Neurotoxic conversion of beta-synuclein: a novel approach to generate a transgenic mouse model of synucleinopathies?

Many groups have generated alpha-synuclein (alpha-syn) transgenic (tg) mice as a rodent model for human synucleinopathies, including Parkinson's disease and dementia with Lewy bodies (DLB). Indeed, some of the lines displayed limited evidence of neurodegeneration, such as alpha-syn deposits, compromised function of dopaminergic neurons, fibrillization of alpha-syn, and astrogliosis. However, none of them fully replicate the pathological features of synucleinopathies. To better understand the pathogenesis of the synucleinopathies and to develop new therapeutic strategies, improvement of the current version of alpha-syn tg mice may be required. We predict that beta-synuclein (beta-syn), the homologue of alpha-syn, might be a key molecule for this purpose. Although beta-syn is a neuroprotective molecule counteracting the alpha-syn pathology in tg mice, it was previously shown that both beta-syn and gamma-synuclein were associated with axonal pathology in the hippocampus of sporadic cases of Parkinson's disease and DLB. Furthermore, two missense mutations (P123H and V70M) of beta-syn were recently identified in DLB. These mutants of beta-syn were prone to aggregate in vitro and overexpression of these mutant beta-syn proteins in neuroblastoma cells resulted in enhanced lysosomal pathology. Taken together, these results suggest that a toxic gain of function of beta-syn might be involved in the pathogenesis of synucleinopathies. In this context, it is of considerable interest to determine if mutant beta-syn-overexpressing tg mice could exhibit neuropathological features distinct from those in conventional alpha-syn tg mice. Furthermore, it is expected that a bigenic mouse model for mutant beta-syn/alpha-syn might be characterized by a more accelerated phenotype of synucleinopathies.