jMutations in the leucine-rich repeat kinase 2 gene (LRRK2) are associated with familial and sporadic Parkinson's disease (PD). LRRK2 is a complex protein that consists of multiple domains, including predicted C-terminal WD40 repeats. In this study, we analyzed functional and molecular features conferred by the WD40 domain. Electron microscopic analysis of the purified LRRK2 C-terminal domain revealed doughnut-shaped particles, providing experimental evidence for its WD40 fold. We demonstrate that LRRK2 WD40 binds and sequesters synaptic vesicles via interaction with vesicle-associated proteins. In fact, a domain-based pulldown approach combined with mass spectrometric analysis identified LRRK2 as being part of a highly specific protein network involved in synaptic vesicle trafficking. In addition, we found that a C-terminal sequence variant associated with an increased risk of developing PD, G2385R, correlates with a reduced binding affinity of LRRK2 WD40 to synaptic vesicles. Our data demonstrate a critical role of the WD40 domain within LRRK2 function.
Parkinson's disease (PD) is the second most common age-related neurodegenerative disease and is clinically characterized by movement impairments, bradykinesia, rigidity, and resting tremor and pathologically by the progressive loss of dopaminergic neurons in the substantia nigra and the formation of Lewy bodies (1, 2). Although the majority of cases are sporadic, mutations in the leucine-rich repeat kinase 2 (LRRK2) gene (PARK8; Online Mendelian Inheritance in Man [OMIM] accession number 609007) had been unequivocally linked to late-onset autosomal dominant PD. LRRK2 mutations account for up to 13% of familial PD cases compatible with dominant inheritance and are also found in 1 to 2% of sporadic PD patients (62-64). LRRK2 is a complex 286-kDa protein that consists of multiple domains, including (in order, from the amino to carboxyl terminus) armadillo, ankyrin, and the namesake leucine-rich repeats (LRRs), followed by an ROC (Ras of complex proteins) GTPase domain, a COR (C-terminal of ROC) dimerization domain, a kinase domain, and a predicted C-terminal WD40 repeat domain (4-6). Several single-nucleotide alterations have been identified in LRRK2, but only five missense mutations within the ROC, COR, and kinase domains clearly segregate with PD in large family studies (7,8). It has recently been shown that the WD40 domain is required to stabilize the LRRK2 dimer and to execute LRRK2-associated kinase activity as well as neurotoxicity (9, 10), but the role of this domain within LRRK2 physiological and pathological function has not yet been completely defined. The beta-propellerforming WD40 domains are among the 10 most abundant domain types across eukaryotic proteomes (11) and constitute platforms where multiprotein complexes assemble reversibly (12). Here, we systematically analyzed the protein-protein interactions conferred by the LRRK2 WD40 domain. The nature of the LRRK2 WD40 interactors and the finding that the LRRK2 WD40 domain is able to bind to synaptic...
