Biophysical analysis reveals autophosphorylation as an important negative regulator of LRRK2 dimerization

Leucine-rich repeat kinase 2 (LRRK2) is a large, multi-domain protein which is associated with Parkinson’s disease. Although high-resolution structures of LRRK2 are available, little is known about the complex dynamics behind the inter-domain regulation of LRRK2 and its perturbation by pathogenic variants. Previous studies have demonstrated that LRRK2 goes through an oligomerization cycle at the membrane, however it remains unclear in which form it exerts its kinase activity. Moreover, the LRRK2 monomer-dimer equilibrium and associated functional implications at a molecular level also need further investigation. In the present work, we used a multi-faceted approach to better understand LRRK2 oligomerization and suggest a functional model of how LRRK2 interacts with its substrates. To this end, we combined nano differential scanning calorimetry and mass photometry with molecular modelling. The thermal analysis resulted in a multistep denaturation profile, elucidating novel insights into the composite structural organization of the multi-domain protein LRRK2. Furthermore, LRRK2 shows a remarkable thermal stability, confirming its oligomeric nature. By using mass photometry, we could observe a monomer-dimer equilibrium which is altered by R1441G, a pathogenic variant within the Roc-COR interface. Most importantly, we could demonstrate that autophosphorylation induces LRRK2 monomerization, indicating a novel intramolecular feedback mechanism. Finally, we investigated the interaction of LRRK2 with its substrate, RAB10 by integrative computational modelling. The resulting models suggest that the monomeric form of LRRK2 is the favored protein conformation for the interaction with its substrate, leading to an increasing interest in the monomer-dimer equilibrium as a possible intervention point for the pathology. ### Competing Interest Statement The authors have declared no competing interest. * AF : AlphaFold Ct : Chlorobium tepidum iPD : idiopathic PD MP : mass photometry nDSC : nano differential scanning calorimetry PD : Parkinson’s disease RCKW : Roc-COR-kinase-WD40 LRRK2 construct SF : tandem Strep/ FLAG tag XL-MS : chemical crosslinking (XL) combined with Mass-spectrometry-based (MS) mapping.