Molecular basis of UG-rich RNA recognition by the human splicing factor TDP-43

Lukavsky, Peter J.; Daujotytė, Dalia; Tollervey, James; Ule, Jernej; Stuani, Cristiana; Buratti, Emanuele; Baralle, Francisco E.; Damberger, Fred F.; Allain, Frédéric H.‐T.

doi:10.1038/nsmb.2698

Cited by 320 publications

(532 citation statements)

References 49 publications

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“…These results suggest that RRM1 and RRM2 interact in the absence of RNA, with interdomain interactions stabilizing the native state of each RRM domain by 0.9 kcal mol Ϫ1 (Table 1). Indeed, a recent NMR study on the tethered RRM domain revealed that in the absence of RNA, the two RRMs do not tumble independently of one another (43), further supporting mutual stabilizing interactions between the domains. The Trp FL also suggests that RRM1 is completely unfolded at the first intermediate, I1, of the CD equilibrium unfolding profile.…”

Section: Table 1 Thermodynamic Parameters Of the Isolated And Tetherementioning

confidence: 99%

“…Note that the solution structure of RRMc is unknown and predicted to be much different from that mapped on RRM2 (Protein Data Bank entry 1wf0) due to removal of secondary structural elements in the protein core. E, NMR structure of the tethered RRMs with RNA (Protein Data Bank entry 4bs2) with RNA shown in gray (43). The secondary structure elements are colored as shown in C and D. The RNA-binding residues and intrinsic fluorophores are shown as sticks.…”

Section: Rrm Domains Are Monomeric and Wellmentioning

confidence: 99%

“…In these scenarios, the formation and accumulation of TDP-43 aggregates generate toxicity or impair normal TDP-43 cellular function, resulting in cell death. Mounting evidence supports a loss-of-function phenotype (11), where sequestration of functional protein into cytoplasmic aggregates would limit the pool of available functional nuclear TDP- 43.…”

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confidence: 99%

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Folding of the RNA Recognition Motif (RRM) Domains of the Amyotrophic Lateral Sclerosis (ALS)-linked Protein TDP-43 Reveals an Intermediate State

Mackness

Tran

McClain

et al. 2014

Journal of Biological Chemistry

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Section: Table 1 Thermodynamic Parameters Of the Isolated And Tetherementioning

confidence: 99%

Section: Rrm Domains Are Monomeric and Wellmentioning

confidence: 99%

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Folding of the RNA Recognition Motif (RRM) Domains of the Amyotrophic Lateral Sclerosis (ALS)-linked Protein TDP-43 Reveals an Intermediate State

Mackness

Tran

McClain

et al. 2014

Journal of Biological Chemistry

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“…1A). The NLS and NES regulate the shuttling of TDP-43 between the nucleus and the cytoplasm (5), whereas the RRM1 and RRM2 are responsible for binding to nucleic acids including single-or double-stranded DNA/RNA (5)(6)(7)(8). The prion-like domain mediates protein-protein interactions between TDP-43 and other hnRNP members (9), which also hosts most known ALS-associated TDP-43 mutations.…”

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confidence: 99%

TDP-43 N terminus encodes a novel ubiquitin-like fold and its unfolded form in equilibrium that can be shifted by binding to ssDNA

