Wnt5a-treated midbrain neural stem cells improve dopamine cell replacement therapy in parkinsonian mice
Clare L. Parish, Gonçalo Castelo-Branco, Nina Rawal, Jan Tonnesen, Andreas Toft Sorensen, Carmen Salto, Merab Kokaia, Olle Lindvall, Ernest Arenas
Clare L. Parish, Gonçalo Castelo-Branco, Nina Rawal, Jan Tonnesen, Andreas Toft Sorensen, Carmen Salto, Merab Kokaia, Olle Lindvall, Ernest Arenas
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Research Article

Wnt5a-treated midbrain neural stem cells improve dopamine cell replacement therapy in parkinsonian mice

Abstract

Dopamine (DA) cell replacement therapy in Parkinson disease (PD) can be achieved using human fetal mesencephalic tissue; however, limited tissue availability has hindered further developments. Embryonic stem cells provide a promising alternative, but poor survival and risk of teratoma formation have prevented their clinical application. We present here a method for generating large numbers of DA neurons based on expanding and differentiating ventral midbrain (VM) neural stem cells/progenitors in the presence of key signals necessary for VM DA neuron development. Mouse VM neurospheres (VMNs) expanded with FGF2, differentiated with sonic hedgehog and FGF8, and transfected with Wnt5a (VMN-Wnt5a) generated 10-fold more DA neurons than did conventional FGF2-treated VMNs. VMN-Wnt5a cells exhibited the transcriptional and biochemical profiles and intrinsic electrophysiological properties of midbrain DA cells. Transplantation of these cells into parkinsonian mice resulted in significant cellular and functional recovery. Importantly, no tumors were detected and only a few transplanted grafts contained sporadic nestin-expressing progenitors. Our findings show that Wnt5a improves the differentiation and functional integration of stem cell–derived DA neurons in vivo and define Wnt5a-treated neural stem cells as an efficient and safe source of DA neurons for cell replacement therapy in PD.

Authors

Clare L. Parish, Gonçalo Castelo-Branco, Nina Rawal, Jan Tonnesen, Andreas Toft Sorensen, Carmen Salto, Merab Kokaia, Olle Lindvall, Ernest Arenas

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Figure 8

VMN-Wnt5a cells show midbrain dopaminergic biochemical properties in vitro and in vivo.

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VMN-Wnt5a cells show midbrain dopaminergic biochemical properties in vit...
(A) In vitro HPLC revealed a significant increase in DA turnover (ratio of DA to HVA) in Wnt5a-transfected cultures. This differentiation was selective for DA neurons, as it had no effect on release or turnover of other neurotransmitters, such as serotonin (not shown). Data are mean ± SD (n = 4 per group). *P < 0.05, 1-way ANOVA with Tukey post-hoc test. (B and C) HPLC revealed significantly increased DA (B) and DOPAC (C) concentration in VMN and VMN-Wnt5a striatal grafts compared with the lesion animals. VMN-Wnt5a grafts showed no significant difference in DA or DOPAC concentration compared with animals with an intact striatum. (D) Animals receiving VMN grafts showed a significant increase in DA turnover (ratio of DOPAC to DA) as a compensatory mechanism for the reduced DA levels, while DA turnover remained unaltered in VMN-Wnt5 grafts. Data are mean ± SEM (n = 6 per group). *P < 0.05; **P < 0.01; ***P < 0.001, ANOVA on Ranks with Dunn’s post-hoc test.