Your search keyword '"Lazzarotto G"' showing total 9 results

1. Concept Maps as a strategy to asses learning in biochemistry using educational softwares

Author

Azevedo, A. M. P., primary, Lazzarotto, G. B., additional, Lando, V. R., additional, Timm, M. I., additional, and Zaro, M. A., additional

Published

2005

2. BIOCHEMISTRY TEACHING WITH VIRTUAL DYNAMIC METABOLIC DIAGRAMS

Author

Lazzarotto, G. B., primary, Timm, M. I., additional, Zaro, M. L., additional, Siqueira, A. J. S., additional, and Azevedo, A. M. P., additional

Published

2004

3. The glutamatergic system in Alzheimer's disease: a systematic review with meta-analysis.

Author

Soares C, Da Ros LU, Machado LS, Rocha A, Lazzarotto G, Carello-Collar G, De Bastiani MA, Ferrari-Souza JP, Lussier FZ, Souza DO, Rosa-Neto P, Pascoal TA, Bellaver B, and Zimmer ER

Subjects

Humans, Hippocampus metabolism, Synaptic Transmission physiology, Glutamine metabolism, Alzheimer Disease metabolism, Glutamic Acid metabolism, Brain metabolism

Abstract

Glutamatergic neurotransmission system dysregulation may play an important role in the pathophysiology of Alzheimer's disease (AD). However, reported results on glutamatergic components across brain regions are contradictory. Here, we conducted a systematic review with meta-analysis to examine whether there are consistent glutamatergic abnormalities in the human AD brain. We searched PubMed and Web of Science (database origin-October 2023) reports evaluating glutamate, glutamine, glutaminase, glutamine synthetase, glutamate reuptake, aspartate, excitatory amino acid transporters, vesicular glutamate transporters, glycine, D-serine, metabotropic and ionotropic glutamate receptors in the AD human brain (PROSPERO #CDRD42022299518). The studies were synthesized by outcome and brain region. We included cortical regions, the whole brain (cortical and subcortical regions combined), the entorhinal cortex and the hippocampus. Pooled effect sizes were determined with standardized mean differences (SMD), random effects adjusted by false discovery rate, and heterogeneity was examined by I 2 statistics. The search retrieved 6 936 articles, 63 meeting the inclusion criteria (N = 709CN/786AD; mean age 75/79). We showed that the brain of AD individuals presents decreased glutamate (SMD = -0.82; I 2  = 74.54%; P < 0.001) and aspartate levels (SMD = -0.64; I 2  = 89.71%; P = 0.006), and reuptake (SMD = -0.75; I 2  = 83.04%; P < 0.001. We also found reduced α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPAR)-GluA2/3 levels (SMD = -0.63; I 2  = 95.55%; P = 0.046), hypofunctional N-methyl-D-aspartate receptor (NMDAR) (SMD = -0.60; I 2  = 91.47%; P < 0.001) and selective reduction of NMDAR-GluN2B subunit levels (SMD = -1.07; I 2  = 41.81%; P < 0.001). Regional differences include lower glutamate levels in cortical areas and aspartate levels in cortical areas and in the hippocampus, reduced glutamate reuptake, reduced AMPAR-GluA2/3 in the entorhinal cortex, hypofunction of NMDAR in cortical areas, and a decrease in NMDAR-GluN2B subunit levels in the entorhinal cortex and hippocampus. Other parameters studied were not altered. Our findings show depletion of the glutamatergic system and emphasize the importance of understanding glutamate-mediated neurotoxicity in AD. This study has implications for the development of therapies and biomarkers in AD., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

4. Diphenyl Diselenide Attenuates Mitochondrial Damage During Initial Hypoxia and Enhances Resistance to Recurrent Hypoxia.

