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4. In health and illness: does taste remain consistent? Exploring the influence of inflammation on taste perception through a systematic review and meta-analysis.

Author

LÓPEZ-SALIDO, S. C., ESPINOZA-GUTIÉRREZ, H. A., HOUSNI, F. E., FLORES-SOTO, M. E., and VIVEROS-PAREDES, J. M.

Abstract

OBJECTIVE: Dysgeusia is characterized by a loss of taste perception, leading to malnutrition. This situation affects inflammatory conditions such as respiratory and neurological conditions, obesity, cancer, chemotherapy, aging, and many others. To date, there is not much information on the prevalence and risk of dysgeusia in an inflammatory condition; also, it is unclear which flavor is altered. MATERIALS AND METHODS: We systematically searched three databases from January 2018 to January 2023. Participants were children, adults, or elderly persons with an inflammatory condition and evaluated taste loss. A random effects model was used for statistical analysis to calculate the pooled odds ratio with its corresponding 95.0% confidence interval to estimate the probability of taste alteration (dysgeusia) in an inflammatory condition. RESULTS: The data allowed us to conduct a systematic review, including 63 original articles and 15 studies to perform the meta-analysis. The meta-analysis indicated a heterogenicity of 84.7% with an odds ratio of 3.25 (2.66-3.96), indicating a significant risk of Alzheimer's disease, SARS-CoV-2, chemotherapy, and rhinosinusitis. CONCLUSIONS: Inflammatory conditions and taste alterations are linked. Dysgeusia is associated with a higher risk of malnutrition and poorer general health status, especially in vulnerable populations. [ABSTRACT FROM AUTHOR]

Published
2024

6. The leachate from the Urban Solid Waste Transfer Station produces neurotoxicity in Wistar rats

Author

Torres-González Omar Ricardo, Flores-Soto Mario Eduardo, Tejeda-Martínez Aldo Rafael, Sánchez-Hernández Iván Moisés, Chaparro-Huerta Verónica, Soria-Fregozo Cesar, González-Garibay Angélica Sofía, and Padilla-Camberos Eduardo

Subjects
Leachate, Landfill, In vivo, Neurotoxicity, Immunochemistry, Toxicology. Poisons, RA1190-1270
Abstract

Leachate from municipal solid waste is a mixture of xenobiotics capable of contaminating bodies of water and causing damage to the health of living beings that inhabit or consume contaminated water. A previous study revealed the presence of heavy metals in Urban Solid Waste Transfer Station (USWTS) leachate above the permissible national and international limits. In the present study, we demonstrate that subchronic oral administration (5 and 25 % v/v) of leachate to male Wistar rats caused changes in the immunoreactivity of the glial markers: GFAP and Iba-1, accompanied by an increase in the expression of caspase-3, and a decrease in the expression of the NeuN protein. Results indicate that the heavy metals present in the leachate induced neuronal loss in the prefrontal cortex, suggesting that these contaminants can cause neurological problems in mammals that consume surface water with xenobiotics, since the leachate could contaminate water bodies and underground water.

Published
2024
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10. The expression and binding of kainate receptors is modified in different brain regions by glutamate neurotoxicity during postnatal rat development

Author

Beas-Zárate, C., Ureña-Guerrero, M.E., Flores-Soto, M., Armendariz-Borunda, J., and Ortuño-Sahagún, D.

Subjects
KAINIC acid, NEURAL development, NEURONS, GLUTAMIC acid, DISEASES
Abstract

Abstract: Kainic acid receptor (KA-R) subunits are differentially expressed during brain development, and they modulate both neural growth and survival. High concentrations of glutamate in the brain can induce neuronal injury through these receptors, altering normal development. However, it is unclear whether KAR subunit expression itself is also modified by neonatal exposure to high glutamate. To analyze this, monosodium glutamate (4mg/g of body weight) was subcutaneously administered on postnatal days 1, 3, 5 and 7, and the expression of GluR5, GluR6, KA1 and KA2, as well as [3H]-kainic acid (KA-R) binding, was evaluated on postnatal days 14, 21, 30 and 60 in different regions of rat brain. As a result, high levels of GluR5 expression associated with strong [3H]-kainic acid binding were observed on postnatal days 30 and 60 in the cerebral cortex of rats exposed to glutamate. Similarly, the changes induced by glutamate administration in the expression of the KA1 and KA2 subunits were paralleled by those of [3H]-kainic acid binding in the striatum at postnatal days 21 and 30. In contrast, while KAR subunits were over expressed in the hippocampus, no changes were observed in [3H]-kainic acid binding in adult rats that had been exposed to glutamate. Therefore, glutamate modifies both the expression of kainic acid receptor subunits and kainic acid binding in a determined spatial and temporal manner, which may be indicative of a regional susceptibility to glutamate neurotoxicity. [Copyright &y& Elsevier]

Published
2007
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12. Correlation between compulsive behaviors and plastic changes in the dendritic spines of the prefrontal cortex and dorsolateral striatum of male rats.

Author

Hernández-González M, de la Torre-Vázquez J, Barrera-Cobos FJ, Flores-Soto M, Guevara MA, and González-Burgos I

Subjects
Animals, Male, Rats, Obsessive-Compulsive Disorder pathology, Obsessive-Compulsive Disorder physiopathology, Disease Models, Animal, Dopamine Agonists pharmacology, Rats, Wistar, Dendritic Spines pathology, Prefrontal Cortex pathology, Prefrontal Cortex drug effects, Compulsive Behavior physiopathology, Compulsive Behavior pathology, Corpus Striatum pathology, Corpus Striatum drug effects, Quinpirole pharmacology, Neuronal Plasticity physiology, Neuronal Plasticity drug effects
Abstract

Obsessive-compulsive disorder (OCD) is a mental affliction characterized by compulsive behaviors often manifested in intrusive thoughts and repetitive actions. The quinpirole model has been used with rats to replicate compulsive behaviors and study the neurophysiological processes associated with this pathology. Several changes in the dendritic spines of the medial prefrontal cortex (mPFC) and dorsolateral striatum (DLS) have been related to the occurrence of compulsive behaviors. Dendritic spines regulate excitatory synaptic contacts, and their morphology is associated with various brain pathologies. The present study was designed to correlate the occurrence of compulsive behaviors (generated by administering the drug quinpirole) with the morphology of the different types of dendritic spines in the mPFC and DLS. A total of 18 male rats were used. Half were assigned to the experimental group, the other half to the control group. The former received injections of quinpirole, while the latter rats were injected with physiological saline solution, for 10 days in both cases. After the experimental treatment, the quinpirole rats exhibited all the parameters indicative of compulsive behavior and a significant correlation with the density of stubby and wide neckless spines in both the mPFC and DLS. Dendritic spines from both mPFC and DLS neurons showed plastic changes correlatively with the expression of compulsive behavior induced by quinpirole. Further studies are suggested to evaluate the involvement of glutamatergic neurotransmission in the neurobiology of OCD., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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13. Design and Characterization of an Antimicrobial Biocomposite for Wound Dressings.