Qin¹,

Lim²,

Wei

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

129

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Transactivation response element (TAR) DNA-binding protein 43 (TDP-43) is the principal component of ubiquitinated inclusions characteristic of most forms of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia-frontotemporal lobar degeneration with TDP-43-positive inclusions (FTLD-TDP), as well as an increasing spectrum of other neurodegenerative diseases. Previous structural and functional studies on TDP-43 have been mostly focused on its recognized domains. Very recently, however, its extreme N terminus was identified to be a double-edged sword indispensable for both physiology and proteinopathy, but thus far its structure remains unknown due to the severe aggregation. Here as facilitated by our previous discovery that protein aggregation can be significantly minimized by reducing salt concentrations, by circular dichroism and NMR spectroscopy we revealed that the TDP-43 N terminus encodes a well-folded structure in concentration-dependent equilibrium with its unfolded form. Despite previous failure in detecting any sequence homology to ubiquitin, the folded state was determined to adopt a novel ubiquitin-like fold by the CS-Rosetta program with NMR chemical shifts and 78 unambiguous longrange nuclear Overhauser effect (NOE) constraints. Remarkably, this ubiquitin-like fold could bind ssDNA, and the binding shifted the conformational equilibrium toward reducing the unfolded population. To the best of our knowledge, the TDP-43 N terminus represents the first ubiquitin-like fold capable of directly binding nucleic acid. Our results provide a molecular mechanism rationalizing the functional dichotomy of TDP-43 and might also shed light on the formation and dynamics of cellular ribonucleoprotein granules, which have been recently linked to ALS pathogenesis. As a consequence, one therapeutic strategy for TDP-43-causing diseases might be to stabilize its ubiquitin-like fold by ssDNA or designed molecules. 1, 2). Since then, numerous studies have confirmed that TDP43 protein is mechanistically linked to neurodegeneration (3, 4). TDP43 is a 414-residue protein that has been previously recognized to be composed of a nuclear localization signal (NLS), two RNA recognition motifs (RRM1 and RRM2) hosting a nuclear export signal (NES), and C-terminal glycine-rich prion-like domain (Fig. 1A). The NLS and NES regulate the shuttling of TDP-43 between the nucleus and the cytoplasm (5), whereas the RRM1 and RRM2 are responsible for binding to nucleic acids including single-or double-stranded DNA/RNA (5-8). The prion-like domain mediates protein-protein interactions between TDP-43 and other hnRNP members (9), which also hosts most known ALS-associated TDP-43 mutations.TDP43 is an aggregation-prone protein (1-4, 10-14), and its abnormal aggregation has been found in ∼97% ALS and ∼45% frontotemporal dementia (FTD) patients. Additionally, TDP-43 immunoreactive inclusions have also been observed in an increasing spectrum of other neurodegenerative disorders, which include ALS/parkinsonism-dementia complex of Guam, Alzhei...

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“…Limited similarity to the preceding guanine lies only in a common syn-conformation with 3 0 endo sugar pucker. Finally, in the complex of tandem RRM domains of TDP-43 in complex with GUGUGAAUGAAU (PDB 4BS2) 18 , the nucleotide conformation of the bound G3-U4-G5 is again similar to that of G4, G5 and G6 in complex with SUP-12, but with dissimilar types of protein contact. Interestingly, a guanine is recognized by both RRM domains reminiscent of the interface between ASD-1 and SUP-12 in the ternary complex.…”

Section: Discussionmentioning

confidence: 99%

Backbone-independent nucleic acid binding by splicing factor SUP-12 reveals key aspects of molecular recognition

et al. 2014

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Cellular differentiation is frequently accompanied by alternative splicing, enabled by the expression of tissue-specific factors which bind to pre-mRNAs and regulate exon choice. During Caenorhabditis elegans development, muscle-specific expression of the splicing factor SUP-12, together with a member of the Fox-1 family of splicing proteins, generates a functionally distinct isoform of the fibroblast growth factor receptor EGL-15. Using a combination of NMR spectroscopy and isothermal titration calorimetry, we determined the mode of nucleic acid binding by the RNA recognition motif domain of SUP-12. The calculated structures provide the first atomic details of RNA and DNA binding by the family of proteins that include SUP-12, RBM24, RBM38/RNPC1, SEB-4 and XSeb4R. This information was further used to design strategic mutations to probe the interaction with ASD-1 and to quantitatively perturb splicing in vivo.

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Molecular basis of UG-rich RNA recognition by the human splicing factor TDP-43

Cited by 320 publications

References 49 publications

Folding of the RNA Recognition Motif (RRM) Domains of the Amyotrophic Lateral Sclerosis (ALS)-linked Protein TDP-43 Reveals an Intermediate State

Folding of the RNA Recognition Motif (RRM) Domains of the Amyotrophic Lateral Sclerosis (ALS)-linked Protein TDP-43 Reveals an Intermediate State

TDP-43 N terminus encodes a novel ubiquitin-like fold and its unfolded form in equilibrium that can be shifted by binding to ssDNA

Backbone-independent nucleic acid binding by splicing factor SUP-12 reveals key aspects of molecular recognition

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