Author

Rieder GS, Braga MM, Mussulini BHM, Silva ES, Lazzarotto G, Casali EA, Oliveira DL, Franco JL, Souza DOG, and Rocha JBT

Subjects

Animals, Zebrafish, Mitochondria, Benzene Derivatives pharmacology, Benzene Derivatives therapeutic use, Hypoxia drug therapy, Organoselenium Compounds pharmacology, Organoselenium Compounds therapeutic use, Brain Diseases

Abstract

Hypoxia plays a significant role in the development of various cerebral diseases, many of which are associated with the potential risk of recurrence due to mitochondrial damage. Conventional drug treatments are not always effective for hypoxia-related brain diseases, necessitating the exploration of alternative compounds. In this study, we investigated the potential of diphenyl diselenide [(PhSe) 2 ] to ameliorate locomotor impairments and mitigate brain mitochondrial dysfunction in zebrafish subjected to hypoxia. Additionally, we explored whether these improvements could confer resistance to recurrent hypoxia. Through a screening process, an appropriate dose of (PhSe) 2 was determined, and animals exposed to hypoxia received a single intraperitoneal injection of 100 mg/kg of the compound or vehicle. After 1 h from the injection, evaluations were conducted on locomotor deficits, (PhSe) 2 content, mitochondrial electron transport system, and mitochondrial viability in the brain. The animals were subsequently exposed to recurrent hypoxia to assess the latency time to hypoxia symptoms. The findings revealed that (PhSe) 2 effectively crossed the blood-brain barrier, attenuated locomotor deficits induced by hypoxia, and improved brain mitochondrial respiration by modulating complex III. Furthermore, it enhanced mitochondrial viability in the telencephalon, contributing to greater resistance to recurrent hypoxia. These results demonstrate the beneficial effects of (PhSe) 2 on both hypoxia and recurrent hypoxia, with cerebral mitochondria being a critical target of its action. Considering the involvement of brain hypoxia in numerous pathologies, (PhSe) 2 should be further tested to determine its effectiveness as a potential treatment for hypoxia-related brain diseases., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

5. Absence-like Seizures, Cortical Oscillations Abnormalities and Decreased Anxiety-like Behavior in Wistar Audiogenic Rats with Cortical Microgyria.

Author

Klippel Zanona Q, Alves Marconi G, de Sá Couto Pereira N, Lazzarotto G, Ferreira Donatti AL, Cortes de Oliveira JA, Garcia-Cairasco N, and Calcagnotto ME

Subjects

Acoustic Stimulation, Animals, Anxiety, Disease Models, Animal, Electroencephalography, Rats, Rats, Wistar, Epilepsy, Absence, Seizures genetics

Abstract

Wistar Audiogenic Rats (WAR) is an inbred rodent strain susceptible to acute auditory stimulation-induced seizures. However, spontaneous epileptic seizures (SES) and their associated electroencephalogram (EEG) abnormalities have not been reported in WAR kindled animals. The same is true for naïve WARs (without sound-induced seizures). An approach to increment epileptogenesis and SES is to use a second insult to be added to the genetic background. Here, we used adult naïve WARs with microgyria induced by neonatal cortical freeze-lesion (FL) to evaluate the occurrence of SES and the modification in cortical oscillation patterns and behavior. The neonatal cortical FL was performed in Wistar and naïve WARs (Wis-FL and WAR-FL). Sham animals were used as controls (Wistar-S and WAR-S). Video-EEG recordings and behavioral tasks were performed during adulthood. Surprisingly, spike-waive discharges (SWD) events associated with behavior arrest were detected in WAR-S rats. Those events increased in duration and number in WAR-FL animals. The EEG quantitative analysis showed decreased power of cortical delta, theta and beta oscillations in WAR-S, decreased power of cortical fast gamma (FG) oscillations in WARs, independent of microgyria, and decreased interhemispheric synchrony for delta and FG with stronger coupling in delta and theta-FG oscillations in FL animals. The WARs, regardless of microgyria, had reduced locomotor activity, but only WAR-FL animals had reduced anxiety-like behavior. Microgyria in naïve WARs intensified SWD events associated with behavior arrest that could reflect absence-like seizures and abnormal cortical oscillations, and reduced anxiety-like behavior indicating that WAR-FL could be a reliable model to study epileptogenesis., Competing Interests: Declaration of competing Interest All authors declare no competing financial interests., (Copyright © 2022 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2022

6. Effective recommendations towards healthy routines to preserve mental health during the COVID-19 pandemic.

Author

Pilz LK, Couto Pereira NS, Francisco AP, Carissimi A, Constantino DB, Caus LB, Abreu ACO, Amando GR, Bonatto FS, Carvalho PVV, Cipolla-Neto J, Harb A, Lazzarotto G, Marafiga JR, Minuzzi L, Montagner F, Nishino FA, Oliveira MAB, Dos Santos BGT, Steibel EG, Tavares PS, Tonon AC, Xavier NB, Zanona QK, Amaral FG, Calcagnotto ME, Frey BN, Hidalgo MP, Idiart M, and Russomano T

