severiano F

Subjects
Animals, Antibodies, Monoclonal toxicity, Cholinergic Agents toxicity, Male, Rats, Rats, Wistar, Ribosome Inactivating Proteins, Type 1 toxicity, Saporins, Brain drug effects, Brain metabolism, Molsidomine pharmacology, Nitric Oxide Donors pharmacology, Nitric Oxide Synthase metabolism
Abstract

The aim of this work was to study the effect of molsidomine (MOLS), a nitric oxide (NO) donor, on the nitrergic system changes in an experimental model of cholinergic damage induced by 192 IgG saporin (SAP). Male rats were injured by intraseptal administration of SAP (0.22 μg), after seven days, rats were administered with MOLS (4 mg/kg, i.p.) 60 min before sacrifice. Prefrontal cortex (PC), striatum (S) and hippocampus (HC) were dissected out. Results showed significant recovery of the constitutive NOS activity (cNOS) in PC and S regions by MOLS but not in HC compared against controls. SAP reduced the cellular population in the lesion site and MOLS was able to avoid the progression of damage in this area. NO donor is able to modulate the nitrergic status in an experimental model induced by SAP., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published
2011
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21. Nitric oxide synthase immunolocalization and expression in the rat hippocampus after sub-acute lead acetate exposure in rats.

Author

Nava-Ruíz C, Alcaraz-Zubeldia M, Méndez-Armenta M, Vergara P, Díaz-Ruìz A, and Ríos C

Subjects
Animals, Blotting, Western, Immunohistochemistry, Isoenzymes, Male, Organometallic Compounds analysis, Rats, Rats, Wistar, Spectrophotometry, Atomic, Hippocampus drug effects, Hippocampus enzymology, Nitric Oxide Synthase biosynthesis, Nitric Oxide Synthase drug effects, Organometallic Compounds toxicity
Abstract

Interference with nitric oxide production is a possible mechanism for lead neurotoxicity. In this work, we studied the effects of sub-acute lead administration on the distribution of NOS isoforms in the hippocampus with respect to blood and hippocampal lead levels. Lead acetate (125, 250 and 500ppm) was given via drinking water to adult male Wistar rats for 14 days. We determined blood and hippocampal lead levels by atomic absorption spectrophotometry. Antibodies against three isoforms of NOS were used to analyze expression and immunolocalization using western blotting and immunohistochemistry, respectively. Blood and hippocampal lead levels were increased in a dose-dependent manner in groups treated with lead acetate. We found diminished expression and immunoreactivity of nNOS and eNOS at 500ppm as compared to the control group. No expression and immunoreactivity was observed in hippocampus for iNOS. The observed high levels of lead in the blood reflect free physiological access to this metal to the organism and were related to diminished expression and immunoreactivity for nNOS and eNOS.

Published
2010
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22. Copper sulfate prevents tyrosine hydroxylase reduced activity and motor deficits in a Parkinson's disease model in mice.

Author

Alcaraz-Zubeldia M, Boll-Woehrlen MC, Montes-López S, Pérez-Severiano F, Martínez-Lazcano JC, Díaz-Ruiz A, and Ríos C

Subjects
Animals, Male, Mice, Mice, Inbred C57BL, Parkinson Disease enzymology, Parkinson Disease physiopathology, Copper Sulfate therapeutic use, Disease Models, Animal, Parkinson Disease drug therapy, Tyrosine 3-Monooxygenase metabolism
Abstract

