Abstract

BackgroundMissense mutations and multiplications of the α-synuclein gene cause autosomal dominant familial Parkinson's disease (PD). α-Synuclein protein is also a major component of Lewy bodies, the hallmark pathological inclusions of PD. Therefore, α-synuclein plays an important role in the pathogenesis of familial and sporadic PD. To model α-synuclein-linked disease in vivo, transgenic mouse models have been developed that express wild-type or mutant human α-synuclein from a variety of neuronal-selective heterologous promoter elements. These models exhibit a variety of behavioral and neuropathological features resembling some aspects of PD. However, an important deficiency of these models is the observed lack of robust or progressive nigrostriatal dopaminergic neuronal degeneration that is characteristic of PD.ResultsWe have developed conditional α-synuclein transgenic mice that can express A53T, E46K or C-terminally truncated (1–119) human α-synuclein pathological variants from the endogenous murine ROSA26 promoter in a Cre recombinase-dependent manner. Using these mice, we have evaluated the expression of these α-synuclein variants on the integrity and viability of nigral dopaminergic neurons with age. Expression of A53T α-synuclein or truncated αSyn119 selectively in nigrostriatal pathway dopaminergic neurons for up to 12 months fails to precipitate dopaminergic neuronal loss in these mice. However, αSyn119 expression in nigral dopaminergic neurons for up to 12 months causes a marked reduction in the levels of striatal dopamine and its metabolites together with other subtle neurochemical alterations.ConclusionWe have developed and evaluated novel conditional α-synuclein transgenic mice with transgene expression directed selectively to nigrostriatal dopaminergic neurons as a potential new mouse model of PD. Our data support the pathophysiological relevance of C-terminally truncated α-synuclein species in vivo. The expression of αSyn119 in the mouse nigrostriatal dopaminergic pathway may provide a useful model of striatal dopamine depletion and could potentially provide a presymptomatic model of PD perhaps representative of the earliest derangements in dopaminergic neuronal function observed prior to neuronal loss. These conditional α-synuclein transgenic mice provide novel tools for evaluating and dissecting the age-related effects of α-synuclein pathological variants on the function of the nigrostriatal dopaminergic pathway or other specific neuronal populations.

Highlights

  • Missense mutations and multiplications of the α-synuclein gene cause autosomal dominant familial Parkinson's disease (PD). α-Synuclein protein is a major component of Lewy bodies, the hallmark pathological inclusions of PD

  • The expression of αSyn119 in the mouse nigrostriatal dopaminergic pathway may provide a useful model of striatal dopamine depletion and could potentially provide a presymptomatic model of PD perhaps representative of the earliest derangements in dopaminergic neuronal function observed prior to neuronal loss

  • A conditional cassette containing an α-synuclein transgene immediately preceded by a loxP-flanked transcriptional termination sequence, has been targeted to the murine ROSA26 locus through homologous recombination [33,34]

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Summary

Introduction

Missense mutations and multiplications of the α-synuclein gene cause autosomal dominant familial Parkinson's disease (PD). α-Synuclein protein is a major component of Lewy bodies, the hallmark pathological inclusions of PD. Parkinson's disease (PD) is the most common neurodegenerative movement disorder characterized by the cardinal symptoms of muscular rigidity, resting tremor and bradykinesia [1,2] Underlying these motor deficits is the progressive loss of dopaminergic neurons of the substantia nigra pars compacta in addition to several other neuronal populations, the corresponding reduction of striatal dopamine levels, and the appearance of Lewy bodies and Lewy neurites in surviving neurons of the brainstem [1,2,3]. It is not clear how mutations in α-synuclein, or increased levels of the wild-type α-synuclein protein due to gene multiplications, precipitate the demise of nigral dopaminergic neurons in familial PD.

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