Your search keyword '"Totaro, Valentino"' showing total 10 results

1. Selective Disruption of Perineuronal Nets in Mice Lacking Crtl1 is Sufficient to Make Fear Memories Susceptible to Erasure

Author

Poli, Andrea, Viglione, Aurelia, Mazziotti, Raffaele, Totaro, Valentino, Morea, Silvia, Melani, Riccardo, Silingardi, Davide, Putignano, Elena, Berardi, Nicoletta, and Pizzorusso, Tommaso

Published

2023

2. A comprehensive atlas of perineuronal net distribution and colocalization with parvalbumin in the adult mouse brain

Author

Lupori, Leonardo, Totaro, Valentino, Cornuti, Sara, Ciampi, Luca, Carrara, Fabio, Grilli, Edda, Viglione, Aurelia, Tozzi, Francesca, Putignano, Elena, Mazziotti, Raffaele, Amato, Giuseppe, Gennaro, Claudio, Tognini, Paola, and Pizzorusso, Tommaso

Published

2023

3. Reversal of neurological deficits by painless nerve growth factor in a mouse model of Rett syndrome

Author

Tiberi, Alexia, primary, Borgonovo, Giulia, additional, Testa, Giovanna, additional, Pacifico, Paola, additional, Jacob, Ajesh, additional, Di Caprio, Mariachiara, additional, Totaro, Valentino, additional, Calvello, Mariantonietta, additional, Cattaneo, Antonino, additional, and Capsoni, Simona, additional

Published

2023

4. Reversal of neurological deficits by painless nerve growth factor in a mouse model of Rett syndrome.

Author

Tiberi, Alexia, Borgonovo, Giulia, Testa, Giovanna, Pacifico, Paola, Jacob, Ajesh, Caprio, Mariachiara Di, Totaro, Valentino, Calvello, Mariantonietta, Cattaneo, Antonino, and Capsoni, Simona

Subjects

NERVE growth factor, RETT syndrome, LABORATORY mice, INTRANASAL administration, ANIMAL disease models

Abstract

Rett syndrome is a rare genetic neurodevelopmental disease, affecting 1 in over 10 000 females born worldwide, caused by de novo mutations in the X-chromosome-located methyl-CpG-binding protein 2 (MeCP2) gene. Despite the great effort put forth by the scientific community, a therapy for this devastating disease is still needed. Here, we tested the therapeutic effects of a painless mutein of the nerve growth factor (NGF), called human NGF painless (hNGFp), via a non-invasive intranasal delivery in female MeCP2 +/− mice. Of note, previous work had demonstrated a broad biodistribution of hNGFp in the mouse brain by the nasal delivery route. We report that (i) the long-term lifelong treatment of MeCP2 +/− mice with hNGFp, starting at 2 months of age, increased the chance of survival while also greatly improving behavioural parameters. Furthermore, when we assessed the phenotypic changes brought forth by (ii) a short-term 1-month-long hNGFp-treatment, starting at 3 months of age (right after the initial presentation of symptoms), we observed the rescue of a well known neuronal target population of NGF, cholinergic neurons in the medial septum. Moreover, we reveal a deficit in microglial morphology in MeCP2 +/− mice, completely reversed in treated animals. This effect on microglia is in line with reports showing microglia to be a TrkA-dependent non-neuronal target cell population of NGF in the brain. To understand the immunomodulatory activity of hNGFp, we analysed the cytokine profile after hNGFp treatment in MeCP2 +/− mice, to discover that the treatment recovered the altered expression of key neuroimmune-communication molecules, such as fractalkine. The overall conclusion is that hNGFp delivered intranasally can ameliorate symptoms in the MeCP2 +/− model of Rett syndrome, by exerting strong neuroprotection with a dual mechanism of action: directly on target neurons and indirectly via microglia. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Comprehensive Atlas of Perineuronal Net Distribution and Colocalization with Parvalbumin in the Adult Mouse Brain

Author

Lupori, Leonardo, primary, Totaro, Valentino, additional, Cornuti, Sara, additional, Ciampi, Luca, additional, Carrara, Fabio, additional, Grilli, Edda, additional, Viglione, Aurelia, additional, Tozzi, Francesca, additional, Putignano, Elena, additional, Mazziotti, Raffaele, additional, Amato, Giuseppe, additional, Gennaro, Claudio, additional, Tognini, Paola, additional, and Pizzorusso, Tommaso, additional

