Preclinical assessment of mesenchymal-stem-cell-based therapies in spinocerebellar ataxia type 3

The low regeneration potential of the central nervous system (CNS) represents a challenge for the development of new therapeutic strategies for neurodegenerative diseases, including spinocerebellar ataxias. Spinocerebellar ataxia type 3 (SCA3)—or Machado–Joseph disease (MJD)—is the most common domin...

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Published in:	Biomedicines Vol. 9; no. 12; pp. 1 - 19
Main Authors:	Correia, Joana Sofia Silva, Carvalho, Andreia Alexandra Neves, Pinheiro, Bárbara Filipa Mendes, Pires, Joel Pereira, Teixeira, Fábio Gabriel Rodrigues, Lima, Rui Augusto Ribeiro, Monteiro, Susana Isabel Gonçalves, Silva, Nuno André Martins, Cunha, Carina Isabel Soares, Serra, Sofia Cravino, Silva, Sara Carina Duarte, Castro, Andreia Cristiana Teixeira, Salgado, A. J., Maciel, P.
Format:	Journal Article
Language:	English
Published:	Switzerland Multidisciplinary Digital Publishing Institute (MDPI) 24-11-2021 MDPI AG MDPI
Subjects:	Age Ataxia Basal ganglia Central nervous system Cerebellum Clinical trials Disease Human mesenchymal stem cells Immunomodulation Machado-Joseph disease Mesenchymal stem cells Neurodegeneration Neurodegenerative diseases Neuropathology Neuroprotection Pathophysiology Preclinical trial Proteins Regeneration Science & Technology Secretome Spinal cord Spinocerebellar ataxia Spinocerebellar ataxia type 3 Stem cell transplantation Stem cells United States > US neurodegeneration preclinical trial secretome human mesenchymal stem cells spinocerebellar ataxia type 3
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Summary:	The low regeneration potential of the central nervous system (CNS) represents a challenge for the development of new therapeutic strategies for neurodegenerative diseases, including spinocerebellar ataxias. Spinocerebellar ataxia type 3 (SCA3)—or Machado–Joseph disease (MJD)—is the most common dominant ataxia, being mainly characterized by motor deficits; however, SCA3/MJD has a complex and heterogeneous pathophysiology, involving many CNS brain regions, contributing to the lack of effective therapies. Mesenchymal stem cells (MSCs) have been proposed as a potential therapeutic tool for CNS disorders. Beyond their differentiation potential, MSCs secrete a broad range of neuroregulatory factors that can promote relevant neuroprotective and immunomodulatory actions in different pathophysiological contexts. The objective of this work was to study the effects of (1) human MSC transplantation and (2) human MSC secretome (CM) administration on disease progression in vivo, using the CMVMJD135 mouse model of SCA3/MJD. Our results showed that a single CM administration was more beneficial than MSC transplantation—particularly in the cerebellum and basal ganglia—while no motor improvement was observed when these cell-based therapeutic approaches were applied in the spinal cord. However, the effects observed were mild and transient, suggesting that continuous or repeated administration would be needed, which should be further tested. This research was funded by the National Ataxia Foundation (NAF) and by Portuguese national funds, through the Foundation for Science and Technology (FCT)—projects UIDB/50026/2020, UIDP/50026/2020, POCI-01-0145-FEDER-029206, and through the Santa Casa Neuroscience Awards (Santa Casa da Misericórdia Lisboa)—project MC-04/17. Additionally, this project was funded by the ICVS Scientific Microscopy Platform, a member of the national infrastructure PPBI—Portuguese Platform of Bioimaging (PPBI-POCI-01-0145-FEDER-022122). S.C.S. received an individual fellowship within the project TUBITAK/0007/2014. The FCT funded individual fellowships to J.S C., A.N.-C., B.M.- P., F.G.T., R.L., S.M., N.A.S., C.S.-C., and S.D.-S. (SFRH/BD/140624/2018, SFRH/BPD/118779/2016, SFRH/BD/120124/2016, SFRH/BPD/118408/2016, PD/BDE/127836/2016, CEECIND/01902/2017, CEECIND/04794/2017, CEECIND/03887/2017, and CEECIND/00685/2020).
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Equally contributing authors. Co-senior authors.
ISSN:	2227-9059 2227-9059
DOI:	10.3390/biomedicines9121754