Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons

Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons

Abstract A finely tuned Ca2+ homeostasis in restricted cell domains is of fundamental importance for neurons, where transient Ca2+ oscillations direct the proper coordination of electro-chemical signals and overall neuronal metabolism. Once such a precise regulation is unbalanced, however, neuronal...

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Main Authors: Rosa Pia Norante, Maria Lina Massimino, Paolo Lorenzon, Agnese De Mario, Caterina Peggion, Mattia Vicario, Mattia Albiero, Maria Catia Sorgato, Raffaele Lopreiato, Alessandro Bertoli
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-06919-0
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spelling doaj-8e299e8e280d44439975e49e38da49832020-12-08T02:02:47ZengNature Publishing GroupScientific Reports2045-23222017-07-017111110.1038/s41598-017-06919-0Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neuronsRosa Pia Norante0Maria Lina Massimino1Paolo Lorenzon2Agnese De Mario3Caterina Peggion4Mattia Vicario5Mattia Albiero6Maria Catia Sorgato7Raffaele Lopreiato8Alessandro Bertoli9Department of Biomedical Science, University of PadovaCNR Neuroscience InstituteDepartment of Biomedical Science, University of PadovaDepartment of Biomedical Science, University of PadovaDepartment of Biomedical Science, University of PadovaDepartment of Biomedical Science, University of PadovaDepartment of Medicine, and Venetian Institute of Molecular MedicineDepartment of Biomedical Science, University of PadovaDepartment of Biomedical Science, University of PadovaDepartment of Biomedical Science, University of PadovaAbstract A finely tuned Ca2+ homeostasis in restricted cell domains is of fundamental importance for neurons, where transient Ca2+ oscillations direct the proper coordination of electro-chemical signals and overall neuronal metabolism. Once such a precise regulation is unbalanced, however, neuronal functions and viability are severely compromised. Accordingly, disturbed Ca2+ metabolism has often been claimed as a major contributor to different neurodegenerative disorders, such as amyotrophic lateral sclerosis that is characterised by selective motor neuron (MN) damage. This notion highlights the need for probes for the specific and precise analysis of local Ca2+ dynamics in MNs. Here, we generated and functionally validated adeno-associated viral vectors for the expression of gene-encoded fluorescent Ca2+ indicators targeted to different cell domains, under the transcriptional control of a MN-specific promoter. We demonstrated that the probes are specifically expressed, and allow reliable local Ca2+ measurements, in MNs from murine primary spinal cord cultures, and can also be expressed in spinal cord MNs in vivo, upon systemic administration to newborn mice. Preliminary analyses using these novel vectors have shown larger cytosolic Ca2+ responses following stimulation of AMPA receptors in the cytosol of primary cultured MNs from a murine genetic model of ALS compared to the healthy counterpart.https://doi.org/10.1038/s41598-017-06919-0
collection DOAJ
language English
format Article
sources DOAJ
author Rosa Pia Norante
Maria Lina Massimino
Paolo Lorenzon
Agnese De Mario
Caterina Peggion
Mattia Vicario
Mattia Albiero
Maria Catia Sorgato
Raffaele Lopreiato
Alessandro Bertoli
spellingShingle Rosa Pia Norante
Maria Lina Massimino
Paolo Lorenzon
Agnese De Mario
Caterina Peggion
Mattia Vicario
Mattia Albiero
Maria Catia Sorgato
Raffaele Lopreiato
Alessandro Bertoli
Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons
Scientific Reports
author_facet Rosa Pia Norante
Maria Lina Massimino
Paolo Lorenzon
Agnese De Mario
Caterina Peggion
Mattia Vicario
Mattia Albiero
Maria Catia Sorgato
Raffaele Lopreiato
Alessandro Bertoli
author_sort Rosa Pia Norante
title Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons
title_short Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons
title_full Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons
title_fullStr Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons
title_full_unstemmed Generation and validation of novel adeno-associated viral vectors for the analysis of Ca2+ homeostasis in motor neurons
title_sort generation and validation of novel adeno-associated viral vectors for the analysis of ca2+ homeostasis in motor neurons
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract A finely tuned Ca2+ homeostasis in restricted cell domains is of fundamental importance for neurons, where transient Ca2+ oscillations direct the proper coordination of electro-chemical signals and overall neuronal metabolism. Once such a precise regulation is unbalanced, however, neuronal functions and viability are severely compromised. Accordingly, disturbed Ca2+ metabolism has often been claimed as a major contributor to different neurodegenerative disorders, such as amyotrophic lateral sclerosis that is characterised by selective motor neuron (MN) damage. This notion highlights the need for probes for the specific and precise analysis of local Ca2+ dynamics in MNs. Here, we generated and functionally validated adeno-associated viral vectors for the expression of gene-encoded fluorescent Ca2+ indicators targeted to different cell domains, under the transcriptional control of a MN-specific promoter. We demonstrated that the probes are specifically expressed, and allow reliable local Ca2+ measurements, in MNs from murine primary spinal cord cultures, and can also be expressed in spinal cord MNs in vivo, upon systemic administration to newborn mice. Preliminary analyses using these novel vectors have shown larger cytosolic Ca2+ responses following stimulation of AMPA receptors in the cytosol of primary cultured MNs from a murine genetic model of ALS compared to the healthy counterpart.
url https://doi.org/10.1038/s41598-017-06919-0
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