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216 results on '"Woscholski, Rudiger"'

1. Differential hydrophobicity drives self-assembly in Huntington's disease

Author

Burke, Martin G., Woscholski, Rudiger, and Yaliraki, Sophia N.

Subjects
Quantitative Biology - Biomolecules
Abstract

Identifying the driving forces and the mechanism of association of huntingtin-exon1, a close marker for the progress of Huntington's disease, is an important prerequisite towards finding potential drug targets, and ultimately a cure. We introduce here a modelling framework based on a key analogy of the physico-chemical properties of the exon1 fragment to block copolymers. We use a systematic mesoscale methodology, based on Dissipative Particle Dynamics, which is capable of overcoming kinetic barriers, thus capturing the dynamics of significantly larger systems over longer times than considered before. Our results reveal that the relative hydrophobicity of the poly-glutamine block as compared to the rest of the (proline-based) exon1 fragment, ignored to date, constitutes a major factor in the initiation of the self-assembly process. We find that the assembly is governed by both the concentration of exon1 and the length of the poly-glutamine stretch, with a low length threshold for association even at the lowest volume fractions we considered. Moreover, this self-association occurs irrespective of whether the glutamine stretch is in random coil or hairpin configuration, leading to spherical or cylindrical assemblies, respectively. We discuss the implications of these results for reinterpretation of existing research within this context, including that the routes towards aggregation of exon1 may be distinct to those of the widely studied homopolymeric poly-glutamine peptides.

Published
2003
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4. (±)-Polysiphenol and Other Analogues via Symmetrical Intermolecular Dimerizations: A Synthetic, Spectroscopic, Structural, and Computational Study

Author

Braddock, D. Christopher, primary, Duran-Corbera, Anna, additional, Nilforoushan, Masih, additional, Yang, Ziye, additional, He, Tianyou, additional, Santhakumar, Gajan, additional, Bahou, Karim A., additional, Rzepa, Henry S., additional, Woscholski, Rudiger, additional, and White, Andrew J. P., additional

Published
2022
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11. A novel type of cellular senescence that can be enhanced in mouse models and human tumor xenografts to suppress prostate tumorigenesis

Author

Alimonti, Andrea, Nardella, Caterina, Chen, Zhenbang, Clohessy, John G., Carracedo, Arkaitz, Trotman, Lloyd C., Cheng, Ke, Varmeh, Shohreh, Kozma, Sara C., Thomas, George, Rosivatz, Erika, Woscholski, Rudiger, Cognetti, Francesco, Scher, Howard I., and Pandolfi, Pier Paolo

Subjects
Tumor proteins -- Physiological aspects -- Genetic aspects -- Research -- Risk factors, Prostate cancer -- Risk factors -- Genetic aspects -- Research -- Physiological aspects, Carcinogenesis -- Risk factors -- Genetic aspects -- Research -- Physiological aspects, Health care industry
Abstract

Irreversible cell growth arrest, a process termed cellular senescence, is emerging as an intrinsic tumor suppressive mechanism. Oncogene-induced senescence is thought to be invariably preceded by hyperproliferation, aberrant replication, and activation of a DNA damage checkpoint response (DDR), rendering therapeutic enhancement of this process unsuitable for cancer treatment. We previously demonstrated in a mouse model of prostate cancer that inactivation of the tumor suppressor phosphatase and tensin homolog deleted on chromosome 10 (Pten) elicits a senescence response that opposes tumorigenesis. Here, we show that Pten-loss-induced cellular senescence (PICS) represents a senescence response that is distinct from oncogene-induced senescence and can be targeted for cancer therapy. Using mouse embryonic fibroblasts, we determined that PICS occurs rapidly after Pten inactivation, in the absence of cellular proliferation and DDR. Further, we found that PICS is associated with enhanced p53 translation. Consistent with these data, we showed that in mice p53-stabilizing drugs potentiated PICS and its tumor suppressive potential. Importantly, we demonstrated that pharmacological inhibition of PTEN drives senescence and inhibits tumorigenesis in vivo in a human xenograft model of prostate cancer. Taken together, our data identify a type of cellular senescence that can be triggered in nonproliferating cells in the absence of DNA damage, which we believe will be useful for developing a 'pro-senescence' approach for cancer for prevention and therapy., Introduction Cellular senescence describes a terminal arrest of cell growth that is observed in response to various insults including an abnormally high activity of oncogenes (1). After its discovery and [...]