Introduction: Parkinson's disease (PD) is a neurodegenerative disorder characterized by the presence of motor disturbances, derived from the striatal dopamine depletion. Previously, we reported that CuSO4 pretreatment blocked an oxidative stress marker (lipid peroxidation) and prevented the striatal dopamine depletion induced by the administration of the 1-methyl-4-phenylpiridinium (MPP+), the toxic metabolite of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), a model of PD., Objective: . To determine if tyrosine hydroxylase (TH), the rate-limiting synthetic enzyme of dopamine, is implicated in the neuroprotective effect of CuSO4 pretreatment, and if this neuroprotective effect is able to prevent the hypokinetic state (measured as spontaneous locomotor activity, SLA) induced by the experimental model of PD., Material and Methods: C57 Black/6J mice received a single dose of CuSO4 (2.5 mg/kg, i.p.) either 16 or 24 h before the administration of MPP+ (18 microg/3 microl, i.c.v.). Twenty four hours later, mice SLA was registered and animals sacrificed. Striatal L-DOPA accumulation derived from the administration of a central dopamine descarboxilase inhibitor was evaluated, a strategy considered as a reliable indirect analysis of tyrosine hydroxylase activity (THA)., Results: Administration of, MPP+ decreased SLA (-52%; p = 0.003) as compared to control group values, whereas those mice pretreated with CuSO4 16 h before MPP+, increased SLA by 47% as compared with control group (p = 0.015). Mice pretreated with CuSO4 24 h before MPP+, also showed a statistically significant increase in SLA (71%; p = 0.02), when compared with control group. As a consequence of MPP+ administration, THA was also reduced as compared to control group values (32%; p < 0.05). Reduction of THA was blocked when mice were pretreated with CuSO4 16 h before MPP+. Moreover, mice receiving the CuSO4 24 h before MPP+ showed a significant increase (38%; p < 0.05) in THA when compared with control group., Conclusion: Results suggest that preservation of THA participates in the neuroprotective effects derived from the copper supplementation, a phenomenon that avoid the hypokinetic state induced by the MPP+ experimental model of PD.

Published
2009

23. Differential time-course of the increase of antioxidant thiol-defenses in the acute phase after spinal cord injury in rats.

Author

Diaz-Ruiz A, Alcaraz-Zubeldia M, Maldonado V, Salgado-Ceballos H, Mendez-Armenta M, and Rios C

Subjects
Animals, Disease Models, Animal, Female, Rats, Rats, Wistar, Time Factors, Antioxidants metabolism, Gene Expression Regulation physiology, Glutathione metabolism, Metallothionein metabolism, Oxidoreductases metabolism, Spinal Cord Injuries metabolism, Spinal Cord Injuries physiopathology
Abstract

Spinal cord injury (SCI) is a world-wide health problem. After traumatic injury, spinal cord tissue starts a series of self-destructive mechanisms, known as the secondary lesion. The leading mechanisms of damage after SCI are excitotoxicity, free radicals' overproduction, inflammation and apoptosis. Metallothionein (MT) and reduced glutathione (GSH) are low-molecular-weight, cysteine-rich peptides able to scavenge free radicals. MT and GSH participation as neuroprotective molecules after SCI is unknown. The aim of the present study is to describe the changes of MT and GSH contents and GSH peroxidase (GPx) activity in the acute phase after SCI in rats. Female Wistar rats weighing 200-250g were submitted to spinal cord contusion model, by means of a computer-controlled device (NYU impactor). Rats receiving laminectomy were used as a control group. Animals were killed 2, 4, 12 and 24h after surgery. MT was quantified by the silver-saturation method, using atomic absorption spectrophotometry. GSH and GPx were assayed by spectrophotometry. Results indicate an increased MT content by effect of SCI, only at 4 and 24h, as compared to sham group values. Meanwhile, GSH was found decreased at 4, 12 and 24h after SCI. Interestingly, GPx activity was raised at all time points, indicating that this enzymatic defense is activated soon after SCI. Results suggest that thiol-based defenses, MT and GSH, are differentially expressed by spinal cord tissue to cope with the various processes of damage after lesion.

Published
2009
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24. Free copper, ferroxidase and SOD1 activities, lipid peroxidation and NO(x) content in the CSF. A different marker profile in four neurodegenerative diseases.