Author

Becerril-Serna L, Aguilar-Uscanga BR, Flores-Soto M, Solís-Pacheco JR, and Cisneros-López EO

Abstract

Skin wounds, due to their high vulnerability to infections, represent a significant public health issue. These wounds are not only disabling but also entail costly treatments and slow recovery. Consequently, it is crucial to implement new treatments based on bioactive and natural antimicrobial compounds utilizing fibers, polymers, hydrocolloids, and hydrogels to control potential infections and promote wound healing. This study aimed to develop a biocomposite with antimicrobial activity for the treatment of skin wounds, using sodium alginate, bamboo fiber, and a natural antimicrobial as ingredients. The physico-mechanical properties (Young's modulus, tensile strength, elongation at break, moisture absorption, and water vapor permeability) and antimicrobial activity against Escherichia coli , Staphylococcus aureus , and Staphylococcus hominis were determined. The results demonstrated that the designed biocomposite possesses adequate physico-mechanical properties, such as flexibility, strength, and water absorption capacity, in addition to exhibiting antibacterial activity, making it suitable to be used as a dressing in wound treatment.

Published
2024
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14. Sexual experience induces a preponderance of mushroom spines in the medial prefrontal cortex and nucleus accumbens of male rats.

Author

Hernández-González M, Barrera-Cobos FJ, Hernández-Arteaga E, González-Burgos I, Flores-Soto M, Guevara MA, and Cortes PM

Subjects
Rats, Male, Animals, Sexual Behavior, Animal, Copulation, Prefrontal Cortex, Dendritic Spines, Nucleus Accumbens, Agaricales
Abstract

Sexual experience improves copulatory performance in male rats. Copulatory performance has been associated with dendritic spines density in the medial prefrontal cortex (mPFC) and nucleus accumbens (NAcc), structures involved in the processing of sexual stimuli and the manifestation of sexual behavior. Dendritic spines modulate excitatory synaptic contacts, and their morphology is associated with the ability to learn from experience. This study was designed to determine the effect of sexual experience on the density of different types or shapes of dendritic spines in the mPFC and NAcc of male rats. A total of 16 male rats were used, half of them were sexually experienced while the other half were sexually inexperienced. After three sessions of sexual interaction to ejaculation, the sexually-experienced males presented shorter mount, intromission, and ejaculation latencies. Those rats presented a higher total dendritic density in the mPFC, and a higher numerical density of thin, mushroom, stubby, and wide spines. Sexual experience also increased the numerical density of mushroom spines in the NAcc. In both the mPFC and NAcc of the sexually experienced rats, there was a lower proportional density of thin spines and a higher proportional density of mushroom spines. Results show that the improvement in copulatory efficiency resulting from prior sexual experience in male rats is associated with changes in the proportional density of thin and mushroom dendritic spines in the mPFC and NAcc. This could represent the consolidation of afferent synaptic information in these brain regions, derived from the stimulus-sexual reward association., Competing Interests: Declaration of Competing Interest None., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2023
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15. Rehabilitation on a treadmill induces plastic changes in the dendritic spines of spinal motoneurons associated with improved execution after a pharmacological injury to the motor cortex in rats.

Author

Vázquez-Hernández N, Martínez-Torres NI, Tejeda-Martínez A, Flores-Soto M, Salgado-Ceballos H, and González-Burgos I

Subjects
Animals, Female, Rats, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid, Brain-Derived Neurotrophic Factor metabolism, Dendritic Spines physiology, Kainic Acid, Motor Neurons metabolism, Rats, Sprague-Dawley, Motor Cortex metabolism
Abstract

Lesions to the corticospinal tract result in several neurological symptoms and several rehabilitation protocols have proven useful in attempts to direct underlying plastic phenomena. However, the effects that such protocols may exert on the dendritic spines of motoneurons to enhance accuracy during rehabilitation are unknown. Thirty three female Sprague-Dawley adult rats were injected stereotaxically at the primary motor cerebral cortex (Fr1) with saline (CTL), or kainic acid (INJ), or kainic acid and further rehabilitation on a treadmill 16 days after lesion (INJ+RB). Motor performance was evaluated with the the Basso, Beatie and Bresnahan (BBB) locomotion scale and in the Rotarod. Spine density was quantified in a primary dendrite of motoneurons in Lamina IX in the ventral horn of the thoracolumbar spinal cord as well as spine morphology. AMPA, BDNF, PSD-95 and synaptophysin expression was evaluated by Western blot. INJ+RB group showed higher scores in motor performance. Animals from the INJ+RB group showed more thin, mushroom, stubby and wide spines than the CTL group, while the content of AMPA, BDNF, PSD-95 and Synaptophysin was not different between the groups INJ+RB and CTL. AMPA and synaptophysin content was greater in INJ group than in CTL and INJ+RB groups. The increase in the proportion of each type of spine observed in INJ+RB group suggest spinogenesis and a greater capability to integrate the afferent information to motoneurons under relatively stable molecular conditions at the synaptic level., Competing Interests: Declarations of interest None., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2022
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17. Pentylenetetrazol-induced seizures in adult rats are associated with plastic changes to the dendritic spines on hippocampal CA1 pyramidal neurons.

Author

Flores-Soto M, Romero-Guerrero C, Vázquez-Hernández N, Tejeda-Martínez A, Martín-Amaya-Barajas FL, Orozco-Suárez S, and González-Burgos I

Subjects
Animals, Disease Models, Animal, GABA Antagonists administration & dosage, Male, Pentylenetetrazole administration & dosage, Rats, Rats, Sprague-Dawley, Brain-Derived Neurotrophic Factor drug effects, CA1 Region, Hippocampal drug effects, Dendritic Spines drug effects, Epilepsy chemically induced, Epilepsy metabolism, GABA Antagonists pharmacology, Neuronal Plasticity drug effects, Pentylenetetrazole pharmacology, Pyramidal Cells drug effects
Abstract

Epilepsy is a chronic neurobehavioral disorder whereby an imbalance between neurochemical excitation and inhibition at the synaptic level provokes seizures. Various experimental models have been used to study epilepsy, including that based on acute or chronic administration of Pentylenetetrazol (PTZ). In this study, a single PTZ dose (60 mg/kg) was administered to adult male rats and 30 min later, various neurobiological parameters were studied related to the transmission and modulation of excitatory impulses in pyramidal neurons of the hippocampal CA1 field. Rats experienced generalized seizures 1-3 min after PTZ administration, accompanied by elevated levels of Synaptophysin and Glutaminase. This response suggests presynaptic glutamate release is exacerbated to toxic levels, which eventually provokes neuronal death as witnessed by the higher levels of Caspase-3, TUNEL and GFAP. Similarly, the increase in PSD-95 suggests that viable dendritic spines are functional. Indeed, the increase in stubby and wide spines is likely related to de novo spinogenesis, and the regulation of neuronal excitability, which could represent a plastic response to the synaptic over-excitation. Furthermore, the increase in mushroom spines could be associated with the storage of cognitive information and the potentiation of thin spines until they are transformed into mushroom spines. However, the reduction in BDNF suggests that the activity of these spines would be down-regulated, may in part be responsible for the cognitive decline related to hippocampal function in patients with epilepsy., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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18. Ibotenic acid induced lesions impair the modulation of dendritic spine plasticity in the prefrontal cortex and amygdala, a phenomenon that underlies working memory and social behavior.