Subjects

Adolescent, Anxiety prevention & control, Anxiety psychology, Cross-Sectional Studies, Depression epidemiology, Depression prevention & control, Depression psychology, Female, Humans, Mental Health, SARS-CoV-2, Young Adult, COVID-19 prevention & control, Pandemics prevention & control

Abstract

Objective: To assess the adherence to a set of evidence-based recommendations to support mental health during the coronavirus disease 2019 (COVID-19) pandemic and its association with depressive and anxiety symptoms., Methods: A team of health workers and researchers prepared the recommendations, formatted into three volumes (1: COVID-19 prevention; 2: Healthy habits; 3: Biological clock and sleep). Participants were randomized to receive only Volume 1 (control), Volumes 1 and 2, Volumes 1 and 3, or all volumes. We used a convenience sample of Portuguese-speaking participants over age 18 years. An online survey consisting of sociodemographic and behavioral questionnaires and mental health instruments (Patient Health Questionnaire-9 [PHQ-9] and Generalized Anxiety Disorder-7 [GAD-7]) was administered. At 14 and 28 days later, participants were invited to complete follow-up surveys, which also included questions regarding adherence to the recommendations. A total of 409 participants completed the study - mostly young adult women holding university degrees., Results: The set of recommendations contained in Volumes 2 and 3 was effective in protecting mental health, as suggested by significant associations of adherence with PHQ-9 and GAD-7 scores (reflecting anxiety and depression symptoms, respectively)., Conclusion: The recommendations developed in this study could be useful to prevent negative mental health effects in the context of the pandemic and beyond.

Published

2022

7. Effect of Memantine on Pentylenetetrazol-induced Seizures and EEG Profile in Animal Model of Cortical Malformation.

Author

Lazzarotto G, Klippel Zanona Q, Cagliari Zenki K, and Calcagnotto ME

Subjects

Animals, Disease Models, Animal, Electroencephalography, Male, Rats, Rats, Wistar, Seizures chemically induced, Seizures drug therapy, Memantine pharmacology, Pentylenetetrazole toxicity

Abstract

Developmental cortical malformations (DCM) are one of the main causes of refractory epilepsy. Many are the mechanisms underlying the hyperexcitability in DCM, including the important contribution of N-methyl-D-aspartate receptors (NMDAR). NMDAR blockers are shown to abolish seizures and epileptiform activity. Memantine, a NMDAR antagonist used to treat Alzheimeŕs disease, has been recently investigated as a possible treatment for other neurological disorders. However, the effects on preventing or diminishing seizures are controversial. Here we aimed to evaluate the effects of memantine on pentylenetetrazole (PTZ)-induced seizures in the freeze-lesion (FL) model. Bilateral cortical microgyria were induced (FL) or not (Sham) in male Wistar neonate rats. At P30, subdural electrodes were implanted and 7 days later, video-EEG was recorded in animals receiving either memantine (FL-M or Sham-M) or saline (FL-S or Sham-S), followed by PTZ. Seizures were evaluated by video-EEG during one hour and scored according to Racine scale. The video-EEG analyses revealed that the number of seizures and the total duration of stage IV-V seizures developed during the 1 h-period increased after memantine application in all groups. The EEG power spectral density (PSD) analysis showed an increased PSD of pre-ictal delta in Sham-M animals and increased PSD of slow, middle and fast gamma oscillations after memantine injection that persists during the pre-ictal period in all groups. Our findings suggested that memantine was unable to control the PTZ-induced seizures and that the associated enhancement of PSD of gamma oscillations may contribute to the increased probability of seizure development in these animals., (Copyright © 2021 IBRO. Published by Elsevier Ltd. All rights reserved.)

Published

2021

8. Fetal alcohol spectrum disorders model alters the functionality of glutamatergic neurotransmission in adult zebrafish.

