Erin L. Sternburg scite author profile

Post-translational modifications (PTMs) have emerged as key modulators of protein phase separation and have been linked to protein aggregation in neurodegenerative disorders. The major aggregating protein in amyotrophic lateral sclerosis and frontotemporal dementia, the RNA-binding protein TAR DNA-binding protein (TDP-43), is hyperphosphorylated in disease on several Cterminal serine residues, a process generally believed to promote TDP-43 aggregation. Here, we however find that Casein kinase 1δmediated TDP-43 hyperphosphorylation or C-terminal phosphomimetic mutations reduce TDP-43 phase separation and aggregation, and instead render TDP-43 condensates more liquid-like and dynamic. Multi-scale molecular dynamics simulations reveal reduced homotypic interactions of TDP-43 low-complexity domains through enhanced solvation of phosphomimetic residues. Cellular experiments show that phosphomimetic substitutions do not affect nuclear import or RNA regulatory functions of TDP-43, but suppress accumulation of TDP-43 in membrane-less organelles and promote its solubility in neurons. We speculate that TDP-43 hyperphosphorylation may be a protective cellular response to counteract TDP-43 aggregation.

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Post-translational modifications on RNA-binding proteins: accelerators, brakes, or passengers in neurodegeneration?

Sternburg

Silva

Dormann

2022

Trends in Biochemical Sciences

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Antagonistic and cooperative AGO2-PUM interactions in regulating mRNAs

Sternburg

Estep

Nguyen

et al. 2018

Sci Rep

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Approximately 1500 RNA-binding proteins (RBPs) profoundly impact mammalian cellular function by controlling distinct sets of transcripts, often using sequence-specific binding to 3′ untranslated regions (UTRs) to regulate mRNA stability and translation. Aside from their individual effects, higher-order combinatorial interactions between RBPs on specific mRNAs have been proposed to underpin the regulatory network. To assess the extent of such co-regulatory control, we took a global experimental approach followed by targeted validation to examine interactions between two well-characterized and highly conserved RBPs, Argonaute2 (AGO2) and Pumilio (PUM1 and PUM2). Transcriptome-wide changes in AGO2-mRNA binding upon PUM knockdown were quantified by CLIP-seq, and the presence of PUM binding on the same 3′UTR corresponded with cooperative and antagonistic effects on AGO2 occupancy. In addition, PUM binding sites that overlap with AGO2 showed differential, weakened binding profiles upon abrogation of AGO2 association, indicative of cooperative interactions. In luciferase reporter validation of candidate 3′UTR sites where AGO2 and PUM colocalized, three sites were identified to host antagonistic interactions, where PUM counteracts miRNA-guided repression. Interestingly, the binding sites for the two proteins are too far for potential antagonism due to steric hindrance, suggesting an alternate mechanism. Our data experimentally confirms the combinatorial regulatory model and indicates that the mostly repressive PUM proteins can change their behavior in a context-dependent manner. Overall, the approach underscores the importance of further elucidation of complex interactions between RBPs and their transcriptome-wide extent.

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The RNA-binding protein FUS is chaperoned and imported into the nucleus by a network of import receptors

Baade

Hutten²,

Sternburg³

et al. 2021

Journal of Biological Chemistry

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Global Approaches in Studying RNA-Binding Protein Interaction Networks

Sternburg

Karginov

2020

Trends in Biochemical Sciences

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Erin L. Sternburg

Disease‐linked TDP‐43 hyperphosphorylation suppresses TDP‐43 condensation and aggregation

Post-translational modifications on RNA-binding proteins: accelerators, brakes, or passengers in neurodegeneration?

Antagonistic and cooperative AGO2-PUM interactions in regulating mRNAs

The RNA-binding protein FUS is chaperoned and imported into the nucleus by a network of import receptors

Global Approaches in Studying RNA-Binding Protein Interaction Networks

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