Author

Martínez-Torres NI, Vázquez-Hernández N, Martín-Amaya-Barajas FL, Flores-Soto M, and González-Burgos I

Subjects
Amygdala metabolism, Amygdala physiopathology, Animals, Brain-Derived Neurotrophic Factor metabolism, Dendritic Spines metabolism, Disease Models, Animal, Disks Large Homolog 4 Protein metabolism, Ibotenic Acid, Male, Maze Learning, Memory, Short-Term, Prefrontal Cortex metabolism, Prefrontal Cortex physiopathology, Rats, Sprague-Dawley, Receptors, AMPA metabolism, Schizophrenia chemically induced, Schizophrenia metabolism, Schizophrenia physiopathology, Social Behavior, Synaptophysin metabolism, Rats, Amygdala pathology, Behavior, Animal, Dendritic Spines pathology, Neuronal Plasticity, Prefrontal Cortex pathology, Schizophrenia pathology, Schizophrenic Psychology
Abstract

The lesions induced by Ibotenic acid (IA) emulate some of the symptoms associated with schizophrenia, such as impaired working memory that is predominantly organized by the medial prefrontal cortex (mPFC), or difficulties in social interactions that aremainly organized by the amygdala (AMG). The plastic capacity of dendritic spines in neurons of the mPFC and AMG is modulated by molecules that participate in the known deterioration of working memory, although the influence of these on the socialization of schizophrenic patients is unknown. Here, the effect of a neonatal IA induced lesion on social behavior and working memory was evaluated in adult rats, along with the changes in cytoarchitecture of dendritic spines and their protein content, specifically the postsynaptic density protein 95 (PSD-95), Synaptophysin (Syn), AMPA receptors, and brain-derived neurotrophic factor (BDNF). Both working memory and social behavior were impaired, and the density of the spines, as well as their PSD-95, Syn, AMPA receptor and BDNF content was lower in IA lesioned animals. The proportional density of thin, mushroom, stubby and wide spines resulted in plastic changes that suggest the activation of compensatory processes in the face of the adverse effects of the lesion. In addition, the reduction in the levels of the modulating factors also suggests that the signaling pathways in which such factors are implicated would be altered in the brains of patients with schizophrenia. Accordingly, the experimental study of such signaling pathways is likely to aid the development of more effective pharmacological strategies for the treatment of schizophrenia., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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19. β-Caryophyllene exerts protective antioxidant effects through the activation of NQO1 in the MPTP model of Parkinson's disease.

Author

Flores-Soto ME, Corona-Angeles JA, Tejeda-Martinez AR, Flores-Guzman PA, Luna-Mujica I, Chaparro-Huerta V, and Viveros-Paredes JM

Subjects
Animals, Antioxidants pharmacology, MPTP Poisoning pathology, Male, Mice, Mice, Inbred C57BL, Pars Compacta drug effects, Pars Compacta metabolism, Pars Compacta pathology, Polycyclic Sesquiterpenes pharmacology, Random Allocation, Antioxidants therapeutic use, MPTP Poisoning metabolism, MPTP Poisoning prevention & control, NAD(P)H Dehydrogenase (Quinone) biosynthesis, Polycyclic Sesquiterpenes therapeutic use
Abstract

Parkinson's disease (PD) is a neurodegenerative disorder, caused by the selective death of dopaminergic neurons in the substantia nigra pars compacta. β-caryophyllene (BCP) is a phytocannabinoid with several pharmacological properties, producing anti-inflammatory and antihypertensive effects. In addition, BCP protects dopaminergic neurons from neuronal death induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), yet it remains unclear if this effect is due to its antioxidant activity. To assess whether this is the case, the effect of BCP on the expression and activity of NAD(P)H quinone oxidoreductase (NQO1) was evaluated in mice after the administration of MPTP. Male C57BL/6 J mice were divided into four groups, the first of which received saline solution i.p. in equivalent volume and served as a control group. The second group received MPTP. The second group received MPTP hydrochloride (5 mg/kg, i.p.) daily for seven consecutive days. The third group received BCP (10 mg/kg) for seven days, administered orally and finally, the fourth group received MPTP as described above and BCP for 7 days from the fourth day of MPTP administration. The results showed that BCP inhibits oxidative stress-induced cell death of dopaminergic neurons exposed to MPTP at the same time as it enhances the expression and enzymatic activity of NQO1. Also, the BCP treatment ameliorated motor dysfunction and protected the dopaminergic cells of the SNpc from damage induced by MPTP. Hence, BCP appears to achieve at least some of its antioxidant effects by augmenting NQO1 activity, which protects cells from MPTP toxicity. Accordingly, this phytocannabinoid may represent a promising pharmacological option to safeguard dopaminergic neurons and prevent the progression of PD., (Copyright © 2020. Published by Elsevier B.V.)

Published
2021
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20. Modifications to cytoskeleton-associated proteins in dendritic spines underlie the adaptive plasticity involved in long term reference memory.

Author

González-Tapia D, González-Tapia DC, Vázquez-Hernández N, Martínez-Torres NI, Flores-Soto M, and González-Burgos I

Subjects
Animals, Male, Rats, Sprague-Dawley, Spatial Learning physiology, Spatial Memory physiology, CA1 Region, Hippocampal physiology, Cytoskeletal Proteins physiology, Dendritic Spines physiology, Memory, Long-Term physiology, Neuronal Plasticity
Abstract

Spatial learning and memory enables individuals to orientate themselves in an external environment. Synaptic stimulation of dendritic spines on hippocampal place cells underlies adaptive cognitive performance, inducing plastic changes such as spinogenesis, pruning and structural interconversion. Such plastic changes are driven by complex molecular machinery that relies on several actin cytoskeleton-associated proteins (ACAP's), these interacting with actin filaments in the postsynaptic density to guide the conformational changes to spines in accordance with the synaptic information they receive. However, the specific dynamics of the plastic changes in spines driven by ACAP's are poorly understood. Adult rats exhibit efficient allocentric reference memory 30 days after training in a spatial learning paradigm in the Morris water maze. A Golgi study revealed this behavior to be associated with a reduction in both spine density and in mushroom spines, as well as a concomitant increase in thin spines. These changes were accompanied by the overexpression of mRNA encoding β-actin, Spinophilin and Cortactin, whilst the expression of Profilin, α-actinin, Drebrin, Synaptopodin and Myosin decreased. By contrast, no changes were evident in Cofilin, Gelsolin and Arp2/3 mRNA. From this analysis, it appears that neither spinogenesis nor new mushroom spines are necessary for long-term spatial information retrieval, while thin spines could be potentiated to retrieve pre-learned spatial information. Further studies that focus on the signaling pathways and their related molecules may shed further light on the molecular dynamics of the plastic changes to dendritic spines that underlie cognitive performance, both under normal and pathological conditions., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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21. Response to Chen et al . re: " β -Caryophyllene Reduces DNA Oxidation and the Overexpression of Glial Fibrillary Acidic Protein in the Prefrontal Cortex and Hippocampus of d-Galactose-Induced Aged BALB/c Mice".

