Your search keyword '"Massironi SMG"' showing total 11 results

1. Identification and characterization of new animal models for neuromuscular diseases

Author

Vainzof, M., Fogaca, Llq, Velloso, Fj, Silva, Hca, Zatz, M., Massironi, Smg, Miglino, Ma, Ambrosio, Ce, Miyazato, Lg, Moraes, Jre, D Angeles, Fhf, Jose Corrêa Lacerda neto, Mortari, Ac, Borges, As, Rezende, Lal, and Rahal, Sc

2. Nest-building in breeding mice: Impact of macro- and micro-environment.

Author

Cintra L, Alexandre-Ribeiro SR, Teixeira JTX, Megid MM, Coucolis TV, Zanatto DA, Leal VN, Massironi SMG, and Mori CMC

Subjects

Animals, Female, Male, Mice physiology, Mice, Inbred BALB C, Sexual Behavior, Animal physiology, Animal Husbandry methods, Humidity, Animal Welfare, Nesting Behavior, Housing, Animal

Abstract

The housing conditions of laboratory mice must be strictly controlled in order to reduce the impact of pathophysiological changes that affect animal health and welfare, possibly resulting in increased variability within experimental results. One way to improve the activity and survival of laboratory mice is to provide nesting material. The objective of this study was to determine if nest-building quality could be used to detect changes in murine mating behaviour in a rodent facility under controlled conditions. Nesting scores of 847 cages with monogamous pairs from three different genetic backgrounds (129, B6 and BALB/c) of both sexes were correlated with 18 predefined variables. The effects on nest quality were evaluated using descriptive data analysis, correspondence analysis and ordinal logistic model fitting. The results showed a strong relationship between nest quality and nest position. Humidity, genetic background, cage change and the number and age of pups in the cage affected the nest-building scores. The most important indicators were cage change and relative humidity, both of which exerted significant negative effects on nest-building quality. Even though the criteria were well defined, the observer could still influence nest score appraisal. However, in a long-term observational study, observers could improve their assessment by training and acquiring greater experience in score assignment. Nest-building scores are easy to assess in the cage, with little discomfort to the animal. Moreover, the nest score is a valid indicator of the health and well-being of laboratory mice and can provide valuable support in the management of animal facilities., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship and/or publication of this article.

Published

2024

3. The dopaminergic D1 receptor modulates the hyperactivity of Bapa mutant mice.

Author

de Oliveira-Higa MA, da Silva Rodrigues P, Sampaio ACS, de Camargo Coque A, Kirsten TB, Massironi SMG, Alexandre-Ribeiro SR, Mori CMC, da Silva RA, and Bernardi MM

Subjects

Animals, Male, Mice, Dopamine, Dopamine Antagonists pharmacology, Receptors, Dopamine D1, Sulpiride pharmacology, Apomorphine pharmacology, Benzazepines pharmacology

Abstract

The mutant bate-palmas ("claps"; symbol - bapa) mice induced by the mutagenic chemical ENU present motor incoordination and postural alterations. A previous study showed that bapa mice present increased motor/exploratory behaviors during the prepubertal period due to increased striatal tyrosine hydroxylase expression, suggesting striatal dopaminergic system hyperactivity. This study aimed to evaluate the involvement of striatal dopaminergic receptors in the hyperactivity of bapa mice. Male bapa mice and their wild strain (WT) were used. Spontaneous motor behavior was observed in the open-field test, and stereotypy was evaluated after apomorphine administration. The effects of DR1 and DR2 dopaminergic antagonists (SCH-23,390; sulpiride) and the striatal DR1 and D2 receptor gene expression were evaluated. Relative to WT, bapa mice showed: 1) increased general activity for four days; 2) increased rearing and sniffing behavior and decreased immobility after apomorphine; 3) blockage of rearing behavior after the DR2 antagonist but no effect after DR1 antagonist; 4) blockage of sniffing behavior after the DR1 antagonist in bapa and WT mice but no effect after the DR2 antagonist; 5) increased immobility after the DR1 antagonist but no effect after the DR2 antagonist; 6) increased expression of striatal DR1 receptor gene and reduced the DR2 expression gene after apomorphine administration. Bapa mice showed increased activity in open field behavior. The increased rearing behavior induced by apomorphine of bapa mice resulted from the increased gene expression of the DR1 receptor., Competing Interests: Conflict of Interest Statement The authors declare no conflict of interest., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

