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11 results on '"Naso, Federica"'

2. Light‐responsive microRNA miR‐211 targets Ezrin to modulate lysosomal biogenesis and retinal cell clearance

Author

Naso, Federica, Intartaglia, Daniela, Falanga, Danila, Soldati, Chiara, Polishchuk, Elena, Giamundo, Giuliana, Tiberi, Paola, Marrocco, Elena, Scudieri, Paolo, Di Malta, Chiara, Trapani, Ivana, Nusco, Edoardo, Salierno, Francesco Giuseppe, Surace, Enrico Maria, Galietta, Luis JV, Banfi, Sandro, Auricchio, Alberto, Ballabio, Andrea, Medina, Diego Luis, and Conte, Ivan

Published
2020
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3. Induction of Autophagy Promotes Clearance of RHOP23H Aggregates and Protects From Retinal Degeneration

Author

Intartaglia, Daniela, Giamundo, Giuliana, Naso, Federica, Nusco, Edoardo, Di Giulio, Simona, Salierno, Francesco Giuseppe, Polishchuk, Elena, Conte, Ivan, Intartaglia, Daniela, Giamundo, Giuliana, Naso, Federica, Nusco, Edoardo, Di Giulio, Simona, Salierno, Francesco Giuseppe, Polishchuk, Elena, and Conte, Ivan

Subjects
autophagy, Aging, Cognitive Neuroscience, ER-stre, retinal degeneration, Ezrin, RHOP23H/+
Abstract

Autophagy is a critical metabolic process that acts as a major self-digestion and recycling pathway contributing to maintain cellular homeostasis. An emerging field of research supports the therapeutic modulation of autophagy for treating human neurodegenerative disorders, in which toxic aggregates are accumulated in neurons. Our previous study identified Ezrin protein as an inhibitor of autophagy and lysosomal functions in the retina; thus, in turn, identifying it as a potential pharmacological target for increasing retinal cell clearance to treat inherited retinal dystrophies in which misfolded proteins have accumulated. This study aimed to verify the therapeutic inhibition of Ezrin to induce clearance of toxic aggregates in a mouse model for a dominant form of retinitis pigmentosa (i.e., RHOP23H/+). We found that daily inhibition of Ezrin significantly decreased the accumulation of misfolded RHOP23H aggregates. Remarkably, induction of autophagy, by a drug-mediated pulsatile inhibition of Ezrin, promoted the lysosomal clearance of disease-linked RHOP23H aggregates. This was accompanied with a reduction of endoplasmic reticulum (ER)-stress, robust decrease of photoreceptors' cell death, amelioration in both retinal morphology and function culminating in a better preservation of vision. Our study opens new perspectives for a pulsatile pharmacological induction of autophagy as a mutation-independent therapy paving the way toward a more effective therapeutic strategy to treat these devastating retinal disorders due to an accumulation of intracellular toxic aggregates.

Published
2022
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4. MiR-211 is essential for adult cone photoreceptor maintenance and visual function

Author

Barbato, Sara, Marrocco, Elena, Intartaglia, Daniela, Pizzo, Mariateresa, Asteriti, Sabrina, Naso, Federica, Falanga, Danila, Bhat, Rajeshwari S., Meola, Nicola, Carissimo, Annamaria, Karali, Marianthi, Prosser, Haydn M., Cangiano, Lorenzo, Surace, Enrico Maria, Banfi, Sandro, Conte, Ivan, CONTE, IVAN, Intartaglia, Daniela [0000-0001-5256-3188], Asteriti, Sabrina [0000-0003-2846-9305], Cangiano, Lorenzo [0000-0001-7145-1288], Banfi, Sandro [0000-0002-6541-8833], Apollo - University of Cambridge Repository, Barbato, Sara, Marrocco, Elena, Intartaglia, Daniela, Pizzo, Mariateresa, Asteriti, Sabrina, Naso, Federica, Falanga, Danila, Bhat, Rajeshwari S, Meola, Nicola, Carissimo, Annamaria, Karali, Marianthi, Prosser, Haydn M, Cangiano, Lorenzo, Surace, Enrico Maria, Banfi, Sandro, Conte, Ivan, Bhat, Rajeshwari S., and Prosser, Haydn M.