Author

Chávez-Hurtado P, González-Castañeda RE, Beas-Zarate C, Flores-Soto ME, and Viveros-Paredes JM

Subjects
Animals, DNA, Glial Fibrillary Acidic Protein, Mice, Mice, Inbred BALB C, Polycyclic Sesquiterpenes, Prefrontal Cortex, Galactose, Hippocampus
Published
2020
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22. Melatonin modifies SOX2 + cell proliferation in dentate gyrus and modulates SIRT1 and MECP2 in long-term sleep deprivation.

Author

Hinojosa-Godinez A, Jave-Suarez LF, Flores-Soto M, Gálvez-Contreras AY, Luquín S, Oregon-Romero E, González-Pérez O, and González-Castañeda RE

Abstract

Melatonin is a pleiotropic molecule that, after a short-term sleep deprivation, promotes the proliferation of neural stem cells in the adult hippocampus. However, this effect has not been observed in long-term sleep deprivation. The precise mechanism exerted by melatonin on the modulation of neural stem cells is not entirely elucidated, but evidence indicates that epigenetic regulators may be involved in this process. In this study, we investigated the effect of melatonin treatment during a 96-hour sleep deprivation and analyzed the expression of epigenetic modulators predicted by computational text mining and keyword clusterization. Our results showed that the administration of melatonin under sleep-deprived conditions increased the MECP2 expression and reduced the SIRT1 expression in the dentate gyrus. We observed that let-7b, mir-132, and mir-124 were highly expressed in the dentate gyrus after melatonin administration, but they were not modified by sleep deprivation. In addition, we found more Sox2 + /5-bromo-2'-deoxyuridine (BrdU) + cells in the subgranular zone of the sleep-deprived group treated with melatonin than in the untreated group. These findings may support the notion that melatonin modifies the expression of epigenetic mediators that, in turn, regulate the proliferation of neural progenitor cells in the adult dentate gyrus under long-term sleep-deprived conditions. All procedures performed in this study were approved by the Animal Ethics Committee of the University of Guadalajara, Mexico (approval No. CI-16610) on January 2, 2016., Competing Interests: None

Published
2019
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23. Effect of inhibition of fatty acid amide hydrolase on MPTP-induced dopaminergic neuronal damage.

Author

Viveros-Paredes JM, Gonzalez-Castañeda RE, Escalante-Castañeda A, Tejeda-Martínez AR, Castañeda-Achutiguí F, and Flores-Soto ME

Subjects
Animals, Benzamides, Carbamates, Disease Models, Animal, Dopaminergic Neurons pathology, Male, Mice, Mice, Inbred C57BL, Motor Skills drug effects, Neuroprotective Agents therapeutic use, Parkinson Disease, Substantia Nigra metabolism, Tyrosine 3-Monooxygenase, 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine pharmacology, Amidohydrolases metabolism, Dopaminergic Neurons drug effects, Substantia Nigra drug effects
Abstract

Introduction: Parkinson's disease (PD) is a neurodegenerative disorder characterised by balance problems, muscle rigidity, and slow movement due to low dopamine levels and loss of dopaminergic neurons in the substantia nigra pars compacta (SNpc). The endocannabinoid system is known to modulate the nigrostriatal pathway through endogenous ligands such as anandamide (AEA), which is hydrolysed by fatty acid amide hydrolase (FAAH). The purpose of this study was to increase AEA levels using FAAH inhibitor URB597 to evaluate the modulatory effect of AEA on dopaminergic neuronal death induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)., Methods: Our study included 4 experimental groups (n = 6 mice per group): a control group receiving no treatment, a group receiving URB597 (0.2mg/kg) every 3 days for 30 days, a group treated with MPTP (30mg/kg) for 5 days, and a group receiving URB597 and subsequently MPTP injections. Three days after the last dose, we conducted a series of behavioural tests (beam test, pole test, and stride length test) to compare motor coordination between groups. We subsequently analysed immunoreactivity of dopaminergic cells and microglia in the SNpc and striatum., Results: Mice treated with URB597 plus MPTP were found to perform better on behavioural tests than mice receiving MPTP only. According to the immunohistochemistry study, mice receiving MPTP showed fewer dopaminergic cells and fibres in the SNpc and striatum. Animals treated with URB597 plus MPTP displayed increased tyrosine hydroxylase immunoreactivity compared to those treated with MPTP only. Regarding microglial immunoreactivity, the group receiving MPTP showed higher Iba1 immunoreactivity in the striatum and SNpc than did the group treated with URB597 plus MPTP., Conclusion: Our results show that URB597 exerts a protective effect since it inhibits dopaminergic neuronal death, decreases microglial immunoreactivity, and improves MPTP-induced motor alterations., (Copyright © 2016 Sociedad Española de Neurología. Publicado por Elsevier España, S.L.U. All rights reserved.)

Published
2019
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24. HIV Drug Resistance in Antiretroviral-Naive Patients in Mexico After 10 Years: Is There a Difference?

Author

Escoto-Delgadillo M, Torres-Mendoza BM, Flores-Soto M, and Vazquez-Valls E

Subjects
Databases, Genetic, Female, Genotyping Techniques, HIV genetics, Humans, Male, Mexico, Mutation, Missense, Anti-HIV Agents pharmacology, Drug Resistance, Viral, HIV drug effects, HIV Infections virology
Abstract

The aim of this study was to compare the extent of resistance to antiretroviral (ARV) drugs among the population in Mexico before and after 2005. The mutations and drug resistance database of Stanford University were used for analyzing drug resistance tests that had been performed on HIV treatment-naive patients. The sequences obtained were divided into group 1 (isolated in 2002-2003) and group 2 (isolated in 2010-2014). Both groups showed 14% similarity in resistance mutations. In both groups, mutations in N88D protease inhibitor were identified, D67N and T69D were found for nucleoside reverse transcriptase inhibitors (NRTIs), and K103N was found for non-nucleoside reverse transcriptase inhibitors. In both groups, the resistance to ARV drugs was 7.4%. Both groups showed resistance to nelfinavir, efavirenz, and nevirapine. The prevalence of resistance to ARV therapy remained stable from 2002 to 2014. However, a marked reduction in resistance to NRTIs was observed for the same period.

Published
2016
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25. Natural polymorphisms and unusual mutations in HIV-1 protease with potential antiretroviral resistance: a bioinformatic analysis.

