TY - JOUR
T1 - Parkinson Disease-Associated Mutation R1441H in LRRK2 Prolongs the “Active State” of its GTPase Domain
AU - Liao, Jingling
AU - Wu, Chun-Xiang
AU - Burlak, Christopher
AU - Zhang, Sheng
AU - Liu, Dali
N1 - Jingling Liao, Chun-Xiang Wu, Christopher Burlak, Sheng Zhang, Heather Sahm, Mu Wang, Zhong-Yin Zhang, Kurt W. Vogel, Mark Federici, Steve M. Riddle, R. Jeremy Nichols, Dali Liu, Mark R. Cookson, Todd A. Stone, and Quyen Q. Hoang. Parkinson disease-associated mutation R1441H in LRRK2 prolongs the “active state” of its GTPase domain. Proceedings of the National Academy of Sciences of the United States of America, Vol. 111, No. 11 (2014).
PY - 2014/3/3
Y1 - 2014/3/3
N2 - Mutation in leucine-rich-repeat kinase 2 (LRRK2) is a common cause of Parkinson disease (PD). A disease-causing point mutation R1441H/G/C in the GTPase domain of LRRK2 leads to overactivation of its kinase domain. However, the mechanism by which this mutation alters the normal function of its GTPase domain [Ras of complex proteins (Roc)] remains unclear. Here, we report the effects of R1441H mutation (Roc R1441H ) on the structure and activity of Roc. We show that Roc forms a stable monomeric conformation in solution that is catalytically active, thus demonstrating that LRRK2 is a bona fide self-contained GTPase. We further show that the R1441H mutation causes a twofold reduction in GTPase activity without affecting the structure, thermal stability, and GDP-binding affinity of Roc. However, the mutation causes a twofold increase in GTP-binding affinity of Roc, thus suggesting that the PD-causing mutation R1441H traps Roc in a more persistently activated state by increasing its affinity for GTP and, at the same time, compromising its GTP hydrolysis.
AB - Mutation in leucine-rich-repeat kinase 2 (LRRK2) is a common cause of Parkinson disease (PD). A disease-causing point mutation R1441H/G/C in the GTPase domain of LRRK2 leads to overactivation of its kinase domain. However, the mechanism by which this mutation alters the normal function of its GTPase domain [Ras of complex proteins (Roc)] remains unclear. Here, we report the effects of R1441H mutation (Roc R1441H ) on the structure and activity of Roc. We show that Roc forms a stable monomeric conformation in solution that is catalytically active, thus demonstrating that LRRK2 is a bona fide self-contained GTPase. We further show that the R1441H mutation causes a twofold reduction in GTPase activity without affecting the structure, thermal stability, and GDP-binding affinity of Roc. However, the mutation causes a twofold increase in GTP-binding affinity of Roc, thus suggesting that the PD-causing mutation R1441H traps Roc in a more persistently activated state by increasing its affinity for GTP and, at the same time, compromising its GTP hydrolysis.
KW - parkinson disease
KW - mutation
UR - https://ecommons.luc.edu/chemistry_facpubs/48
U2 - 10.1073/pnas.1323285111
DO - 10.1073/pnas.1323285111
M3 - Article
VL - 111
JO - Chemistry: Faculty Publications and Other Works
JF - Chemistry: Faculty Publications and Other Works
IS - 11
ER -