Behavioral Phenotyping in a Murine Model of GBA1-Associated Parkinson Disease

Mutations in GBA1, the gene encoding glucocerebrosidase, are common genetic risk factors for Parkinson disease (PD). While the mechanism underlying this relationship is unclear, patients with GBA1-associated PD often have an earlier onset and faster progression than idiopathic PD. Previously, we modeled GBA1-associated PD by crossing gba haploinsufficient mice with mice overexpressing a human mutant α-synuclein transgene (SNCA(A53T)), observing an earlier demise, shorter life span and faster symptom progression, although behavioral testing was not performed. To assess whether gba(+)(/−)//SNCA(A53T) mice exhibit a prodromal behavioral phenotype, we studied three cardinal PD features: olfactory discrimination, memory dysfunction, and motor function. The longitudinal performance of gba(+)(/−)//SNCA(A53T) (n = 8), SNCA(A53T) (n = 9), gba(+)(/−) (n = 10) and wildtype (n = 6) mice was evaluated between ages 8 and 23 months using the buried pellet test, novel object recognition test and the beam walk. Fifteen-month-old gba(+)(/−)//SNCA(A53T) mice showed more olfactory and motor deficits than wildtype mice. However, differences between gba(+)(/−)//SNCA(A53T) and SNCA(A53T) mice generally did not reach statistical significance, possibly due to small sample sizes. Furthermore, while gba haploinsufficiency leads to a more rapid demise, this might not result in an earlier prodromal stage, and other factors, including aging, oxidative stress and epigenetics, may contribute to the more fulminant disease course.