Author

Mata-Munguía C, Escoto-Delgadillo M, Torres-Mendoza B, Flores-Soto M, Vázquez-Torres M, Gálvez-Gastelum F, Viniegra-Osorio A, Castillero-Manzano M, and Vázquez-Valls E

Subjects
Atazanavir Sulfate, Base Sequence, Darunavir, Female, HIV Infections drug therapy, HIV Infections virology, HIV Protease chemistry, HIV Protease Inhibitors therapeutic use, HIV-1 drug effects, Humans, Male, Molecular Docking Simulation, Molecular Sequence Data, Mutation, Oligopeptides pharmacology, Oligopeptides therapeutic use, Phenotype, Polymorphism, Genetic, Pyridines pharmacology, Pyridines therapeutic use, Pyrones pharmacology, Pyrones therapeutic use, Sulfonamides pharmacology, Sulfonamides therapeutic use, Drug Resistance, Viral genetics, HIV Protease genetics, HIV Protease Inhibitors pharmacology, HIV-1 enzymology, HIV-1 genetics
Abstract

Background: The correlations of genotypic and phenotypic tests with treatment, clinical history and the significance of mutations in viruses of HIV-infected patients are used to establish resistance mutations to protease inhibitors (PIs). Emerging mutations in human immunodeficiency virus type 1 (HIV-1) protease confer resistance to PIs by inducing structural changes at the ligand interaction site. The aim of this study was to establish an in silico structural relationship between natural HIV-1 polymorphisms and unusual HIV-1 mutations that confer resistance to PIs., Results: Protease sequences isolated from 151 Mexican HIV-1 patients that were naïve to, or subjected to antiretroviral therapy, were examined. We identified 41 unrelated resistance mutations with a prevalence greater than 1%. Among these mutations, nine exhibited positive selection, three were natural polymorphisms (L63S/V/H) in a codon associated with drug resistance, and six were unusual mutations (L5F, D29V, L63R/G, P79L and T91V). The D29V mutation, with a prevalence of 1.32% in the studied population, was only found in patients treated with antiretroviral drugs. Using in silico modelling, we observed that D29V formed unstable protease complexes when were docked with lopinavir, saquinavir, darunavir, tipranavir, indinavir and atazanavir., Conclusions: The structural correlation of natural polymorphisms and unusual mutations with drug resistance is useful for the identification of HIV-1 variants with potential resistance to PIs. The D29V mutation likely confers a selection advantage in viruses; however, in silico, presence of this mutation results in unstable enzyme/PI complexes, that possibly induce resistance to PIs.

Published
2014
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26. 5-HT denervation of the adult rat prefrontal cortex induces changes in the expression of α4 and α7 nicotinic acetylcholine receptor subtypes.

Author

Soria-Fregozo C, Flores-Soto ME, Pérez-Vega MI, and Feria-Velasco A

Subjects
5,7-Dihydroxytryptamine toxicity, Animals, Denervation, Female, Memory physiology, Neuronal Plasticity drug effects, Polymerase Chain Reaction, Prefrontal Cortex drug effects, RNA biosynthesis, RNA genetics, Rats, Rats, Sprague-Dawley, Receptors, Nicotinic drug effects, Serotonergic Neurons drug effects, Serotonin Agents toxicity, alpha7 Nicotinic Acetylcholine Receptor drug effects, Prefrontal Cortex physiology, Receptors, Nicotinic biosynthesis, Serotonergic Neurons physiology, alpha7 Nicotinic Acetylcholine Receptor biosynthesis
Abstract

Introduction: Nicotinic acetylcholine receptors (nAChRs) are widely expressed throughout several brain regions. Formation of the α4β2 and α7 subtypes in particular is involved in the organisation of different types of memory. Furthermore, due to their location, these receptors can control the release of various types of neurotransmitters and contribute to synaptic plasticity., Methods: Rats were divided into three groups, an experimental group (E), a sham-operated group, (S) and an intact group (T). In group E, stereotactic guidance was used to induce a chemical lesion with 1 μ/μL of 5,7-dihydroxytryptamine (5,7-DHT) in the anteroventral part of the dorsal raphe nucleus (DRN). In the sham-operated group (S), animals underwent surgery including delivery of the same excipient solution to the same site. The intact group (T) received no treatment whatsoever. Twenty days after surgery, animals in all groups were euthanised by decapitation to evaluate the expression of α4 and α7 nAChRs by means of molecular biology techniques., Results: 5-HT denervation of the rat PFC differentially modified the expression of α4 and α7 receptors: while α4 receptor expression increased, α7 expression decreased., Conclusion: Expression differences observed between the two subtypes may be due to their separate locations. The α4 subtype is found in postsynaptic locations and may be related to adaptive changes in postsynaptic cells, while the location of α7 is presynaptic. This explains why the lesion and the elimination of 5-HT fibres in the CPF would cause a decrease in α7 expression., (Copyright © 2012 Sociedad Española de Neurología. Published by Elsevier Espana. All rights reserved.)

Published
2013
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27. Neural restrictive silencer factor and choline acetyltransferase expression in cerebral tissue of Alzheimer's Disease patients: A pilot study.

Author

González-Castañeda RE, Sánchez-González VJ, Flores-Soto M, Vázquez-Camacho G, Macías-Islas MA, and Ortiz GG

Abstract

Decreased Choline Acetyltransferase (ChAT) brain level is one of the main biochemical disorders in Alzheimer's Disease (AD). In rodents, recent data show that the CHAT gene can be regulated by a neural restrictive silencer factor (NRSF). The aim of the present work was to evaluate the gene and protein expression of CHAT and NRSF in frontal, temporal, entorhinal and parietal cortices of AD patient brains. Four brains from patients with AD and four brains from subjects without dementia were studied. Cerebral tissues were obtained and processed by the guanidine isothiocyanate method for RNA extraction. CHAT and NRSF gene and protein expression were determined by reverse transcription-polymerase chain reaction (RT-PCR) and Western blotting. CHAT gene expression levels were 39% lower in AD patients as compared to the control group (p < 0.05, U test). ChAT protein levels were reduced by 17% (p = 0.02, U test). NRSF gene expression levels were 86% higher in the AD group (p = 0.001, U test) as compared to the control group. In the AD subjects, the NRSF protein levels were 57% higher (p > 0.05, U test) than in the control subjects. These findings suggest for the first time that in the brain of AD patients high NRSF protein levels are related to low CHAT gene expression levels.

Published
2013
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28. [Expression of NMDA receptor subunits in rat prefrontal cortex with CCL4-induced hepatic damage after a treatment with Rosmarinus officinalis L].

