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1.
J Phys Chem Lett ; 15(20): 5366-5375, 2024 May 23.
Artículo en Inglés | MEDLINE | ID: mdl-38735065

RESUMEN

Dynamic nuclear polarization (DNP) utilizing narrow-line electron spin clusters (ESCs) to achieve nuclear spin resonance matching (ESC-DNP) by microwave irradiation is a promising way to achieve NMR signal enhancements with a wide design scope requiring low microwave power at high magnetic field. Here we present the design for a trityl-based tetra-radical (TetraTrityl) to achieve DNP for 1H NMR at 7 T, supported by experimental data and quantum mechanical simulations. A slow-relaxing (T1e ≈ 1 ms) 4-ESC is found to require at least two electron spin pairs at <8 Å e-e spin distance to yield 1H ESC-DNP enhancement, while squeezing the rest of the e-e spin distances to <12 Å results in optimal 1H ESC-DNP enhancements. Fast-relaxing ESCs (T1e ≈ 10 µs) are found to require a weakly coupled narrow-line radical (sensitizer) to extract polarization from the ESC. These results provide design principles for achieving a power-efficient DNP at high field via ESC-DNP.

2.
bioRxiv ; 2023 Jul 21.
Artículo en Inglés | MEDLINE | ID: mdl-37502998

RESUMEN

The recent discovery by cryo-electron microscopy that the neuropatho-logical hallmarks of different tauopathies, including Alzheimer's disease, corticobasal degeneration (CBD), and progressive supranuclear palsy (PSP), are caused by unique misfolded conformations of the protein tau is among the most profound developments in neurodegenerative disease research. To capitalize on these discoveries for therapeutic development, one must achieve in vitro replication of tau fibrils that adopt the rep-resentative tauopathy disease folds - a grand challenge. To understand whether the commonly used, but imperfect, fragment of the tau pro-tein, K18, is capable of inducing specific protein folds, fibril seeds derived from CBD- and PSP-infected biosensor cells expressing K18, were used to achieve cell-free assembly of naïve, recombinant 4R tau into fibrils without the addition of any cofactors. Using Double Electron Electron Resonance (DEER) spectroscopy, we discovered that cell-passaged patho-logical seeds generate heterogeneous fibrils that are distinct between the CBD and PSP lysate-seeded fibrils, and are also unique from heparin-induced tau fibril populations. Moreover, the lysate-seeded fibrils contain a characteristic sub-population that resembles either the CBD or PSP disease fold, corresponding with the respective starting patient sam-ple. These findings indicate that CBD and PSP patient-derived fibrils retain strain properties after passaging through K18 reporter cells.

3.
bioRxiv ; 2023 Nov 28.
Artículo en Inglés | MEDLINE | ID: mdl-38077065

RESUMEN

Tau forms toxic fibrillar aggregates in a family of neurodegenerative diseases known as tauopathies. The faithful replication of tauopathy-specific fibril structures is a critical gap for developing diagnostic and therapeutic tools. This study debuts a strategy of identifying a critical segment of tau that forms a folding motif that is characteristic of a family of tauopathies and isolating it as a standalone peptide that form seeding-competent fibrils. The 19-residue jR2R3 peptide (295-313) spanning the R2/R3 splice junction of tau, in the presence of P301L, forms seeding-competent amyloid fibrils. This tau fragment contains the hydrophobic VQIVYK hexapeptide that is part of the core of every pathological tau fibril structure solved to-date and an intramolecular counter-strand that stabilizes the strand-loop-strand (SLS) motif observed in 4R tauopathy fibrils. This study shows that P301L exhibits a duality of effects: it lowers the barrier for the peptide to adopt aggregation-prone conformations and enhances the local structuring of water around the mutation site that facilitates site-specific dewetting and in-register stacking of tau to form cross ß-sheets. We solve a 3 Å cryo-EM structure of jR2R3-P301L fibrils with a pseudo 2 1 screw symmetry in which each half of the fibril's cross-section contains two jR2R3-P301L peptides. One chain adopts a SLS fold found in 4R tauopathies that is stabilized by a second chain wrapping around the SLS fold, reminiscent of the 3-fold and 4-fold structures observed in 4R tauopathies. These jR2R3-P301L fibrils are able to template full length tau in a prion-like fashion. Significance Statement: This study presents a first step towards designing a tauopathy specific aggregation pathway by engineering a minimal tau prion building block, jR2R3, that can template and propagate distinct disease folds. We present the discovery that P301L-among the widest used mutations in cell and animal models of Alzheimer's Disease-destabilizes an aggregation-prohibiting internal hairpin and enhances the local surface water structure that serves as an entropic hotspot to exert a hyper-localized effect in jR2R3. Our study suggests that P301L may be a more suitable mutation to include in modeling 4R tauopathies than for modelling Alzheimer's Disease, and that mutations are powerful tools for the purpose of designing of tau prion models as therapeutic tools.

4.
J Phys Chem B ; 126(34): 6384-6395, 2022 09 01.
Artículo en Inglés | MEDLINE | ID: mdl-35994024

RESUMEN

The aggregation of the tau protein is central to several neurodegenerative diseases, collectively known as tauopathies. High-resolution views of tau tangles accumulated under pathological conditions in post-mortem brains have been revealed recently by cryogenic electron microscopy. One of the striking discoveries was that fibril folds are unique to and homogeneous within one disease family, but typically different between different tauopathies. It is widely believed that seeded aggregation can achieve structural propagation of tau fibrils and generate pathological fibril structures. However, direct molecular level measurement of structural evolution during aggregation is missing. Here, we discuss our perspective on the biophysical approaches that can contribute to the ongoing debate regarding the prion-like propagation of tau and the role of cofactors. We discuss the unique potential of double electron-electron resonance (DEER)-based intramolecular distance measurement, sensitive to two to several nanometers distances. DEER can track the structural evolution of tau along the course of aggregation from the completely disordered state, to partially ordered and highly ordered fibril states, and has the potential to be a key tool to elucidate the disease-specific tau aggregation pathways.


Asunto(s)
Enfermedad de Alzheimer , Priones , Tauopatías , Enfermedad de Alzheimer/metabolismo , Encéfalo , Espectroscopía de Resonancia por Spin del Electrón , Humanos , Tauopatías/metabolismo , Tauopatías/patología , Proteínas tau/química
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