The expression of mutant HTT leads to many cellular alterations, including abnormal vesicle recycling, loss of signalling by brain-derived neurotrophic factor, excitotoxicity, perturbation of Ca2+ signalling, decreases in intracellular ATP, alterations of gene transcription, inhibition of protein clearance pathways, mitochondrial and metabolic disturbances, and ultimately cell death. While robust mammalian systems have been developed to model disease and extensive mechanistic insights have emerged, significant differences between rodent and human cells and between non-neuronal cells and neurons limit the utility of these models for accurately representing human disease. Human pluripotent stem cells can generate highly specified cell populations, including DARPP32-positive MSNs of the striatum, and provide a method for modelling HD in human neurons carrying the mutation. As it is caused by one single gene, HD is an ideal disorder for exploring the utility of modelling disease in induced pluripotent stem cells (iPSCs) through reprogramming adult cells from HD patients with known patterns of disease onset and duration.

INDUCED PLURIPOTENT STEM CELLS FOR BASIC AND TRANSLATIONAL RESEARCH ON HD

ONORATI, MARCO;
2012-01-01

Abstract

The expression of mutant HTT leads to many cellular alterations, including abnormal vesicle recycling, loss of signalling by brain-derived neurotrophic factor, excitotoxicity, perturbation of Ca2+ signalling, decreases in intracellular ATP, alterations of gene transcription, inhibition of protein clearance pathways, mitochondrial and metabolic disturbances, and ultimately cell death. While robust mammalian systems have been developed to model disease and extensive mechanistic insights have emerged, significant differences between rodent and human cells and between non-neuronal cells and neurons limit the utility of these models for accurately representing human disease. Human pluripotent stem cells can generate highly specified cell populations, including DARPP32-positive MSNs of the striatum, and provide a method for modelling HD in human neurons carrying the mutation. As it is caused by one single gene, HD is an ideal disorder for exploring the utility of modelling disease in induced pluripotent stem cells (iPSCs) through reprogramming adult cells from HD patients with known patterns of disease onset and duration.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/854020
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