Author

Soria Fregozo C, Miranda Beltrán ML, Flores Soto ME, Pérez Vega MI, Beas Zárate C, and Huacuja Ruiz L

Subjects
Animals, Carbon Tetrachloride administration & dosage, Male, Rats, Rats, Wistar, Chemical and Drug Induced Liver Injury metabolism, Liver Diseases metabolism, Plant Extracts administration & dosage, Prefrontal Cortex metabolism, Receptors, N-Methyl-D-Aspartate biosynthesis, Rosmarinus
Abstract

Introduction: In cirrhosis some toxic substances accumulate in brain and modify the expression of several neuronal receptors. Thus, the use of medicinal plants such as Rosmarinus officinalis L. has been proposed in several pathologies due to its hepatoprotective, antioxidant and neuroprotective activity. In this study we evaluated the expression of the subunits NR1, NR2A and NR2B of the glutamate receptor in rat prefrontal cortex in a model of hepatic damage induced with carbon tetrachloride after a treatment with Rosmarinus officinalis L., Methods: We used a total of 24 male Wistar rats weighing 80-90 g. body weight. We formed three study groups: control group (C) without a treatment, carbon tetrachloride group (CC14), and CC14 group plus Rosmarinus officinalis L (CCl4+ROM; 1.5 g/kg of extract orally)., Results: The expression of the NR1, NR2A and NR2B subunits in cirrhotic animals increased compared to the control group, however treatment with Rosmarinus officinalis L. was able to reduce this expression to normal levels compared with CC14 and CCl4+ROM groups. These results could be due to an improvement in hepatic function., Conclusion: Treatment with extract of Rosmarinus officinalis L. in cirrhotic animals modifies the expression of subunits of the NMDA receptor due to an improvement in hepatocellular function in the presence of antioxidant compounds and flavonoids., (Copyright © 2011 Sociedad Española de Neurología. Published by Elsevier Espana. All rights reserved.)

Published
2012
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29. [Structure and function of NMDA-type glutamate receptor subunits].

Author

Flores-Soto ME, Chaparro-Huerta V, Escoto-Delgadillo M, Vazquez-Valls E, González-Castañeda RE, and Beas-Zarate C

Subjects
Structure-Activity Relationship, Receptors, N-Methyl-D-Aspartate physiology
Abstract

Introduction: To review the physiology of the glutamate receptor subunits such as N-methyl-D-aspartate (NMDA)., Development: Glutamic acid (Glu) is the major excitatory neurotransmitter in the central nervous system which interacts with two types classified into two types: metabotropic and ionotropic. Ionotropic receptors are classified according to the affinity of their specific agonists: N-methyl-D-aspartate (NMDA), α-amino acid-3-hydroxy-5-methyl-4-isoxazole (AMPA) and kainic acid (KA). NMDA receptors are macromolecular structures that are formed by different combinations of subunits, NMDAR1 (NR1), NMDAR2 (NR2) and NMDAR3 (NR3), Conclusions: The study of this receptor has been of great interest due to its role in synaptic plasticity, but mainly due to the permeability it has to Ca(++) ion. This review examines the molecular composition of NMDA receptor and the variants of NR1 subunit edition in association with NR2 subunit dimer, the main form of this receptor. The composition, structure and function and their distinct expression patterns in both time and space, has shown the versatility and diversity of functionally different isoforms of the NR1 subunit and various pharmacological properties of the NR2 subunit., (Copyright © 2011 Sociedad Española de Neurología. Published by Elsevier Espana. All rights reserved.)

Published
2012
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30. HIF-1α expression in the hippocampus and peripheral macrophages after glutamate-induced excitotoxicity.

Author

Vazquez-Valls E, Flores-Soto ME, Chaparro-Huerta V, Torres-Mendoza BM, Gudiño-Cabrera G, Rivera-Cervantes MC, Pallas M, Camins A, Armendáriz-Borunda J, and Beas-Zarate C

Subjects
Age Factors, Animals, Animals, Newborn, Disease Models, Animal, Erythropoietin genetics, Erythropoietin metabolism, Female, Gene Expression Regulation, Developmental drug effects, Glial Fibrillary Acidic Protein metabolism, Glutamic Acid toxicity, Hippocampus drug effects, Hippocampus pathology, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Macrophages drug effects, Male, Neurons drug effects, Neurons metabolism, Neurotoxicity Syndromes etiology, Neurotoxins toxicity, Pregnancy, RNA, Messenger, Rats, Rats, Wistar, Vascular Endothelial Growth Factor A genetics, Vascular Endothelial Growth Factor A metabolism, Gene Expression Regulation, Developmental physiology, Hippocampus metabolism, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Macrophages metabolism, Neurotoxicity Syndromes pathology
Abstract

Hypoxia-inducible factor-1 alpha (HIF-1α) is a master transcription factor that regulates the response to hypoxia and ischemia and induces the expression of various genes, including vascular endothelial growth factor (VEGF) and erythropoietin (EPO). This study shows the systemic response of increased HIF-1α, EPO, and VEGF mRNA and protein. In addition, VEGF expression was increased in neurons and over-expressed in glial cells in a model of neuroexcitotoxicity in the hippocampus, in which rats were neonatally exposed to high glutamate concentrations. Simultaneous increases in HIF-1α, EPO and VEGF mRNA in peritoneal macrophages were also observed. Our study is consistent with the hypothesis that these genes exert a protective effect in response to neurotoxicity., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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31. Expression of HIF-1 alpha, VEGF and EPO in peripheral blood from patients with two cardiac abnormalities associated with hypoxia.

Author

Lemus-Varela ML, Flores-Soto ME, Cervantes-Munguía R, Torres-Mendoza BM, Gudiño-Cabrera G, Chaparro-Huerta V, Ortuño-Sahagún D, and Beas-Zárate C

Subjects
Humans, Infant, Infant, Newborn, Erythropoietin blood, Erythropoietin genetics, Heart Diseases blood, Heart Diseases congenital, Heart Diseases physiopathology, Hypoxia blood, Hypoxia pathology, Hypoxia-Inducible Factor 1, alpha Subunit blood, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Persistent Fetal Circulation Syndrome blood, Persistent Fetal Circulation Syndrome genetics, Vascular Endothelial Growth Factor A blood, Vascular Endothelial Growth Factor A genetics
Abstract

Objectives: HIF-1 alpha (hypoxia-inducible factor-1 alpha) mediates the responses of mammalian cells to hypoxia/ischemia by inducing the expression of adaptive gene products (e.g., vascular endothelial growth factor (VEGF) and erythropoietin (EPO)). Persistent pulmonary hypertension of the newborn (PPHN) and cyanotic congenital heart disease (CCHD) are common neonatal diseases considered as paradigms of hypoxemia. Since the expression HIF-1 alpha, VEGF and EPO in newborns diagnosed with these diseases has yet to be studied, we set out to define the expression of these genes in peripheral blood from newborn infants diagnosed with PPHN and CCHD., Design and Methods: The mRNA transcripts encoding HIF-1 alpha, VEGF and EPO were measured by RT-PCR in healthy newborn infants and infants diagnosed with PPHN and CCHD., Results: An important increase in HIF-1 alpha expression was observed in both pathological conditions, accompanied by significant increases in VEGF and EPO expression when compared to healthy infants., Conclusions: HIF-1 alpha mRNA expression increases in newborn infants with PPHN or CCHD, as does the expression of its target genes VEGF and EPO., ((c) 2009 The Canadian Society of Clinical Chemists. Published by Elsevier Inc. All rights reserved.)