Author

Boll MC, Alcaraz-Zubeldia M, Montes S, and Rios C

Subjects
Alzheimer Disease cerebrospinal fluid, Amyotrophic Lateral Sclerosis cerebrospinal fluid, Animals, Antioxidants metabolism, Humans, Huntington Disease cerebrospinal fluid, Parkinson Disease cerebrospinal fluid, ROC Curve, Superoxide Dismutase-1, Biomarkers cerebrospinal fluid, Ceruloplasmin cerebrospinal fluid, Copper cerebrospinal fluid, Lipid Peroxidation, Neurodegenerative Diseases cerebrospinal fluid, Nitric Oxide cerebrospinal fluid, Superoxide Dismutase cerebrospinal fluid
Abstract

The understanding of oxidative damage in different neurodegenerative diseases could enhance therapeutic strategies. Our objective was to quantify lipoperoxidation and other oxidative products as well as the activity of antioxidant enzymes and cofactors in cerebrospinal fluid (CSF) samples. We recorded data from all new patients with a diagnosis of either one of the four most frequent neurodegenerative diseases: Parkinson's disease (PD), Alzheimer's disease (AD), Huntington's disease (HD) and lateral amyotrophic sclerosis (ALS). The sum of nitrites and nitrates as end products of nitric oxide (NO) were increased in the four degenerative diseases and fluorescent lipoperoxidation products in three (excepting ALS). A decreased Cu/Zn-dependent superoxide dismutase (SOD) activity characterized the four diseases. A significantly decreased ferroxidase activity was found in PD, HD and AD, agreeing with findings of iron deposition in these entities, while free copper was found to be increased in CSF and appeared to be a good biomarker of PD.

Published
2008
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25. Tissue spinal cord response in rats after implants of polypyrrole and polyethylene glycol obtained by plasma.

Author

Olayo R, Ríos C, Salgado-Ceballos H, Cruz GJ, Morales J, Olayo MG, Alcaraz-Zubeldia M, Alvarez AL, Mondragon R, Morales A, and Diaz-Ruiz A

Subjects
Animals, Biocompatible Materials chemistry, Female, Microscopy, Electron, Scanning, Rats, Rats, Long-Evans, Spectroscopy, Fourier Transform Infrared, Spinal Cord pathology, Implants, Experimental, Polyethylene Glycols chemistry, Polymers chemistry, Pyrroles chemistry, Spinal Cord Injuries therapy
Abstract

Most of the biomaterials used nowadays for the reconstruction of the spinal cord (SC) tissue after an injury, tested in animals, have obtained modest results. This work presents a study about the compatibility of two novel, non-biodegradable, semi-conductive materials, obtained by plasma polymerization: iodine-doped pyrrole (PPy/I) and pyrrole-polyethylene glycol (PPy/PEG). Both polymers, separately, were implanted in the SC tissue of rats after a transection. Prior to implantation, the elemental composition and the physico-chemical properties of polymers were studied by electron scanning microscopy, IR Spectroscopy and thermogravimetric analysis. We used adult female Long Evans rats, subjected to SC transection. Animals were randomized to be allocated in one of the treatment groups and were killed four weeks after the lesion for histology study. Results showed that both implants were integrated to the SC tissue, as inflammatory and gliotic responses, similar to those observed in the control group, and rejection of the implant, were not evident. Moreover, the immediate effect of PPy/I or PPy/PEG in the injured SC prevented secondary tissue destruction, as compared to non-implanted control animals. In conclusion, implants of semi-conductive polymers were well-tolerated and integrated favorably to SC tissue after transection.

Published
2008
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26. Acute alterations of glutamate, glutamine, GABA, and other amino acids after spinal cord contusion in rats.

