|
Numerous lines of evidence indicate an association between sustained inflammation and Parkinson¡¯s disease, but whether increased inflammation is a cause or consequence of Parkinson¡¯s disease remains highly contested. Extensive efforts have been made to characterize microglial function in Parkinson¡¯s disease, but the role of peripheral immune cells is less understood. Natural killer cells are innate effector lymphocytes that primarily target and kill malignant cells. Recent scientific discoveries have unveiled numerous novel functions of natural killer cells, such as resolving inflammation, forming immunological memory, and modulating antigen-presenting cell function. Furthermore, natural killer cells are capable of homing to the central nervous system in neurological disorders that exhibit exacerbated inflammation and inhibit hyperactivated microglia. Recently, a study demonstrated that natural killer cells scavenge alpha-synuclein aggregates, the primary component of Lewy bodies, and systemic depletion of natural killer cells results in exacerbated neuropathology in a mouse model of alpha-synucleinopathy, making them a highly relevant cell type in Parkinson¡¯s disease. However, the exact role of natural killer cells in Parkinson¡¯s disease remains elusive. In this review, we introduce the systemic inflammatory process seen in Parkinson¡¯s disease, with a particular focus on the direct and indirect modulatory capacity of natural killer cells in the context of Parkinson¡¯s disease.
|