Published
2010
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15. Synthesis and function of 3-phosphorylated inositol lipids

Author

Vanhaesebroeck, Bart, Leevers, Sally J., Ahmadi, Khatereh, Timms, John, Katso, Roy, Driscoll, Paul C., Woscholski, Rudiger, Parker, Peter J., and Waterfield, Michael D.

Subjects
Protein kinases -- Physiological aspects, Lipid metabolism -- Physiological aspects, Phosphoinositides -- Physiological aspects, Phosphatases -- Physiological aspects, Biological sciences
Abstract

This review focuses on the 3-phosphoinositide lipids, their synthesis and role as second messengers in the cellular activities. Research findings on the structural aspects of lipid kinases and phosphatases and their 3-phosphoinositide products' interaction with the protein targets are discused with reference to 3-phosphoinositide metabolism.

Published
2001

18. Inositol lipid 5-phosphatases - traffic signals and signal traffic

Author

Woscholski, Rudiger and Parker, Peter J.

Subjects
Inositol -- Analysis, Lipids -- Analysis, Phosphatases -- Research, Phosphoinositides -- Analysis, Biological sciences, Chemistry
Abstract

Several novel phosphoinositide 5-phosphatases have been identified and characterised, revealing a growing family of regulators of inositol lipid dependent processes. The features of these proteins, their likely partners and their involvement in signal transduction and membrane traffic is discussed.

Published
1997

19. Modulation of the substrate specificity of the mammalian phosphatidylinositol 3-kinase by cholesterol sulfate and sulfatide

Author

Woscholski, Rudiger, Kodaki, Tsutomu, Palmer, Ruth H., Waterfield, Micahel D., and Parker, Peter J.

Subjects
Protein kinases -- Research, Enzyme activation -- Analysis, Biological sciences, Chemistry
Abstract

The substrate specificities exhibited by the mammalian phosphatidylinositol (PtdIns) 3-kinase can be changed with cholesterol-based detergents and natural sulfated compounds such as cholesterol sulfate or sulfatide. The specificities are different in vitro and in vivo. The presence of cholesterol sulfate or sulfatide in low concentrations inhibits PtdIns 3-kinase activity. The mammalian PtdIns 3-kinase is a heterodimer with regulatory and catalytic subunits.

Published
1995

21. OCRL1 engages with the F-BAR protein pacsin 2 to promote biogenesis of membrane-trafficking intermediates

Author

Billcliff, Peter G, Noakes, Christopher J, Mehta, Zenobia B, Yan, Guanhua, Mak, LokHang, Woscholski, Rudiger, and Lowe, Martin

Abstract

Mutation of the inositol 5-phosphatase OCRL1 causes Lowe syndrome and Dent-2 disease. Loss of OCRL1 function perturbs several cellular processes, including membrane traffic, but the underlying mechanisms remain poorly defined. Here we show that OCRL1 is part of the membrane-trafficking machinery operating at the trans-Golgi network (TGN)/endosome interface. OCRL1 interacts via IPIP27A with the F-BAR protein pacsin 2. OCRL1 and IPIP27A localize to mannose 6-phosphate receptor (MPR)-containing trafficking intermediates, and loss of either protein leads to defective MPR carrier biogenesis at the TGN and endosomes. OCRL1 5-phosphatase activity, which is membrane curvature sensitive, is stimulated by IPIP27A-mediated engagement of OCRL1 with pacsin 2 and promotes scission of MPR-containing carriers. Our data indicate a role for OCRL1, via IPIP27A, in regulating the formation of pacsin 2-dependent trafficking intermediates and reveal a mechanism for coupling PtdIns(4,5)P2 hydrolysis with carrier biogenesis on endomembranes.