Published
2010
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32. Changes in hippocampal NMDA-R subunit composition induced by exposure of neonatal rats to L-glutamate.

Author

Rivera-Cervantes MC, Flores-Soto ME, Chaparro-Huerta V, Reyes-Gómez J, Feria-Velasco A, Schliebs R, and Beas-Zárate C

Subjects
Analysis of Variance, Animals, Blotting, Western, Cerebral Cortex drug effects, Cerebral Cortex physiology, Gene Expression drug effects, Hippocampus metabolism, Male, RNA, Messenger metabolism, Rats, Rats, Wistar, Reverse Transcriptase Polymerase Chain Reaction, Glutamic Acid toxicity, Hippocampus drug effects, Neurotoxins toxicity, Receptors, N-Methyl-D-Aspartate metabolism
Abstract

Overactivation of NMDA-Rs may mediate excitotoxic cell death associated with epileptic seizures, and hypoxic-ischemic conditions. We assessed whether repeated subcutaneous administration of l-glutamate to neonatal rats affects the subunit composition of NMDA-Rs. Accordingly, cortical and hippocampal tissue from 14-day-old rats was analyzed by Western blotting and RT-PCR to quantify the protein and mRNA expression of different NMDA-R subunits. In addition, tissue sections were Nissl stained to assess the cell damage in this tissue. Early exposure of neonatal rats to L-glutamate differentially affects the expression of mRNA transcripts for NMDA-R subunits in the cerebral cortex and hippocampus. In the cerebral cortex, a decrease in NR2B subunit mRNA expression was observed, as well as a loss of NR1 and NR2A protein. By contrast, neonatal L-glutamate administration augmented the transcripts encoding the NR1, NR2B, and NR2C subunits in the hippocampal formation. The expression of mRNA encoding the NR2A subunit was not affected by neonatal L-glutamate administration in either of the brain regions examined. This differential expression of NMDA-R subunits following neonatal exposure to L-glutamate may represent an adaptive response of the glutamate receptors to overactivation in order to reduce the effect of high L-glutamate during the early period of life when the animal is more vulnerable to excitotoxicity.

Published
2009
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33. Role of p38 MAPK and pro-inflammatory cytokines expression in glutamate-induced neuronal death of neonatal rats.

Author

Chaparro-Huerta V, Flores-Soto ME, Gudiño-Cabrera G, Rivera-Cervantes MC, Bitzer-Quintero OK, and Beas-Zárate C

Subjects
Animals, Animals, Newborn, Apoptosis drug effects, Basal Ganglia drug effects, Basal Ganglia metabolism, Basal Ganglia pathology, Cerebral Cortex drug effects, Cerebral Cortex metabolism, Cerebral Cortex pathology, Corpus Striatum drug effects, Corpus Striatum metabolism, Corpus Striatum pathology, Cytokines metabolism, Enzyme Inhibitors pharmacology, Female, Gene Expression drug effects, Imidazoles pharmacology, Immunohistochemistry, Injections, Subcutaneous, Interleukin-1beta genetics, Interleukin-1beta metabolism, Interleukin-6 genetics, Interleukin-6 metabolism, Neuroglia cytology, Neuroglia drug effects, Neuroglia metabolism, Neurons cytology, Neurons drug effects, Neurons metabolism, Pregnancy, Pyridines pharmacology, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Wistar, Reverse Transcriptase Polymerase Chain Reaction, Sodium Glutamate administration & dosage, Tumor Necrosis Factor-alpha genetics, Tumor Necrosis Factor-alpha metabolism, p38 Mitogen-Activated Protein Kinases antagonists & inhibitors, Cytokines genetics, Sodium Glutamate toxicity, p38 Mitogen-Activated Protein Kinases metabolism
Abstract

Pro-inflammatory cytokines TNF-alpha, IL-1beta and IL-6 rises significantly during neuronal damage and activate the signaling p38 MAPK pathway, which is involved in the apoptotic (AP) neuronal death. Systemic administration of glutamate as monosodium salt (MSG) to newborn animals induces neuronal death, however whether neurons die by AP or necrosis through MAPK p38 pathway activation it is unknown. In this study, TNF-alpha, IL-1beta and IL-6 expression levels, AP neuronal death and cellular type that produces TNF-alpha was also identified in the cerebral cortex (CC) and striatum (St) of rats at 8, 10, and 14 days of age after neonatal exposure to MSG. TNF-alpha production and AP neuronal death was significantly increased in the CC at PD8-10, and in the St in all ages studied by excitotoxicity effect induced with MSG. This effect was completely inhibited by SB203580 (p38 inhibitor) in both regions studied. TNF-alpha, IL-1beta and IL-6 RNAm increased after MSG administration, whereas SB203580 did not modify their expression. These data indicates that neuronal death induced by excitotoxicity appears to be mediated through p38 signaling pathway activated by TNF-alpha and their inhibition may have an important neuroprotective role as part of anti-inflammatory therapeutic strategy.

Published
2008
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34. Neuronal damage and changes in the expression of muscarinic acetylcholine receptor subtypes in the neonatal rat cerebral cortical upon exposure to sparteine, a quinolizidine alkaloid.

Author

Flores-Soto ME, Bañuelos-Pineda J, Orozco-Suárez S, Schliebs R, and Beas-Zárate C

Subjects
Animals, Animals, Newborn, Cell Shape, Dose-Response Relationship, Drug, Female, Pregnancy, Protein Subunits genetics, Rats, Rats, Wistar, Receptors, Muscarinic genetics, Repressor Proteins genetics, Repressor Proteins metabolism, Sparteine administration & dosage, Transcription Factors genetics, Transcription Factors metabolism, Cerebral Cortex drug effects, Cerebral Cortex metabolism, Cerebral Cortex pathology, Neurons cytology, Neurons drug effects, Neurons metabolism, Neurons pathology, Protein Subunits metabolism, Receptors, Muscarinic metabolism, Sparteine toxicity
Abstract

Sparteine is a quinolizidine alkaloid (QA) produced by Lupine species that has generated much interest due to its anti-hypertensive, anti-pyretic, and anti-inflammatory properties. In the nervous system, sparteine has been shown to display anti-cholinergic and depressive activity, although how sparteine exerts its toxic effects in the brain remains unclear. We have addressed this issue by administering subcutaneous injections of sparteine (25 mg/kg of body weight) to rats on postnatal days 1 and 3, and then examining the expression of the muscarinic acetylcholine receptor (mAChR) subunits m1-m4 in the brains of the neonatal rats 14-60 days later. Administration of sparteine to neonatal rats caused neuronal damage in the cerebral motor cortex accompanied by transient changes in the expression of m1-m4 mAChR subunits as revealed by both RT-PCR and Western blotting. This effect could be prevented by pre-treatment with atropine (10 mg/kg) 1 h prior to the injection of sparteine, suggesting that the cytotoxic activity of sparteine is mediated through mAChRs.