4. Progressive tremor and motor impairment in seizure-prone mutant tremor mice are associated with neurotransmitter dysfunction.

Author

Gonçalves FB, Garcia-Gomes MSA, Silva-Sampaio AC, Kirsten TB, Bondan EF, Sandini TM, Flório JC, Lebrun I, Coque AC, Alexandre-Ribeiro SR, Massironi SMG, Mori CMC, and Bernardi MM

Subjects

Mice, Animals, Serotonin metabolism, Aspartic Acid metabolism, Seizures metabolism, Dopamine metabolism, Glutamic Acid metabolism, Corpus Striatum metabolism, Norepinephrine metabolism, Neurotransmitter Agents metabolism, gamma-Aminobutyric Acid metabolism, Glycine metabolism, Tremor metabolism, Motor Disorders

Abstract

Background: The tremor mutant mice present motor impairments comprised of whole-body tremors, ataxia, decreased exploratory behavior, and audiogenic seizures., Objectives: This study aims to investigate the development of motor dysfunction in this mutant mouse and the relationships with cortical, striatal, and cerebellar levels of GABA, glutamate, glycine, dopamine (DA), serotonin (5-HT), noradrenaline (NOR), and its metabolites. The serum cytokines levels, myelin content, and the astrocytic expression of the glial fibrillary acidic protein (GFAP) investigated the possible influence of inflammation in motor dysfunction., Results: Relative to wild-type (WT) mice, the tremor mice presented: increased tremors and bradykinesia associated with postural instability, decreased range of motion, and difficulty in initiating voluntary movements directly proportional to age; reduced step length for right and left hindlimbs; reduced cortical GABA, glutamate and, aspartate levels, the DOPAC/DA and ratio and increased the NOR levels; in the striatum, the levels of glycine and aspartate were reduced while the HVA levels, the HVA/DA and 5HIAA/5-HT ratios increased; in the cerebellum the glycine, NOR and 5-HIAA levels increased., Conclusions: We suggest that the motor disturbances resulted mainly from the activation of the indirect striatal inhibitory pathway to the frontal cortex mediated by GABA, glutamate, and aspartate, reducing the dopaminergic activity at the prefrontal cortex, which was associated with the progressive tremor. The reduced striatal and increased cerebellar glycine levels could be partially responsible for the mutant tremor motor disturbances., Competing Interests: Conflict of Interest Statement The authors declare no conflict of interest., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

5. Alteration of hippocampal Egr3, GABA A receptors, Il-1β, Il6 and Ccl3 expression in audiogenic tremor mice after seizure.

Author

de Souza Aranha Garcia-Gomes M, Yamamoto PK, Massironi SMG, Galvis-Alonso OY, Mejia J, Zanatto DA, Alexandre-Ribeiro SR, Ienne S, and Mori CMC

Subjects

Mice, Animals, Tremor metabolism, Seizures genetics, Hippocampus metabolism, RNA, Messenger, Chemokine CCL3 genetics, Chemokine CCL3 metabolism, Receptors, GABA-A metabolism, Epilepsy, Reflex genetics

