Glial cell line‐derived neurotrophic factor–secreting genetically modified human bone marrow‐derived mesenchymal stem cells promote recovery in a rat model of Parkinson's disease
Identifieur interne : 000533 ( Istex/Curation ); précédent : 000532; suivant : 000534Glial cell line‐derived neurotrophic factor–secreting genetically modified human bone marrow‐derived mesenchymal stem cells promote recovery in a rat model of Parkinson's disease
Auteurs : Aleksandra Glavaski [États-Unis] ; Tamas Virag [États-Unis] ; Thomas Mangatu [États-Unis] ; Michael Mcgrogan [États-Unis] ; Xue Wang [États-Unis] ; Martha Bohn [États-Unis]Source :
- Journal of Neuroscience Research [ 0360-4012 ] ; 2010-09.
English descriptors
Abstract
Parkinson's disease (PD) is a neurodegenerative disease characterized by progressive degeneration of nigrostriatal dopaminergic (DA) neurons. The therapeutic potential of glial cell line‐derived neurotrophic factor (GDNF), the most potent neurotrophic factor for DA neurons, has been demonstrated in many experimental models of PD. However, chronic delivery of GDNF to DA neurons in the brain remains an unmet challenge. Here, we report the effects of GDNF‐releasing Notch‐induced human bone marrow‐derived mesenchymal stem cells (MSC) grafted into striatum of the 6‐hydroxydopamine (6‐OHDA) progressively lesioned rat model of PD. Human MSC, obtained from bone marrow aspirates of young, healthy adult volunteers, were transiently transfected with the intracellular domain of the Notch1 gene (NICD) to generate SB623 cells. SB623 cells expressing GDNF and/or humanized Renilla green fluorescent protein (hrGFP) following lentiviral transduction or nontransduced cells were stereotaxically placed into rat striatum 1 week after a unilateral partial 6‐OHDA striatal lesion. At 4 weeks, rats that had received GDNF‐transduced SB623 cells had significantly decreased amphetamine‐induced rotation compared with control rats, although this effect was not observed in rats that received GFP‐transduced or nontransduced SB623 cells. At 5 weeks, rejuvenated tyrosine hydroxylase‐immunoreactive (TH‐IR) fibers that appeared to be host DA axons were observed in and around grafts. This effect was more prominent in rats that received GDNF‐secreting cells and was not observed in controls. These observations suggest that human bone‐marrow derived MSC, genetically modified to secrete GDNF, hold potential as an allogeneic or autologous stem cell therapy for PD. © 2010 Wiley‐Liss, Inc.
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DOI: 10.1002/jnr.22435
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<front><div type="abstract" xml:lang="en">Parkinson's disease (PD) is a neurodegenerative disease characterized by progressive degeneration of nigrostriatal dopaminergic (DA) neurons. The therapeutic potential of glial cell line‐derived neurotrophic factor (GDNF), the most potent neurotrophic factor for DA neurons, has been demonstrated in many experimental models of PD. However, chronic delivery of GDNF to DA neurons in the brain remains an unmet challenge. Here, we report the effects of GDNF‐releasing Notch‐induced human bone marrow‐derived mesenchymal stem cells (MSC) grafted into striatum of the 6‐hydroxydopamine (6‐OHDA) progressively lesioned rat model of PD. Human MSC, obtained from bone marrow aspirates of young, healthy adult volunteers, were transiently transfected with the intracellular domain of the Notch1 gene (NICD) to generate SB623 cells. SB623 cells expressing GDNF and/or humanized Renilla green fluorescent protein (hrGFP) following lentiviral transduction or nontransduced cells were stereotaxically placed into rat striatum 1 week after a unilateral partial 6‐OHDA striatal lesion. At 4 weeks, rats that had received GDNF‐transduced SB623 cells had significantly decreased amphetamine‐induced rotation compared with control rats, although this effect was not observed in rats that received GFP‐transduced or nontransduced SB623 cells. At 5 weeks, rejuvenated tyrosine hydroxylase‐immunoreactive (TH‐IR) fibers that appeared to be host DA axons were observed in and around grafts. This effect was more prominent in rats that received GDNF‐secreting cells and was not observed in controls. These observations suggest that human bone‐marrow derived MSC, genetically modified to secrete GDNF, hold potential as an allogeneic or autologous stem cell therapy for PD. © 2010 Wiley‐Liss, Inc.</div>
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