Institution
Randall Division of Cell and Molecular Biophysics
About: Randall Division of Cell and Molecular Biophysics is a based out in . It is known for research contribution in the topics: Actin cytoskeleton & Skeletal muscle. The organization has 576 authors who have published 1229 publications receiving 78279 citations.
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TL;DR: Recent advances in UPS-based drug discovery highlighting the emerging relationships between the UPS and disease are reviewed and how the knowledge of protein structural details can guide the design of specifically targeted inhibitors is explained.
Abstract: The ubiquitin-proteosome system (UPS) regulates a wide range of cellular processes including protein degradation, DNA repair, transcription regulation, and cell signaling. Alterations and mutations in UPS components give rise to various human diseases, most prominently cancer and neurodegenerative disorders. Here, we review recent advances in UPS-based drug discovery highlighting the emerging relationships between the UPS and disease and discuss potential future therapeutic interventions. In particular, we focus on recent structural approaches in UPS and explain how the knowledge of protein structural details can guide the design of specifically targeted inhibitors.
18 citations
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TL;DR: The data indicate that the cytoskeletal response to Rnd3 expression is dependent on cell type and context, and identify regulation of RhoB as a new mechanism for Rnd proteins to affect the actin cytoskeleton.
Abstract: Rnd proteins are atypical Rho family proteins that do not hydrolyse GTP and are instead regulated by expression levels and post-translational modifications. Rnd1 and Rnd3/RhoE induce loss of actin stress fibres and cell rounding in multiple cell types, whereas responses to Rnd2 are more variable. Here we report the responses of endothelial cells to Rnd proteins. Rnd3 induces a very transient decrease in stress fibres but subsequently stimulates a strong increase in stress fibres, in contrast to the reduction observed in other cell types. Rnd2 also increases stress fibres whereas Rnd1 induces a loss of stress fibres and weakening of cell–cell junctions. Rnd3 does not act through any of its known signalling partners and does not need to associate with membranes to increase stress fibres. Instead, it acts by increasing RhoB expression, which is then required for Rnd3-induced stress fibre assembly. Rnd2 also increases RhoB levels. These data indicate that the cytoskeletal response to Rnd3 expression is dependent on cell type and context, and identify regulation of RhoB as a new mechanism for Rnd proteins to affect the actin cytoskeleton.
18 citations
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TL;DR: These studies showed that the alterations in RD hydrophobic interactions induced by missense mutations could affect the functionality of the whole enzyme, and strongly suggest a relationship between the Phe-binding function and the overall dynamic behaviour of the enzyme.
Abstract: Phenylalanine hydroxylase (PAH) catalyzes the conversion of L-Phe to L-Tyr. Defects in PAH activity, caused by mutations in the human gene, result in the autosomal recessively inherited disease hyperphenylalaninemia. PAH activity is regulated by multiple factors, including phosphorylation and ligand binding. In particular, PAH displays positive cooperativity for L-Phe, which is proposed to bind the enzyme on an allosteric site in the N-terminal regulatory domain (RD), also classified as an ACT domain. This domain is found in several proteins and is able to bind amino acids. We used molecular dynamics simulations to obtain dynamical and structural insights into the isolated RD of PAH. Here we show that the principal motions involve conformational changes leading from an initial open to a final closed domain structure. The global intrinsic motions of the RD are correlated with exposure to solvent of a hydrophobic surface, which corresponds to the ligand binding-site of the ACT domain. Our results strongly suggest a relationship between the Phe-binding function and the overall dynamic behaviour of the enzyme. This relationship may be affected by structure-disturbing mutations. To elucidate the functional implications of the mutations, we investigated the structural effects on the dynamics of the human RD PAH induced by six missense hyperphenylalaninemia-causing mutations, namely p.G46S, p.F39C, p.F39L, p.I65S, p.I65T and p.I65V. These studies showed that the alterations in RD hydrophobic interactions induced by missense mutations could affect the functionality of the whole enzyme.