Published

2023

6. Learning to count biological structures with raters’ uncertainty

Author

Ciampi, Luca, primary, Carrara, Fabio, additional, Totaro, Valentino, additional, Mazziotti, Raffaele, additional, Lupori, Leonardo, additional, Santiago, Carlos, additional, Amato, Giuseppe, additional, Pizzorusso, Tommaso, additional, and Gennaro, Claudio, additional

Published

2022

7. Behavioral impulsivity is associated with pupillary alterations and hyperactivity in CDKL5 mutant mice

Author

Viglione, Aurelia, primary, Sagona, Giulia, additional, Carrara, Fabio, additional, Amato, Giuseppe, additional, Totaro, Valentino, additional, Lupori, Leonardo, additional, Putignano, Elena, additional, Pizzorusso, Tommaso, additional, and Mazziotti, Raffaele, additional

Published

2022

8. Behavioral impulsivity is associated with pupillary alterations and hyperactivity in CDKL5 mutant mice

Author

Aurelia Viglione, Giulia Sagona, Fabio Carrara, Giuseppe Amato, Valentino Totaro, Leonardo Lupori, Elena Putignano, Tommaso Pizzorusso, Raffaele Mazziotti, Viglione, Aurelia, Sagona, Giulia, Carrara, Fabio, Amato, Giuseppe, Totaro, Valentino, Lupori, Leonardo, Putignano, Elena, Pizzorusso, Tommaso, and Mazziotti, Raffaele

Subjects

Male, Mice, Knockout, Orienting response, Pupil, General Medicine, Protein Serine-Threonine Kinases, Settore BIO/09 - Fisiologia, Mice, Pupillometry, CDKL5, Artificial Intelligence, Impulsive Behavior, Genetics, Animals, Pupillary light reflex, Female, Molecular Biology, Spasms, Infantile, CDD, Operant conditioning, Genetics (clinical)

Abstract

Cyclin-dependent kinase-like 5 (Cdkl5) deficiency disorder (CDD) is a severe neurodevelopmental condition caused by mutations in the X-linked Cdkl5 gene. CDD is characterized by early-onset seizures in the first month of life, intellectual disability, motor and social impairment. No effective treatment is currently available and medical management is only symptomatic and supportive. Recently, mouse models of Cdkl5 disorder have demonstrated that mice lacking Cdkl5 exhibit autism-like phenotypes, hyperactivity, and dysregulations of the arousal system, suggesting the possibility to use these features as translational biomarkers. In this study, we tested Cdkl5 male and female mutant mice in an appetitive operant conditioning chamber to assess cognitive and motor abilities, and performed pupillometry to assess the integrity of the arousal system. Then, we evaluated the performance of artificial intelligence models to classify the genotype of the animals from the behavioral and physiological phenotype. The behavioral results show that CDD mice display impulsivity, together with low levels of cognitive flexibility and perseverative behaviors. We assessed arousal levels by simultaneously recording pupil size and locomotor activity. Pupillometry reveals in CDD mice a smaller pupil size and an impaired response to unexpected stimuli associated with hyperlocomotion, demonstrating a global defect in arousal modulation. Finally, machine learning reveals that both behavioral and pupillometry parameters can be considered good predictors of CDD. Since early diagnosis is essential to evaluate treatment outcomes and pupillary measures can be performed easily, we proposed the monitoring of pupil size as a promising biomarker for CDD. Cyclin-dependent kinase-like 5 (Cdkl5) deficiency disorder (CDD) is a severe neurodevelopmental condition caused by mutations in the X-linked Cdkl5 gene. CDD is characterized by early-onset seizures in the first month of life, intellectual disability, motor and social impairment. No effective treatment is currently available and medical management is only symptomatic and supportive. Recently, mouse models of Cdkl5 disorder have demonstrated that mice lacking Cdkl5 exhibit autism-like phenotypes, hyperactivity, and dysregulations of the arousal system, suggesting the possibility to use these features as translational biomarkers. In this study, we tested Cdkl5 male and female mutant mice in an appetitive operant conditioning chamber to assess cognitive and motor abilities, and performed pupillometry to assess the integrity of the arousal system. Then, we evaluated the performance of artificial intelligence models to classify the genotype of the animals from the behavioral and physiological phenotype. The behavioral results show that CDD mice display impulsivity, together with low levels of cognitive flexibility and perseverative behaviors. We assessed arousal levels by simultaneously recording pupil size and locomotor activity. Pupillometry reveals in CDD mice a smaller pupil size and an impaired response to unexpected stimuli associated with hyperlocomotion, demonstrating a global defect in arousal modulation. Finally, machine learning reveals that both behavioral and pupillometry parameters can be considered good predictors of CDD. Since early diagnosis is essential to evaluate treatment outcomes and pupillary measures can be performed easily, we proposed the monitoring of pupil size as a promising biomarker for CDD.

