Oligodendroglia vulnerability in the human dorsal striatum in Parkinson’s disease

Oligodendroglia are the responsible cells for myelination in the central nervous system and their involvement in Parkinson’s disease (PD) is poorly understood. We performed snRNA-seq and image-based spatial transcriptomics of human caudate nucleus and putamen (dorsal striatum) from PD and Control brain donors to elucidate the diversity of oligodendroglia and how they are affected by the disease. We have defined fifteen subclasses, from precursor to mature cells, four of which are disease-associated. These PD-specific populations are characterized by the overexpression of heat shock proteins and distinct expression signatures, including immune responses and myelination alterations. We have also identified disruptions in cell communication and oligodendrocyte development, evidenced by changes in neurotransmitter receptors expression and cell adhesion molecules. These transcriptomic changes correlated with impaired myelin integrity and altered oligodendrocyte distribution in the striatum. Thus, we uncover oligodendroglia as a critical cell type in PD and a potential new therapeutic target.