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Literature DB >> 25511182

Pluripotent stem cell-based models of spinal muscular atrophy.

Emanuele Frattini¹, Margherita Ruggieri¹, Sabrina Salani¹, Irene Faravelli¹, Chiara Zanetta¹, Monica Nizzardo¹, Chiara Simone¹, Francesca Magri¹, Stefania Corti².

Abstract

Motor neuron diseases, as the vast majority of neurodegenerative disorders in humans, are incurable conditions that are challenging to study in vitro, owing to the obstacles in obtaining the cell types majorly involved in the pathogenesis. Recent advances in stem cell research, especially in the development of induced pluripotent stem cell (iPSC) technology, have opened up the possibility of generating a substantial amount of disease-specific neuronal cells, including motor neurons and glial cells. The present review analyzes the practical implications of iPSCs, generated from fibroblasts of patients affected by spinal muscular atrophy (SMA), and discusses the challenges in the development and optimization of in vitro disease models. Research on patient-derived disease-specific cells may shed light on the pathological processes behind neuronal dysfunction and death in SMA, thus providing new insights for the development of novel effective therapies.

Entities: Disease Species

Keywords: Cell models; Neuromuscular diseases; Spinal muscular atrophy; iPSCs

Mesh：

Substances：
SMN Complex Proteins

Year: 2014 PMID： 25511182 DOI： 10.1016/j.mcn.2014.12.005

Source DB: PubMed Journal: Mol Cell Neurosci ISSN： 1044-7431 Impact factor: 4.314

Keyword Cloud
Cited

17 in total

Review 1. Induced pluripotent stem cells for modeling neurological disorders.

Authors: Fabiele B Russo; Fernanda R Cugola; Isabella R Fernandes; Graciela C Pignatari; Patricia C B Beltrão-Braga
Journal: World J Transplant Date: 2015-12-24

2. Foxp1-mediated programming of limb-innervating motor neurons from mouse and human embryonic stem cells.

Authors: Katrina L Adams; David L Rousso; Joy A Umbach; Bennett G Novitch
Journal: Nat Commun Date: 2015-04-14 Impact factor: 14.919

3. Spinal muscular atrophy phenotype is ameliorated in human motor neurons by SMN increase via different novel RNA therapeutic approaches.

Authors: Monica Nizzardo; Chiara Simone; Sara Dametti; Sabrina Salani; Gianna Ulzi; Serena Pagliarani; Federica Rizzo; Emanuele Frattini; Franco Pagani; Nereo Bresolin; Giacomo Comi; Stefania Corti
Journal: Sci Rep Date: 2015-06-30 Impact factor: 4.379

Pluripotent stem cell-based models of spinal muscular atrophy.

Review 1. Induced pluripotent stem cells for modeling neurological disorders.

2. Foxp1-mediated programming of limb-innervating motor neurons from mouse and human embryonic stem cells.

3. Spinal muscular atrophy phenotype is ameliorated in human motor neurons by SMN increase via different novel RNA therapeutic approaches.

4. Spinal muscular atrophy patient-derived motor neurons exhibit hyperexcitability.

Review 5. Human iPSC for Therapeutic Approaches to the Nervous System: Present and Future Applications.

Review 6. Advances in Stem Cell Research- A Ray of Hope in Better Diagnosis and Prognosis in Neurodegenerative Diseases.

Review 7. Neuroplasticity and Repair in Rodent Neurotoxic Models of Spinal Motoneuron Disease.

8. SMA Human iPSC-Derived Motor Neurons Show Perturbed Differentiation and Reduced miR-335-5p Expression.

Review 9. Stem Cell Models and Gene Targeting for Human Motor Neuron Diseases.

Review 10. Stem cell transplantation therapy in Parkinson's disease.