Published

2022

9. Learning to count biological structures with raters' uncertainty

Author

Luca Ciampi, Fabio Carrara, Valentino Totaro, Raffaele Mazziotti, Leonardo Lupori, Carlos Santiago, Giuseppe Amato, Tommaso Pizzorusso, Claudio Gennaro, Ciampi, Luca, Carrara, Fabio, Totaro, Valentino, Mazziotti, Raffaele, Lupori, Leonardo, Santiago, Carlo, Amato, Giuseppe, Pizzorusso, Tommaso, and Gennaro, Claudio

Subjects

mice, Perineuronal nets, automatic cell counting, counting with uncertainty, Health Informatics, Multi-rater data, Settore BIO/09 - Fisiologia, Automatic cell counting, Mice, Deep Learning, Animals, Humans, Radiology, Nuclear Medicine and imaging, animal, human, uncertainty, biomedical image analysi, Radiological and Ultrasound Technology, Biomedical image analysis, multi-rater data, Uncertainty, microscopy image, deep learning, Computer Graphics and Computer-Aided Design, Microscopy images, Computer Vision and Pattern Recognition, perineuronal net, Counting with uncertainty

Abstract

Exploiting well-labeled training sets has led deep learning models to astonishing results for counting biological structures in microscopy images. However, dealing with weak multi-rater annotations, i.e., when multiple human raters disagree due to non-trivial patterns, remains a relatively unexplored problem. More reliable labels can be obtained by aggregating and averaging the decisions given by several raters to the same data. Still, the scale of the counting task and the limited budget for labeling prohibit this. As a result, making the most with small quantities of multi-rater data is crucial. To this end, we propose a two-stage counting strategy in a weakly labeled data scenario. First, we detect and count the biological structures; then, in the second step, we refine the predictions, increasing the correlation between the scores assigned to the samples and the raters' agreement on the annotations. We assess our methodology on a novel dataset comprising fluorescence microscopy images of mice brains containing extracellular matrix aggregates named perineuronal nets. We demonstrate that we significantly enhance counting performance, improving confidence calibration by taking advantage of the redundant information characterizing the small sets of available multi-rater data.

Published

2022

10. Reversal of neurological deficits by painless nerve growth factor in a mouse model of Rett syndrome.

Author

Tiberi A, Borgonovo G, Testa G, Pacifico P, Jacob A, Di Caprio M, Totaro V, Calvello M, Cattaneo A, and Capsoni S

Subjects

Humans, Female, Mice, Animals, Nerve Growth Factor metabolism, Tissue Distribution, Methyl-CpG-Binding Protein 2 genetics, Brain metabolism, Neurons metabolism, Disease Models, Animal, Rett Syndrome therapy

Abstract

Rett syndrome is a rare genetic neurodevelopmental disease, affecting 1 in over 10 000 females born worldwide, caused by de novo mutations in the X-chromosome-located methyl-CpG-binding protein 2 (MeCP2) gene. Despite the great effort put forth by the scientific community, a therapy for this devastating disease is still needed. Here, we tested the therapeutic effects of a painless mutein of the nerve growth factor (NGF), called human NGF painless (hNGFp), via a non-invasive intranasal delivery in female MeCP2+/- mice. Of note, previous work had demonstrated a broad biodistribution of hNGFp in the mouse brain by the nasal delivery route. We report that (i) the long-term lifelong treatment of MeCP2+/- mice with hNGFp, starting at 2 months of age, increased the chance of survival while also greatly improving behavioural parameters. Furthermore, when we assessed the phenotypic changes brought forth by (ii) a short-term 1-month-long hNGFp-treatment, starting at 3 months of age (right after the initial presentation of symptoms), we observed the rescue of a well known neuronal target population of NGF, cholinergic neurons in the medial septum. Moreover, we reveal a deficit in microglial morphology in MeCP2+/- mice, completely reversed in treated animals. This effect on microglia is in line with reports showing microglia to be a TrkA-dependent non-neuronal target cell population of NGF in the brain. To understand the immunomodulatory activity of hNGFp, we analysed the cytokine profile after hNGFp treatment in MeCP2+/- mice, to discover that the treatment recovered the altered expression of key neuroimmune-communication molecules, such as fractalkine. The overall conclusion is that hNGFp delivered intranasally can ameliorate symptoms in the MeCP2+/- model of Rett syndrome, by exerting strong neuroprotection with a dual mechanism of action: directly on target neurons and indirectly via microglia., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2024