BACKGROUND: Neuronal degeneration, in particular in the striatum, and the formation of nuclear and cytoplasmic inclusions are characteristics of Huntington's disease (HD) as a result of the expansion of a polyglutamine tract located close to the N-terminus of huntingtin (htt). Because of the large (10-kb) size of the htt cDNA, expression of full-length htt in primary neurons has proved difficult in the past. METHODS: We generated a new chronic in vitro model that is based on high-capacity adenovirus vector-mediated transduction of primary murine striatal and cortical neurons. Because the vector has a large capacity for transport of foreign DNA, it was possible to quantitatively express in these primary cells normal and mutant full-length htt (designed as fusion proteins with enhanced green fluorescent protein) in addition to its truncated versions. Pathological changes caused by mutant htt were characterized. RESULTS: The model mimicked several features observed in HD patients: prominent nuclear inclusions in cortical but not in striatal neurons, preferential neuronal degeneration of striatal neurons and neurofilament fragmentation in this cell type. Compared with expressed truncated mutant htt, the expression of full-length mutant htt in neurons resulted in a much slower appearance of pathological changes. Different from cortical neurons, the vast majority of nuclei in striatal cells contained only diffusely distributed N-terminal htt fragments. Cytoplasmic inclusions in both cell types contained full-length mutant htt. CONCLUSIONS: This model and the adenovirus vectors used will be valuable for studying the function of htt and the pathogenesis of HD at molecular and cellular levels in different neuronal cell types.
BACKGROUND:Neuronal degeneration, in particular in the striatum, and the formation of nuclear and cytoplasmic inclusions are characteristics of Huntington's disease (HD) as a result of the expansion of a polyglutamine tract located close to the N-terminus of huntingtin (htt). Because of the large (10-kb) size of the htt cDNA, expression of full-length htt in primary neurons has proved difficult in the past. METHODS: We generated a new chronic in vitro model that is based on high-capacity adenovirus vector-mediated transduction of primary murine striatal and cortical neurons. Because the vector has a large capacity for transport of foreign DNA, it was possible to quantitatively express in these primary cells normal and mutant full-length htt (designed as fusion proteins with enhanced green fluorescent protein) in addition to its truncated versions. Pathological changes caused by mutant htt were characterized. RESULTS: The model mimicked several features observed in HDpatients: prominent nuclear inclusions in cortical but not in striatal neurons, preferential neuronal degeneration of striatal neurons and neurofilament fragmentation in this cell type. Compared with expressed truncated mutant htt, the expression of full-length mutant htt in neurons resulted in a much slower appearance of pathological changes. Different from cortical neurons, the vast majority of nuclei in striatal cells contained only diffusely distributed N-terminal htt fragments. Cytoplasmic inclusions in both cell types contained full-length mutant htt. CONCLUSIONS: This model and the adenovirus vectors used will be valuable for studying the function of htt and the pathogenesis of HD at molecular and cellular levels in different neuronal cell types.
Authors: Manuel Seefelder; Fabrice A C Klein; Bernhard Landwehrmeyer; Rubén Fernández-Busnadiego; Stefan Kochanek Journal: J Huntingtons Dis Date: 2022