Author

Diaz-Ruiz A, Salgado-Ceballos H, Montes S, Maldonado V, Tristan L, Alcaraz-Zubeldia M, and Ríos C

Subjects
Animals, Aspartic Acid metabolism, Citrulline metabolism, Female, Glycine metabolism, Rats, Rats, Wistar, Taurine metabolism, Glutamic Acid metabolism, Glutamine metabolism, Spinal Cord Injuries metabolism, gamma-Aminobutyric Acid metabolism
Abstract

Spinal cord injury (SCI) leads to an alteration of energetic metabolism. As a consequence, glutamate, glutamine, aspartate and other important amino acids are altered after damage, leading to important disregulation of the neurochemical pathways. In the present study, we characterized the acute-phase changes in tissue concentration of amino acids involved in neurotransmitter and non-neurotransmitter actions after SCI by contusion in rats. Animals were submitted to either laminectomy or SCI by contusion and sacrificed at 2, 4, 8, and 12 h after lesion, for the analysis of tissue amino acids by HPLC. Results showed that both aspartate and glutamate contents diminished after SCI, while glutamine concentrations raised, however, the sum of molar concentrations of glutamate plus glutamine remained unchanged at all time points. GABA concentrations increased versus control group, while glycine remained unchanged. Finally, citrulline levels increased by effect of SCI, while taurine-increased only 4 h after lesion. Results indicate complex acute-phase changes in amino acids concentrations after SCI, reflecting the different damaging processes unchained after lesion.

Published
2007
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27. Role of manganese accumulation in increased brain glutamine of the cirrhotic rat.

Author

Montes S, Alcaraz-Zubeldia M, Muriel P, and Rios C

Subjects
Animals, Disease Models, Animal, Glutamate-Ammonia Ligase metabolism, Kinetics, Male, Organ Specificity, Rats, Rats, Wistar, Time Factors, Brain metabolism, Glutamine metabolism, Liver Cirrhosis, Experimental metabolism, Manganese metabolism
Abstract

Cirrhosis promotes increases of both manganese and glutamine in brain. Manganese is a modulator and glutamine is the product of glutamine synthetase. This work studies the relationship between manganese and glutamine synthetase in a model of cirrhosis in the rat. We administered manganese (1 g/L) in the drinking water of sham-operated and bile-duct obstructed rats. We evaluated the manganese and glutamine accumulation and the glutamine synthetase activity in frontal cortex, striatum, and pallidum after 2, 4, and 6 weeks of biliary obstruction or sham surgery. Cirrhotic rats receiving manganese increased their brain content of metal about 400%-600% after 4 weeks of treatment (P < .05) and also remarkably accumulated glutamine through time in the three regions studied (P < .05 at week 6). Interestingly, bile-duct obstructed rats treated with manganese showed no effect on glutamine synthetase activity. Results from this study suggest that manganese induces increases of brain glutamine independently of its synthesis.

Published
2003
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28. Raised nitrate concentration and low SOD activity in the CSF of sporadic ALS patients.

Author

Boll MC, Alcaraz-Zubeldia M, Montes S, Murillo-Bonilla L, and Rios C

Subjects
Adult, Disease Progression, Evoked Potentials physiology, Female, Humans, Male, Middle Aged, Motor Neuron Disease enzymology, Motor Neuron Disease physiopathology, Reference Values, Regression Analysis, Risk Factors, Ulnar Nerve physiopathology, Motor Neuron Disease cerebrospinal fluid, Nitrates cerebrospinal fluid, Nitric Oxide cerebrospinal fluid, Superoxide Dismutase cerebrospinal fluid
Abstract

To determine whether or not the occurrence of sporadic amyotrophic lateral sclerosis (sALS) is associated with both excess nitric oxide (NO) metabolites and decreased protective superoxide dismutase (SOD) activity in the cerebrospinal fluid (CSF), we measured nitrate concentration and SOD activity in the CSF of sALS patients and in age- and gender-matched controls. We found stable NO metabolite levels to be significantly higher and SOD activity lower in the CSF of sALS patients. In addition, SOD showed a negative correlation with motor neuron axonal damage expressed as the amplitude of motor action potentials in upper limbs. Our results provide new evidence in vivo suggesting that NO products and SOD activity play a role in oxidant/ antioxidant imbalance in sporadic ALS.

Published
2003
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29. A method to induce manganese accumulation in the brain of the cirrhotic rat and its evaluation.

