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Novel LRR-ROC Motif That Links the N- and C-terminal Domains in LRRK2 Undergoes an Order–Disorder Transition Upon Activation

Jui‐Hung Weng, Chiara R. Trilling, Pallavi Kaila Sharma, Eliza Störmer, Jian Wu, Friedrich W. Herberg, Susan S. Taylor

2023Journal of Molecular Biology23 citationsDOIOpen Access PDF

Abstract

Mutations in LRRK2, a large multi-domain protein kinase, create risk factors for Parkinson's Disease (PD). LRRK2 has seven well-folded domains that include three N-terminal scaffold domains (NtDs) and four C-terminal domains (CtDs). In full-length inactive LRRK2 there is an additional well-folded motif, the LRR-ROC Linker, that lies between the NtDs and the CtDs. This motif, which is stabilized by hydrophobic residues in the LRR and ROC/COR-A domains, is anchored to the C-Lobe of the kinase domain. The LRR-ROC Linker becomes disordered when the NtDs are unleashed from the CtDs following activation by Rab29 or by various PD mutations. A key residue within the LRR-ROC Linker, W1295, sterically blocks access of substrate proteins. The W1295A mutant blocks cis-autophosphorylation of S1292 and reduces phosphorylation of heterologous Rab substrates. GaMD simulations show that the LRR-Linker motif, P + 1 loop and the inhibitory helix in the DYGψ motif are very stable. Finally, in full-length inactive LRRK2 ATP is bound to the kinase domain and GDP:Mg to the GTPase/ROC domain. The fundamentally different mechanisms for binding nucleotide (G-Loop vs P-Loop) are captured by these GaMD simulations. In this model, where ATP binds with low affinity (μM range) to N-Lobe capping residues, the known auto-phosphorylation sites are located in the space that is sampled by the flexible phosphates thus providing a potential mechanism for cis-autophosphorylation.

Topics & Concepts

LRRK2LinkerAutophosphorylationPhosphorylationProtein kinase domainAllosteric regulationStructural motifKinaseBiologyMutantC-terminusChemistryCrystallographyBiochemistryProtein kinase AMutationAmino acidComputer scienceOperating systemGeneEnzymeParkinson's Disease Mechanisms and TreatmentsFungal and yeast genetics researchPlant Gene Expression Analysis
Novel LRR-ROC Motif That Links the N- and C-terminal Domains in LRRK2 Undergoes an Order–Disorder Transition Upon Activation | Litcius