Subjects
0301 basic medicine, Male, retina, genetic structures, degeneration, lcsh:Medicine, Biology, Retinal Cone Photoreceptor Cells, Article, Transcriptome, 03 medical and health sciences, Mice, rods, cones, Cone dystrophy, microRNA, retina, rods, cones, miRNAs, mouse, degeneration, disease, medicine, Animals, Cone Dystrophy, Eye Proteins, lcsh:Science, mouse, Vision, Ocular, Regulation of gene expression, Mice, Knockout, disease, Retina, Multidisciplinary, Gene Expression Profiling, lcsh:R, medicine.disease, Cell biology, Gene expression profiling, MicroRNAs, 030104 developmental biology, medicine.anatomical_structure, Gene Expression Regulation, miRNAs, Female, lcsh:Q, sense organs, Function (biology)
Abstract

MicroRNAs (miRNAs) are key post-transcriptional regulators of gene expression that play an important role in the control of fundamental biological processes in both physiological and pathological conditions. Their function in retinal cells is just beginning to be elucidated, and a few have been found to play a role in photoreceptor maintenance and function. MiR-211 is one of the most abundant miRNAs in the developing and adult eye. However, its role in controlling vertebrate visual system development, maintenance and function so far remain incompletely unexplored. Here, by targeted inactivation in a mouse model, we identify a critical role of miR-211 in cone photoreceptor function and survival. MiR-211 knockout (−/−) mice exhibited a progressive cone dystrophy accompanied by significant alterations in visual function. Transcriptome analysis of the retina from miR-211−/− mice during cone degeneration revealed significant alteration of pathways related to cell metabolism. Collectively, this study highlights for the first time the impact of miR-211 function in the retina and significantly contributes to unravelling the role of specific miRNAs in cone photoreceptor function and survival.

Published
2017
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5. Induction of Autophagy Promotes Clearance of RHOP23H Aggregates and Protects From Retinal Degeneration.

Author

Intartaglia, Daniela, Giamundo, Giuliana, Naso, Federica, Nusco, Edoardo, Di Giulio, Simona, Salierno, Francesco Giuseppe, Polishchuk, Elena, and Conte, Ivan

Subjects
LYSOSOMES, AUTOPHAGY, ANIMAL experimentation, ENDOPLASMIC reticulum, RETINITIS pigmentosa, TREATMENT effectiveness, PHOTORECEPTORS, RESEARCH funding, MEMBRANE proteins, CARRIER proteins, MICE
Abstract

Autophagy is a critical metabolic process that acts as a major self-digestion and recycling pathway contributing to maintain cellular homeostasis. An emerging field of research supports the therapeutic modulation of autophagy for treating human neurodegenerative disorders, in which toxic aggregates are accumulated in neurons. Our previous study identified Ezrin protein as an inhibitor of autophagy and lysosomal functions in the retina; thus, in turn, identifying it as a potential pharmacological target for increasing retinal cell clearance to treat inherited retinal dystrophies in which misfolded proteins have accumulated. This study aimed to verify the therapeutic inhibition of Ezrin to induce clearance of toxic aggregates in a mouse model for a dominant form of retinitis pigmentosa (i.e., RHOP23H/+). We found that daily inhibition of Ezrin significantly decreased the accumulation of misfolded RHOP23H aggregates. Remarkably, induction of autophagy, by a drug-mediated pulsatile inhibition of Ezrin, promoted the lysosomal clearance of disease-linked RHOP23H aggregates. This was accompanied with a reduction of endoplasmic reticulum (ER)-stress, robust decrease of photoreceptors' cell death, amelioration in both retinal morphology and function culminating in a better preservation of vision. Our study opens new perspectives for a pulsatile pharmacological induction of autophagy as a mutation-independent therapy paving the way toward a more effective therapeutic strategy to treat these devastating retinal disorders due to an accumulation of intracellular toxic aggregates. [ABSTRACT FROM AUTHOR]

Published
2022
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6. ENDOGENOUS LIPID PEROXIDATION PRODUCT 9-HSA REGULATES PROGENITOR FATE IN THE VERTEBRATE RETINA

Author

ALBADRI, Shahad, NASO, FEDERICA, PAROLIN, Carola Eleonora, DUROURE, Karine, FIORI, Jessica, BOGA, Carla, CALONGHI, Natalia, DEL BENE, Filippo, ALBADRI, Shahad, NASO, Federica, PAROLIN, Carola Eleonora, DUROURE, Karine, FIORI, Jessica, BOGA, Carla, CALONGHI, Natalia, and DEL BENE, Filippo

Subjects
oxidative stress, lipid peroxidation, retina development
Published
2017

8. ROLE OF LIPID PEROXIDATION PRODUCT IN ZEBRAFISH DEVELOPMENT

Author

CALONGHI, NATALIA, PAROLIN, CAROLA ELEONORA, NASO, FEDERICA, SARTOR, GIORGIO, Del Bene, F., Calonghi, N., Parolin, C., Naso, F., Sartor, G., and Del Bene, F.