Author

Montes S, Alcaraz-Zubeldia M, Ríos C, and Muriel P

Subjects
Animals, Biliary Tract Surgical Procedures, Brain metabolism, Brain physiopathology, Food, Formulated adverse effects, Hepatic Encephalopathy etiology, Hepatic Encephalopathy physiopathology, Liver Cirrhosis, Biliary etiology, Liver Cirrhosis, Biliary physiopathology, Male, Manganese Poisoning etiology, Manganese Poisoning physiopathology, Rats, Rats, Wistar, Spectrophotometry, Atomic, Hepatic Encephalopathy metabolism, Liver Cirrhosis, Biliary complications, Manganese metabolism, Manganese Poisoning metabolism
Abstract

Cirrhotic patients tend to accumulate manganese in their brain, especially in basal ganglia. Manganese is a well-known neurotoxic metal, however, its effect in a condition such as liver damage has not been explored deeply due to the lack of a suitable experimental model. A method to induce manganese accumulation in the brain of the cirrhotic rat is described. Cirrhosis was induced by obstruction of biliary duct and simultaneous treatment with manganese in the drinking water (0.5 or 1 mg/ml) during 4 weeks. Metal brain accumulation was low in sham-operated rats with both of the Mn concentrations used. In contrast, manganese treatment to bile obstructed rats resulted in fourfold and eightfold metal increments in the 0.5 and 1 mg/ml Mn2+ concentrations, respectively. This method is useful to induce brain manganese deposition and to study its consequences.

Published
2002
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30. Neuroprotective effect of acute and chronic administration of copper (II) sulfate against MPP+ neurotoxicity in mice.

Author

Alcaraz-Zubeldia M, Rojas P, Boll C, and Rios C

Subjects
Animals, Copper metabolism, Copper Sulfate administration & dosage, Corpus Striatum drug effects, Corpus Striatum metabolism, Dopamine metabolism, Dose-Response Relationship, Drug, Drug Administration Schedule, Lipid Peroxides metabolism, Male, Mesencephalon metabolism, Mice, Mice, Inbred C57BL, Neuroprotective Agents administration & dosage, Time Factors, Transaminases blood, 1-Methyl-4-phenylpyridinium poisoning, Copper Sulfate pharmacology, Neuroprotective Agents pharmacology, Neurotoxins pharmacology
Abstract

Neurodegenerative effects of MPP+, the main metabolite of MPTP include dopamine (DA) depletion and enhanced lipid peroxidation (LPO) in mice striata, both associated to free radicals overproduction. Since copper is related to several antioxidant enzymes, we tested its neuroprotective effect against MPP+-induced neurotoxicity (20 microg/3 microl). CuSO4 pretreatment was administrated by either acute (2.5 mg/kg, i.p.) or chronic (350 or 700 mg/l doses through drinking water, for 30 days) schemes. Acute administration blocked MPP+-induced striatal LPO only when administered 16 or 24 hours before MPP+, and prevented the DA-depleting effect only at 24 hours. Chronic CuSO4 prevented the LPO increase, and blocked the DA depletion only at the higher dose used (700 mg/l). Neuroprotective effect of CuSO4 was dependent on the dose and the time of pretreatment, which suggest that this lag could be related with mechanisms of activation or synthesis of copper-dependent proteins responsible of cellular defense against MPP+.

Published
2001
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31. Anitumoral effect of thallium against N-ethyl-N-nitroso-urea-induced brain tumors.

Author

Barroso-Moguel R, Galván-Arzate S, Villeda-Hernández J, Méndez-Armenta M, Alcaraz-Zubeldia MM, and Ríos C

Subjects
Animals, Brain Neoplasms chemically induced, Female, Injections, Placenta, Pregnancy, Rats, Rats, Wistar, Antineoplastic Agents pharmacology, Brain Neoplasms prevention & control, Ethylnitrosourea administration & dosage, Thallium pharmacology
Published
1994

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