Abstract

Neuroinflammation plays a protective role in the brain; however, in neurological diseases such as epilepsy, overactivated neuroinflammation, along with overexpression of inflammatory mediators, can cause neuronal tissue damage, which can trigger seizures due to loss of ionic or neurotransmitter homeostasis. Therefore, we aimed to evaluate mRNA expression levels of proinflammatory cytokines, early growth response factor 3 (Egr3), and GABA A receptors in the hippocampus of naive audiogenic mutant tremor mice, and stimulated tremor mice after a seizure. Gene expression of Il-1β, Il-6, Tnf-α, Ccl2, Ccl3, Egr3, Gabra1, and Gabra4 from hippocampal samples of naive and stimulated tremor mice were measured by quantitative reverse transcription polymerase chain reaction (qRT-PCR). Relative to resistant mice, Ccl3 gene expression was increased and Il6 was decreased in the hippocampus of naïve tremor mice. Thirty minutes after a seizure, Ccl3 and Il-1β mRNA expression were decreased (p < 0.0001; p = 0.0034, respectively) while Il6 was increased (p = 0.0052) in stimulated tremor mice, relative to naïve animals. In addition, Egr3, Gabra1, and Gabra4 mRNA expression was decreased in the hippocampus of naive tremor mice, relative to resistant mice, which increased 30 minutes after a seizure (p = 0.0496; p = 0.0447, and p = 0.0011, respectively), relative to naïve animals. In conclusion, overexpression of Ccl3 in the hippocampus of naive tremor mice, followed by downregulation soon after seizure in stimulated tremor mice, could be involved in changes in the blood-brain barrier (BBB) permeability in epilepsy. Il-1β may be involved in hippocampal downregulation of GABA A receptors of naive tremor mice, characterizing an important mechanism in audiogenic seizures triggering. Hippocampal alterations of proinflammatory cytokines, Egr3, and GABA A receptors in tremor mice reinforce them as an alternative tool to modeling temporal lobe epilepsy., 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 © 2022 Elsevier Inc. All rights reserved.)

Published

2022

6. Bate palmas mutant mice as a model of Kabuki syndrome: Higher susceptibility to infections and vocalization impairments?

Author

Kirsten TB, Silva EP, Biondi TF, Rodrigues PS, Cardoso CV, Massironi SMG, Mori CMC, Bondan EF, and Bernardi MM

Subjects

Animals, Child, Preschool, Face abnormalities, Female, Humans, Lipopolysaccharides pharmacology, Male, Mice, Abnormalities, Multiple genetics, Hematologic Diseases genetics, Vestibular Diseases genetics

Abstract

The recessive mutant mouse bate palmas (bapa) arose from N-ethyl-N-nitrosourea mutagenesis. Previous studies of our group revealed some behavioral impairments and a mutation in the lysine (K)-specific methyltransferase 2D (Kmt2d) gene. Because mutations in the KMT2D gene in humans are mainly responsible for Kabuki syndrome, this study was proposed to validate bapa mice as a model of Kabuki syndrome. Besides other symptoms, Kabuki syndrome is characterized by increased susceptibility to infections and speech impairments, usually diagnosed in the early childhood. Thus, juvenile male and female bapa mice were studied in different developmental stages (prepubertal period and puberty). To induce sickness behavior and to study infection susceptibility responses, lipopolysaccharide (LPS) was used. To study oral communication, ultrasonic vocalizations were evaluated. Behavioral (open-field test) and central (astrocytic glial fibrillary acidic protein [GFAP] and tyrosine hydroxylase [TH]) evaluations were also performed. Control and bapa female mice emitted 31-kHz ultrasounds on prepubertal period when exploring a novel environment, a frequency not yet described for mice, being defined as 31-kHz exploratory vocalizations. Males, LPS, and puberty inhibited these vocalizations. Bapa mice presented increased motor/exploratory behaviors on prepubertal period due to increased striatal TH expression, revealing striatal dopaminergic system hyperactivity. Combining open-field behavior and GFAP expression, bapa mice did not develop LPS tolerance, that is, they remained expressing signs of sickness behavior after LPS challenge, being more susceptible to infectious/inflammatory processes. It was concluded that bapa mice is a robust experimental model of Kabuki syndrome., (© 2022 Wiley Periodicals LLC.)

