Structural insights into TDP-43 in nucleic-acid binding and domain interactions

PH Kuo, LG Doudeva, YT Wang, CKJ Shen… - Nucleic acids …, 2009 - academic.oup.com
PH Kuo, LG Doudeva, YT Wang, CKJ Shen, HS Yuan
Nucleic acids research, 2009academic.oup.com
TDP-43 is a pathogenic protein: its normal function in binding to UG-rich RNA is related to
cystic fibrosis, and inclusion of its C-terminal fragments in brain cells is directly linked to
frontotemporal lobar degeneration (FTLD) and amyotrophic lateral sclerosis (ALS). Here we
report the 1.65 Å crystal structure of the C-terminal RRM2 domain of TDP-43 in complex with
a single-stranded DNA. We show that TDP-43 is a dimeric protein with two RRM domains,
both involved in DNA and RNA binding. The crystal structure reveals the basis of TDP-43's …
Abstract
TDP-43 is a pathogenic protein: its normal function in binding to UG-rich RNA is related to cystic fibrosis, and inclusion of its C-terminal fragments in brain cells is directly linked to frontotemporal lobar degeneration (FTLD) and amyotrophic lateral sclerosis (ALS). Here we report the 1.65 Å crystal structure of the C-terminal RRM2 domain of TDP-43 in complex with a single-stranded DNA. We show that TDP-43 is a dimeric protein with two RRM domains, both involved in DNA and RNA binding. The crystal structure reveals the basis of TDP-43's TG/UG preference in nucleic acids binding. It also reveals that RRM2 domain has an atypical RRM-fold with an additional β-strand involved in making protein–protein interactions. This self association of RRM2 domains produced thermal-stable RRM2 assemblies with a melting point greater than 85°C as monitored by circular dichroism at physiological conditions. These studies thus characterize the recognition between TDP-43 and nucleic acids and the mode of RRM2 self association, and provide molecular models for understanding the role of TDP-43 in cystic fibrosis and the neurodegenerative diseases related to TDP-43 proteinopathy.
Oxford University Press