Published
2006
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35. Neuronal cell death due to glutamate excitotocity is mediated by p38 activation in the rat cerebral cortex.

Author

Segura Torres JE, Chaparro-Huerta V, Rivera Cervantres MC, Montes-González R, Flores Soto ME, and Beas-Zárate C

Subjects
Animals, Animals, Newborn, Cell Death, Enzyme Activation, Fas Ligand Protein, Female, Glutamic Acid toxicity, Immunohistochemistry, Membrane Glycoproteins biosynthesis, Neurons drug effects, Neurons metabolism, Rats, Rats, Wistar, Receptors, AMPA biosynthesis, Sodium Glutamate toxicity, Tumor Necrosis Factors biosynthesis, fas Receptor biosynthesis, Cerebral Cortex metabolism, Glutamic Acid physiology, Neurons physiology, p38 Mitogen-Activated Protein Kinases metabolism
Abstract

Excitotoxic neuronal death occurs through the activation of NMDA and non-NMDA glutamatergic receptors in the CNS. Glutamate also induces strong activation of p38 and indeed, cell death can be prevented by inhibitors of the p38 pathway. Furthermore, intracellular signals generated by AMPA receptors activate the stress sensitive MAP kinases implicated in apoptotic neuronal death, such as JNK and p38. To investigate the relationship between these elements, we have used immunohistochemistry to analyze the expression of GluR2 in the cerebral cortex of postnatal rats (postnatal Day [PD] 8 and 14) after administering them with monosodium glutamate (MSG; 4 mg/g body weight on PD1, 3, 5, and 7). Similarly, the expression of REST, Fas-L and Bcl-2 mRNA transcripts in animals exposed to a p38 inhibitor, SB203580 (0.42 microg/g body weight, administered subcutaneously) was determined by reverse transcriptase-PCR. The enhanced GluR2-expression in the cerebral cortex at PD8 and the down regulation of this receptor at PD14 was correlated with neuronal damage induced by excitotoxicity. In addition, the enhanced expression of REST at PD8 and PD14 suggests that the induction of REST transcription contributes to glutamate-induced excitotoxic neurodegeneration, possibly by modulating GluR2 expression. Fas-L and Bcl-2 over expression at PD8 and their subsequent down regulation at PD14 also suggests that Fas-L could be the direct effector of apoptosis in the cerebral cortex. On the other hand, the presence of Bcl-2 at PD8 could attenuate certain survival signals in neurons under these neurotoxic conditions. Thus, a change in glutamate receptor composition, and enhanced Fas-L and Bcl-2 expression, coupled with activation of the p38/SAPK pathway appear to be events involved in the neuronal apoptosis induced under neurotoxic conditions.

Published
2006
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36. Proinflammatory cytokines and apoptosis following glutamate-induced excitotoxicity mediated by p38 MAPK in the hippocampus of neonatal rats.

Author

Chaparro-Huerta V, Rivera-Cervantes MC, Flores-Soto ME, Gómez-Pinedo U, and Beas-Zárate C

Subjects
Animals, Animals, Newborn, Apoptosis drug effects, Cytokines biosynthesis, Cytokines physiology, Hippocampus immunology, Hippocampus metabolism, Imidazoles administration & dosage, Inflammation Mediators physiology, Injections, Subcutaneous, Interleukin-1 biosynthesis, Interleukin-1 genetics, Interleukin-6 biosynthesis, Interleukin-6 genetics, Neuroglia immunology, Neuroglia metabolism, Neuroglia pathology, Neurons immunology, Neurons metabolism, Neurons pathology, Pyridines administration & dosage, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Wistar, Signal Transduction drug effects, Signal Transduction immunology, Sodium Glutamate administration & dosage, Tumor Necrosis Factor-alpha genetics, Tumor Necrosis Factor-alpha metabolism, p38 Mitogen-Activated Protein Kinases antagonists & inhibitors, p38 Mitogen-Activated Protein Kinases metabolism, Apoptosis immunology, Cytokines metabolism, Hippocampus enzymology, Hippocampus pathology, Inflammation Mediators metabolism, Sodium Glutamate toxicity, p38 Mitogen-Activated Protein Kinases physiology
Abstract

The proinflammatory cytokines TNF-alpha, IL-1beta, and IL-6 rise during neuronal damage and activate the apoptotic mitogen-activated protein kinase p38. We studied apoptosis, the levels of TNF-alpha, IL-1beta, and IL-6, and the cell type producing TNF-alpha in rats at 8, 10, and 14 days of age after neonatal exposure to glutamate, which induces neuronal damage. TNF-alpha production was significantly increased by glutamate, but inhibited by SB203580 (a p38 inhibitor). TNF-alpha, IL-1beta, and IL-6 mRNA levels increased, but SB203580 did not modify their expression. Thus, the p38 signaling pathway influences the expression of inflammatory genes and its inhibition may offer anti-inflammatory therapy.

Published
2005
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37. NMDAR-2C and 2D subunits gene expression is induced in brain by neonatal exposure of monosodium L-glutamate to adult rats.

Author

Beas-Zárate C, Flores-Soto ME, and Armendariz-Borunda J

Subjects
Aging drug effects, Aging metabolism, Animals, Animals, Newborn growth & development, Animals, Newborn metabolism, Brain growth & development, Brain metabolism, Cell Differentiation physiology, Dendrites drug effects, Dendrites metabolism, Gene Expression Regulation physiology, Hippocampus drug effects, Hippocampus growth & development, Hippocampus metabolism, Male, Neostriatum drug effects, Neostriatum growth & development, Neostriatum metabolism, Neurons metabolism, RNA, Messenger drug effects, RNA, Messenger metabolism, Rats, Rats, Wistar, Synapses drug effects, Synapses metabolism, Brain drug effects, Cell Differentiation drug effects, Gene Expression Regulation drug effects, Glutamic Acid metabolism, Neurons drug effects, Receptors, N-Methyl-D-Aspartate genetics, Sodium Glutamate pharmacology
Abstract

Monosodium glutamate (MSG) was administered subcutaneously to male neonate rats, and the effects on N-methyl-D-asparatate (NMDA) subunit receptor types NR2C and NR2D from different brain regions were studied. A semi-quantitative reverse transcription-polymerase chain reaction was used to measure NR2C and NR2D expression levels in the cerebral cortex, hippocampus and striatum. MSG treatment (4 mg/g body weight, on postnatal days 1, 3, 5, and 7) produced an important increase of NR2C and NR2D subunit gene expression levels in the hippocampus and striatum of adults rats. No change was observed in the cerebral cortex. We propose that an early excessive activation of glutamate receptors could modify NMDA subunit expression and its structural composition on postnatal development. This, as part of a compensatory response by an altered neuronal circuitry, mainly in the hippocampus and striatum, suggests that the NMDA receptor could be a determinant factor to modulate the dendritic arrangement and the synaptogenesis.

Published
2002
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