Published

2022

7. A Simple and Fast Battery Test for Phenotypic Characterization of Mice.

Author

Garcia-Gomes MSA, Zanatto DA, Yamamoto PK, Wadt D, Antiorio ATFB, Aleman-Laporte J, Alexandre-Ribeiro SR, Marson GA, Guizzo C, Massironi SMG, Bernardi MM, and Mori CMC

Abstract

Despite the great number of test batteries already known to assess the behavior of genetically modified and inbred strains of mice, only a few of them focus on basic neurological parameters. The purpose of the battery test proposed is to settle a specific methodology to characterize the phenotype of neurological disease models in mutant or genetically modified mice. This methodology is simple and efficient in order to analyze several parameters, including general activity, sensory nervous system, sensorimotor system, central nervous system and autonomous nervous system. This can aid the choice of specific additional tests as well as the determination of an interrelationship among phenotypic alterations observed. Although being efficient for a first analysis of a mouse model, interpretation of the results must be carefully made because phenotype manifestation may vary due to many parameters, including mouse strain, environmental and housing condition, animal-experimenter interaction, sample size and tests order. It is important to consider as a critical point if handling procedures are aversive. The results acquired with the analysis of 18 parameters together provide preliminary data to characterize mouse phenotype and helps selecting more specific tests., Competing Interests: Competing interestsThe authors declare no conflicts of interest or competing interests., (Copyright © 2020 The Authors; exclusive licensee Bio-protocol LLC.)

Published

2020

8. Behavioral and neurochemical characterization of the spontaneous mutation tremor, a new mouse model of audiogenic seizures.

Author

Garcia-Gomes MSA, Zanatto DA, Galvis-Alonso OY, Mejia J, Antiorio ATFB, Yamamoto PK, Olivato MCM, Sandini TM, Flório JC, Lebrun I, Massironi SMG, Alexandre-Ribeiro SR, Bernardi MM, Ienne S, de Souza TA, Dagli MLZ, and Mori CMC

Subjects

Animals, Disease Models, Animal, Dopamine metabolism, Female, Glutamic Acid metabolism, Hippocampus chemistry, Hippocampus metabolism, Male, Mice, Mice, Transgenic, Norepinephrine metabolism, Seizures genetics, Seizures metabolism, Serotonin metabolism, Acoustic Stimulation adverse effects, Epilepsy, Reflex genetics, Epilepsy, Reflex metabolism, Mutation genetics, Tremor genetics, Tremor metabolism

Abstract

The tremor mutant phenotype results from an autosomal recessive spontaneous mutation arisen in a Swiss-Webster mouse colony. The mutant mice displayed normal development until three weeks of age when they began to present motor impairment comprised by whole body tremor, ataxia, and decreased exploratory behavior. These features increased in severity with aging suggesting a neurodegenerative profile. In parallel, they showed audiogenic generalized clonic seizures. Results from genetic mapping identified the mutation tremor on chromosome 14, in an interval of 5 cM between D14Mit37 (33.21 cM) and D14Mit115 (38.21 cM), making Early Growth Response 3 (Egr3) the main candidate gene. Comparing with wild type (WT) mice, the tremor mice showed higher hippocampal gene expression of Egr3 and Gabra1 and increased concentrations of noradrenalin (NOR; p = .0012), serotonin (5HT; p = .0083), 5-hydroxyindoleacetic acid (5-HIAA; p = .0032), γ-amino butyric acid (GABA; p = .0123), glutamate (p = .0217) and aspartate (p = .0124). In opposition, the content of glycine (p = .0168) and the vanillylmandelic acid (VMA)/NOR ratio (p = .032) were decreased. Regarding to dopaminergic system, neither dopamine (DA) and 3,4-dihydroxyphenylacetic acid (DOPAC) contents nor the turnover rate of DA showed statistically significant differences between WT and mutant mice. Data demonstrated that audiogenic seizures of tremor mice are associated with progressive motor impairment as well as to hippocampal alterations of the Egr3 and Gabra1 gene expression and amino acid and monoamine content. In addition, the tremor mice could be useful for study of neurotransmission pathways as modulators of epilepsy and the pathogenesis of epilepsies occurring with generalized clonic seizures., Competing Interests: Declaration of competing interest We have no conflicts of interest to declare. All authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