Author

Baggio S, Zenki K, Martins Silva A, Dos Santos TG, Rech G, Lazzarotto G, Dias RD, Mussulini BH, Rico EP, and de Oliveira DL

Subjects

Animals, Anti-Bacterial Agents administration & dosage, Ceftriaxone administration & dosage, Disease Models, Animal, Female, Glutamate-Ammonia Ligase metabolism, Male, Mitochondria drug effects, Sodium-Potassium-Exchanging ATPase metabolism, Vesicular Glutamate Transport Protein 2 metabolism, Zebrafish, Ethanol toxicity, Fetal Alcohol Spectrum Disorders physiopathology, Glutamic Acid metabolism, Synaptic Transmission drug effects

Abstract

Fetal alcohol spectrum disorders (FASD) describe a wide range of ethanol-induced developmental disabilities, including craniofacial dysmorphology, and neurochemical and behavioral impairments. Zebrafish has become a popular animal model to evaluate the long-lasting effects of, both, severe and milder forms of FASD, including alterations to neurotransmission. Glutamate is one of the most affected neurotransmitter systems in ethanol-induced developmental disabilities. Therefore, the aim of the present study was to evaluate the functionality of the glutamatergic neurotransmitter system in an adult zebrafish FASD model. Zebrafish larvae (24 h post-fertilization) were exposed to ethanol (0.1 %, 0.25 %, 0.5 %, and 1%) for 2 h. After 4 months, the animals were euthanized and their brains were removed. The following variables were measured: glutamate uptake, glutamate binding, glutamine synthetase activity, Na+/K + ATPase activity, and high-resolution respirometry. Embryonic ethanol exposure reduced Na+-dependent glutamate uptake in the zebrafish brain. This reduction was positively modulated by ceftriaxone treatment, a beta-lactam antibiotic that promotes the expression of the glutamate transporter EAAT2. Moreover, the 0.5 % and 1% ethanol groups demonstrated reduced glutamate binding to brain membranes and decreased Na+/K + ATPase activity in adulthood. In addition, ethanol reduced glutamine synthetase activity in the 1% EtOH group. Embryonic ethanol exposure did not alter the immunocontent of the glutamate vesicular transporter VGLUT2 and the mitochondrial energetic metabolism of the brain in adulthood. Our results suggest that embryonic ethanol exposure may cause significant alterations in glutamatergic neurotransmission in the adult zebrafish brain., 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 work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

9. Forebrain glutamate uptake and behavioral parameters are altered in adult zebrafish after the induction of Status Epilepticus by kainic acid.

Author

Mussulini BHM, Vizuete AFK, Braga M, Moro L, Baggio S, Santos E, Lazzarotto G, Zenki KC, Pettenuzzo L, Rocha JBTD, de Oliveira DL, Calcagnotto ME, Zuanazzi JAS, Burgos JS, and Rico EP

Subjects

Age Factors, Animals, Locomotion physiology, Male, Prosencephalon drug effects, Zebrafish, Glutamic Acid metabolism, Kainic Acid toxicity, Locomotion drug effects, Prosencephalon metabolism, Status Epilepticus chemically induced, Status Epilepticus metabolism

Abstract

The development of new antiepileptic drugs is a high-risk/high-cost research field, which is made even riskier if the behavioral epileptic seizure profile is the unique approach on which the development is based. In order to increase the effectiveness of the screening conducted in the zebrafish model of status epilepticus (SE), the evaluation of neurochemical markers of SE would be of great relevance. Epilepsy is associated with changes in the glutamatergic system, and glutamate uptake is one of the critical parameters of this process. Therefore, we evaluated the levels of glutamate uptake in the zebrafish brain and analyzed its correlation with the progression of behavioral changes in zebrafish at different times after the administration of kainic acid (5 mg/kg). The results showed that the zebrafish suffered with lethargy while swimming for up to 72 h after SE, had reduced levels of GFAP cells 12 h after SE, reduced levels of S100B up to 72 h after SE, and reduced levels of glutamate uptake in the forebrain between 3 h and 12 h after SE. The forebrain region of adult zebrafish after SE present similar changes to the neurochemical limbic alterations that are seen in rodent models of SE. This study demonstrated that there is a time window in which to use the KA zebrafish model of SE to explore some of the known neurochemical alterations that have been observed in rodent models of epilepsy and epileptic human patients., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018