Subjects
9-hydroxystearic acid, lipid peroxidation, histone deacetylase, zebrafish, cell differentiation
Abstract

Endogenous reactive oxygen species (ROS) and their downstream products, e.g. lipid peroxidation by- products, are emerging as central secondary messengers in cell fate signaling and are also connected to a number of pathological events. We have reveal an in vivo role for the endogenous product of lipid metabolism 9-hydroxystearic acid (9-HSA), in regulating the balance between cell proliferation and differentiation of progenitors cells (RPCs) specifically in the retina during the zebrafish eye development. We found that 9-HSA is endogenously produced in the zebrafish during normal embryonic development. It and its exogenous administration results in retinal differentiation defects coinciding with maintenance of progenitor cells in the S-phase of the cell cycle and the up-regulation of cell cycle regulators such as c-myc and cyclinD1 in the central retina. The oxidative state analyses of RSC within the RSC niche revealed the localized presence of ROS within a particular differentiating region of committed progenitors. Our work provides in vivo evidence of a physiological role of (R)-9-HSA in the regulation of stem cell maintenance and differentiation balance via the direct regulation of HDAC1 activity. Together our findings show that the oxidative stress cellular state regulates RSC fate and differentiation during retina development.

Published
2017

9. Role of (R)-9-hydroxystearic acid in zebrafish development

Author

Naso, Federica

Subjects
embryonic structures, BIO/10 Biochimica
Abstract

9-hydroxystearic acid (9-HSA) belongs to a class of lipid peroxidation products identified in several human and murine cell lines. These products are greatly diminished in tumors compared to normal tissues and their amount is inversely correlated with the malignancy of the tumor. 9-HSA activity has been tested in cancer cell lines, where it showed to act as a histone deacetylase 1 (HDAC1) inhibitor. In particular, in a colon cancer cell line (HT29), its administration resulted in an inhibition of proliferation together with an induction of differentiation. In this thesis the effect of (R)-9-hydroxystearic acid has been tested in vivo on cell proliferation and differentiation processes, in the early stages of zebrafish development. The final aim of this work was to elucidate the role of (R)-9-HSA in the control of cell differentiation and proliferation during normal development, in order to better understand its molecular control of cancerogenesis. The molecule has been administered via injection in the yolk of zebrafish embryos. The analysis of the histone acetylation pattern showed a hyperacetilation of histone H4 after treatment with the molecule, as detectable in HDAC1 mutants. (R)-9-HSA was also demonstrated to interfere with the signaling pathways that regulate proliferation and differentiation in zebrafish retina and hindbrain. This resulted in a reduction of proliferation in the hindbrain at 24 hours post injection (hpi), and in a hyperproliferation at 48 and 72 hpi in the retina, with a concomitant inhibition of differentiation. Finally, (R)-9-HSA effects were evident on proliferation of stem cell located in the ciliary marginal zone (CMZ) of the retina. The presence of ROS and 4-hydroxynoneal in the CMZ of wild-type embryos supports the hypothesis that oxidative stress could regulate stem cells fate in zebrafish retina.

Published
2015
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10. Expression and purification of recombinant histone deacetylase 1

Author

PRESTA, ENRICA, NASO, FEDERICA, PAROLIN, CAROLA ELEONORA, CALONGHI, NATALIA, SARTOR, GIORGIO, Presta, E., Naso, F., Parolin, C., Calonghi, N., and Sartor, G.

Subjects
histone deacetylase, heterologous protein production, Escherichia coli, protein purification
Published
2012

11. Role of (R)-9-hydroxystearic acid in zebrafish development

Author

Calonghi, Natalia, Naso, Federica <1987>, Calonghi, Natalia, and Naso, Federica <1987>

Abstract

9-hydroxystearic acid (9-HSA) belongs to a class of lipid peroxidation products identified in several human and murine cell lines. These products are greatly diminished in tumors compared to normal tissues and their amount is inversely correlated with the malignancy of the tumor. 9-HSA activity has been tested in cancer cell lines, where it showed to act as a histone deacetylase 1 (HDAC1) inhibitor. In particular, in a colon cancer cell line (HT29), its administration resulted in an inhibition of proliferation together with an induction of differentiation. In this thesis the effect of (R)-9-hydroxystearic acid has been tested in vivo on cell proliferation and differentiation processes, in the early stages of zebrafish development. The final aim of this work was to elucidate the role of (R)-9-HSA in the control of cell differentiation and proliferation during normal development, in order to better understand its molecular control of cancerogenesis. The molecule has been administered via injection in the yolk of zebrafish embryos. The analysis of the histone acetylation pattern showed a hyperacetilation of histone H4 after treatment with the molecule, as detectable in HDAC1 mutants. (R)-9-HSA was also demonstrated to interfere with the signaling pathways that regulate proliferation and differentiation in zebrafish retina and hindbrain. This resulted in a reduction of proliferation in the hindbrain at 24 hours post injection (hpi), and in a hyperproliferation at 48 and 72 hpi in the retina, with a concomitant inhibition of differentiation. Finally, (R)-9-HSA effects were evident on proliferation of stem cell located in the ciliary marginal zone (CMZ) of the retina. The presence of ROS and 4-hydroxynoneal in the CMZ of wild-type embryos supports the hypothesis that oxidative stress could regulate stem cells fate in zebrafish retina.

Published
2015

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