9. Genetic and behavioral characterization of a Kmt2d mouse mutant, a new model for Kabuki Syndrome.

Author

Yamamoto PK, de Souza TA, Antiorio ATFB, Zanatto DA, Garcia-Gomes MSA, Alexandre-Ribeiro SR, Oliveira NS, Menck CFM, Bernardi MM, Massironi SMG, and Mori CMC

Subjects

Abnormalities, Multiple physiopathology, Animals, Disease Models, Animal, Face physiopathology, Gait, Hearing, Hematologic Diseases physiopathology, Male, Mice, Mice, Inbred BALB C, Movement, Muscle Hypotonia genetics, Reflex, Vestibular Diseases physiopathology, Abnormalities, Multiple genetics, Behavior, Animal, Face abnormalities, Hematologic Diseases genetics, Histone-Lysine N-Methyltransferase genetics, Loss of Function Mutation, Myeloid-Lymphoid Leukemia Protein genetics, Vestibular Diseases genetics

Abstract

The recessive mutant mice bate palmas (bapa) - claps in Portuguese arose from N-ethyl-N-nitrosourea mutagenesis. A single nucleotide, T > C, change in exon 13, leading to a Thr 1289 Ala substitution, was identified in the lysine (K)-specific methyltransferase 2D gene (Kmt2d) located on chromosome 15. Mutations with a loss-of-function in the KMT2D gene on chromosome 12 in humans are responsible for Kabuki syndrome (KS). Phenotypic characterization of the bapa mutant was performed using a behavioral test battery to evaluate the parameters related to general activity, the sensory nervous system, the psychomotor system, and the autonomous nervous system, as well as to measure motor function and spatial memory. Relative to BALB/cJ mice, the bapa mutant showed sensory and psychomotor impairments, such as hypotonia denoted by a surface righting reflex impairment and hindquarter fall, and a reduction in the auricular reflex, suggesting hearing impairment. Additionally, the enhanced general activity showed by the increased rearing and grooming frequency, distance traveled and average speed possibly presupposes the presence of hyperactivity of bapa mice compared with the control group. A slight motor coordination dysfunction was showed in bapa mice, which had a longer crossing time on the balance beam compared with BALB/cJ controls. Male bapa mice also showed spatial gait pattern changes, such as a shorter stride length and shorter step length. In conclusion, the bapa mouse may be a valuable animal model to study the mechanisms involved in psychomotor and behavior impairments, such as hypotonia, fine motor coordination and hyperactivity linked to the Kmt2d mutation., (© 2019 John Wiley & Sons Ltd and International Behavioural and Neural Genetics Society.)

Published

2019

10. Mutation in NADPH oxidase 3 (NOX3) impairs SHH signaling and increases cerebellar neural stem/progenitor cell proliferation.

Author

Mazzonetto PC, Ariza CB, Ocanha SG, de Souza TA, Ko GM, Menck CFM, Massironi SMG, and Porcionatto MA