18 citations
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TL;DR: The solution structure, thermodynamic stability and hydrodynamic properties of the 55-residue C-terminal domain of UvrB that interacts with UvrC during excision repair in E. coli have been determined using a combination of high resolution NMR, ultracentrifugation, 15N NMR relaxation, gel permeation, NMR diffusion, circular dichroism and differential scanning calorimetry.
Abstract: The solution structure, thermodynamic stability and hydrodynamic properties of the 55-residue C-terminal domain of UvrB that interacts with UvrC during excision repair in E. coli have been determined using a combination of high resolution NMR, ultracentrifugation, 15N NMR relaxation, gel permeation, NMR diffusion, circular dichroism and differential scanning calorimetry. The subunit molecular weight is 7,438 kDa., compared with 14.5±1.0 kDa. determined by equilibrium sedimentation, indicating a dimeric structure. The structure determined from NMR showed a stable dimer of anti-parallel helical hairpins that associate in an unusual manner, with a small and hydrophobic interface. The Stokes radius of the protein decreases from a high plateau value (ca. 22 A) at protein concentrations greater than 4 μM to about 18 A at concentrations less than 0.1 μM. The concentration and temperature-dependence of the far UV circular dichroism show that the protein is thermally stable (Tm ca. 71.5 °C at 36 μM). The ...
18 citations
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University Hospital of Basel1, University of Basel2, Radboud University Nijmegen3, University of Copenhagen4, University of Groningen5, Roy J. and Lucille A. Carver College of Medicine6, Boston Children's Hospital7, University of Milan8, UCL Institute of Neurology9, King's College London10, Randall Division of Cell and Molecular Biophysics11, St Thomas' Hospital12, UCL Institute of Child Health13, Great Ormond Street Hospital14, University of Ferrara15
TL;DR: The results provide the proof of concept for the potential use of drugs targeting HDACs and DNA methyltransferases to treat patients with specific forms of congenital myopathies.
Abstract: Congenital myopathies are early onset, slowly progressive neuromuscular disorders of variable severity. They are genetically and phenotypically heterogeneous and caused by pathogenic variants in several genes. Multi-minicore Disease, one of the more common congenital myopathies, is frequently caused by recessive variants in either SELENON, encoding the endoplasmic reticulum glycoprotein selenoprotein N or RYR1, encoding a protein involved in calcium homeostasis and excitation-contraction coupling. The mechanism by which recessive SELENON variants cause Multiminicore disease (MmD) is unclear. Here, we extensively investigated muscle physiological, biochemical and epigenetic modifications, including DNA methylation, histone modification, and noncoding RNA expression, to understand the pathomechanism of MmD. We identified biochemical changes that are common in patients harboring recessive RYR1 and SELENON variants, including depletion of transcripts encoding proteins involved in skeletal muscle calcium homeostasis, increased levels of Class II histone deacetylases (HDACs) and DNA methyltransferases. CpG methylation analysis of genomic DNA of patients with RYR1 and SELENON variants identified >3,500 common aberrantly methylated genes, many of which are involved in calcium signaling. These results provide the proof of concept for the potential use of drugs targeting HDACs and DNA methyltransferases to treat patients with specific forms of congenital myopathies.
18 citations
Authors
Showing all 576 results
Name | H-index | Papers | Citations |
---|---|---|---|
Janet M. Thornton | 130 | 539 | 105144 |
Graham Dunn | 101 | 484 | 37152 |
Anne J. Ridley | 96 | 256 | 47563 |
Luigi Cavallo | 79 | 546 | 25262 |
Erik Sahai | 69 | 143 | 24753 |
Christopher Corrigan | 69 | 277 | 22451 |
Mathias Gautel | 69 | 159 | 16377 |
Hannah J. Gould | 60 | 207 | 11436 |
Enrico Girardi | 59 | 368 | 12712 |
Paul Brown | 59 | 251 | 13251 |
John G. Parnavelas | 58 | 164 | 11046 |
Heinz Jungbluth | 57 | 211 | 13707 |
Gareth E. Jones | 55 | 161 | 9816 |
Linda J. Richards | 54 | 154 | 10093 |
Elisabeth Ehler | 54 | 132 | 8503 |