GBA1 mutations alter neuronal firing and structure, regulating VGLUT2 and CRYAB in dopamine neurons
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Mutations in the GBA1 gene are major risk factors for Parkinson disease (PD), but their role in PD pathology is not fully understood. The impact of GBA1 mutations was investigated in dopamine (DA) neurons obtained from induced pluripotent stem cells (iPSCs) derived from PD patients carrying the N370S or L444P GBA1 mutation. DA neurons co-expressing TH and VGLUT2 were detected in the cultures, and their number and/or expression of VGLUT2/SLC17A6 mRNA was markedly reduced in both N370S and L444P cultures compared to controls. A significant increase in the firing rate of N370S neurons was found, whereas evoked dopamine release was stronger from neurons carrying either mutation. Furthermore, mutant neurons accumulated abundant degenerative structures, and there was a significant accumulation of α-synuclein aggregates in N370S neurons. Notably, a significant upregulation of the chaperone CRYAB/HSPB5/alpha-crystallin-B was found early in DA neuron differentiation and in the substantia nigra of PD patients. Our findings indicate that N370S and L444P GBA1 mutations impair midbrain DA neurons expressing VGLUT2, and provoke molecular, functional and structural changes, possibly involved in PD pathology.