Subjects

Animals, Ataxia enzymology, Ataxia physiopathology, Cell Differentiation, Cell Proliferation, Cerebellum growth & development, Cerebellum pathology, Chromosome Mapping, Chromosomes, Mammalian, Cyclin D1 genetics, Cyclin D1 metabolism, Disease Models, Animal, Gene Expression Profiling, Gene Expression Regulation, Developmental, Hedgehog Proteins metabolism, Male, Mice, Mice, Inbred BALB C, Mice, Knockout, Motor Activity genetics, Mutation, NADPH Oxidases deficiency, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neural Stem Cells pathology, Primary Cell Culture, Reactive Oxygen Species metabolism, Zinc Finger Protein GLI1 genetics, Zinc Finger Protein GLI1 metabolism, Zinc Finger Protein Gli2 genetics, Zinc Finger Protein Gli2 metabolism, Zinc Finger Protein Gli3 genetics, Zinc Finger Protein Gli3 metabolism, Ataxia genetics, Cerebellum enzymology, Hedgehog Proteins genetics, NADPH Oxidases genetics, Neural Stem Cells enzymology, Signal Transduction genetics

Abstract

Abnormalities in cerebellar structure and function may cause ataxia, a neurological dysfunction of motor coordination. In the course of the present study, we characterized a mutant mouse lineage with an ataxia-like phenotype. We localized the mutation on chromosome 17 and mapped it to position 1534 of the Nox3 gene, resulting in p.Asn64Tyr change. The primary defect observed in Nox3 eqlb mice was increased proliferation of cerebellar granule cell precursors (GCPs). cDNA microarray comparing Nox3 eqlb and BALB/c neonatal cerebellum revealed changes in the expression of genes involved in the control of cell proliferation. Nox3 eqlb GCPs and NSC produce higher amounts of reactive oxygen species (ROS) and upregulate the expression of SHH target genes, such as Gli1-3 and Ccnd1 (CyclinD1). We hypothesize that this new mutation is responsible for an increase in proliferation via stimulation of the SHH pathway. We suggest this mutant mouse lineage as a new model to investigate the role of ROS in neuronal precursor cell proliferation., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

11. Behavioral and neurochemical characterization of the mlh mutant mice lacking otoconia.

Author

Manes M, Garcia-Gomes MSA, Sandini TM, Zaccarelli-Magalhães J, Florio JC, Alexandre-Ribeiro SR, Wadt D, Bernardi MM, Massironi SMG, and Mori CMC

Subjects

Animals, Exploratory Behavior physiology, Hindlimb Suspension, Male, Maze Learning physiology, Mice, Mice, Inbred BALB C, Mice, Mutant Strains, Motor Activity, Psychomotor Performance physiology, Recognition, Psychology physiology, Spatial Learning, Swimming, Vestibular Diseases etiology, Membrane Proteins genetics, Mutation genetics, Neurotransmitter Agents metabolism, Otolithic Membrane pathology, Vestibular Diseases genetics

Abstract

Otoconia are crucial for the correct processing of positional information and orientation. Mice lacking otoconia cannot sense the direction of the gravity vector and cannot swim properly. This study aims to characterize the behavior of mergulhador (mlh), otoconia-deficient mutant mice. Additionally, the central catecholamine levels were evaluated to investigate possible correlations between behaviors and central neurotransmitters. A sequence of behavioral tests was used to evaluate the parameters related to the general activity, sensory nervous system, psychomotor system, and autonomous nervous system, in addition to measuring the acquisition of spatial and declarative memory, anxiety-like behavior, motor coordination, and swimming behavior of the mlh mutant mice. As well, the neurotransmitter levels in the cerebellum, striatum, frontal cortex, and hippocampus were measured. Relative to BALB/c mice, the mutant mlh mice showed 1) reduced locomotor and rearing behavior, increased auricular and touch reflexes, decreased motor coordination and increased micturition; 2) decreased responses in the T-maze and aversive wooden beam tests; 3) increased time of immobility in the tail suspension test; 4) no effects in the elevated plus maze or object recognition test; 5) an inability to swim; and 6) reduced turnover of dopaminergic system in the cerebellum, striatum, and frontal cortex. Thus, in our mlh mutant mice, otoconia deficiency reduced the motor, sensory and spatial learning behaviors likely by impairing balance. We did not rule out the role of the dopaminergic system in all behavioral deficits of the mlh mutant mice., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019