Published
2016

28. A unified nomenclature and amino acid numbering for human PTEN.

Author

Pulido, Rafael, Baker, Suzanne J., Barata, Joao T., Carracedo, Arkaitz, Cid, Víctor J., Chin-Sang, Ian D., Davé, Vrushank, Hertog, Jeroen den, Devreotes, Peter, Eickholt, Britta J., Eng, Charis, Furnari, Frank B., Georgescu, María Magdalena, Gericke, Arne, Hopkins, Benjamin, Jiang, Xeujun, Lee, Seung Rock, Lösche, Mathias, Malaney, Prerna, Matias Guiu, Xavier, Molina, María, Pandolfi, Pier Paolo, Parsons, Ramon, Pinton, Paolo, Rivas, Carmen, Rocha, Rafael M., Rodríguez, Manuel S., Ross, Alonzo H., Serrano, Manuel, Stambolic, Vuk, Stiles, Bangyan, Suzuki, Akira, Tan, Seong Seng, Tonks, Nicholas K., Trotman, Lloyd C., Wolff, Nicolas, Woscholski, Rudiger, Wu, Hong, Leslie, Nicholas R., Pulido, Rafael, Baker, Suzanne J., Barata, Joao T., Carracedo, Arkaitz, Cid, Víctor J., Chin-Sang, Ian D., Davé, Vrushank, Hertog, Jeroen den, Devreotes, Peter, Eickholt, Britta J., Eng, Charis, Furnari, Frank B., Georgescu, María Magdalena, Gericke, Arne, Hopkins, Benjamin, Jiang, Xeujun, Lee, Seung Rock, Lösche, Mathias, Malaney, Prerna, Matias Guiu, Xavier, Molina, María, Pandolfi, Pier Paolo, Parsons, Ramon, Pinton, Paolo, Rivas, Carmen, Rocha, Rafael M., Rodríguez, Manuel S., Ross, Alonzo H., Serrano, Manuel, Stambolic, Vuk, Stiles, Bangyan, Suzuki, Akira, Tan, Seong Seng, Tonks, Nicholas K., Trotman, Lloyd C., Wolff, Nicolas, Woscholski, Rudiger, Wu, Hong, and Leslie, Nicholas R.

Abstract

The tumor suppressor PTEN is a major brake for cell transformation, mainly due to its phosphatidylinositol 3,4,5-trisphosphate [PI(3,4,5)P3] phosphatase activity that directly counteracts the oncogenicity of phosphoinositide 3-kinase (PI3K). PTEN mutations are frequent in tumors and in the germ line of patients with tumor predisposition or with neurological or cognitive disorders, which makes the PTEN gene and protein a major focus of interest in current biomedical research. After almost two decades of intense investigation on the 403-residue-long PTEN protein, a previously uncharacterized form of PTEN has been discovered that contains 173 amino-terminal extra amino acids, as a result of an alternate translation initiation site. To facilitate research in the field and to avoid ambiguities in the naming and identification of PTEN amino acids from publications and databases, we propose here a unifying nomenclature and amino acid numbering for this longer form of PTEN., Depto. de Microbiología y Parasitología, Fac. de Farmacia, TRUE, pub

Published
2014

30. A Unified Nomenclature and Amino Acid Numbering for Human PTEN

Author

Pulido, Rafael, primary, Baker, Suzanne J., additional, Barata, Joao T., additional, Carracedo, Arkaitz, additional, Cid, Victor J., additional, Chin-Sang, Ian D., additional, Davé, Vrushank, additional, den Hertog, Jeroen, additional, Devreotes, Peter, additional, Eickholt, Britta J., additional, Eng, Charis, additional, Furnari, Frank B., additional, Georgescu, Maria-Magdalena, additional, Gericke, Arne, additional, Hopkins, Benjamin, additional, Jiang, Xeujun, additional, Lee, Seung-Rock, additional, Lösche, Mathias, additional, Malaney, Prerna, additional, Matias-Guiu, Xavier, additional, Molina, María, additional, Pandolfi, Pier Paolo, additional, Parsons, Ramon, additional, Pinton, Paolo, additional, Rivas, Carmen, additional, Rocha, Rafael M., additional, Rodríguez, Manuel S., additional, Ross, Alonzo H., additional, Serrano, Manuel, additional, Stambolic, Vuk, additional, Stiles, Bangyan, additional, Suzuki, Akira, additional, Tan, Seong-Seng, additional, Tonks, Nicholas K., additional, Trotman, Lloyd C., additional, Wolff, Nicolas, additional, Woscholski, Rudiger, additional, Wu, Hong, additional, and Leslie, Nicholas R., additional

Published
2014
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34. Acute Manipulation of Diacylglycerol Reveals Roles in Nuclear Envelope Assembly & Endoplasmic Reticulum Morphology

Author

Domart, Marie-Charlotte, primary, Hobday, Tina M. C., additional, Peddie, Christopher J., additional, Chung, Gary H. C., additional, Wang, Alan, additional, Yeh, Karen, additional, Jethwa, Nirmal, additional, Zhang, Qifeng, additional, Wakelam, Michael J. O., additional, Woscholski, Rudiger, additional, Byrne, Richard D., additional, Collinson, Lucy M., additional, Poccia, Dominic L., additional, and Larijani, Banafshé, additional

Published
2012
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45. Organocatalytic Phosphorylation of Alcohols Using Pyridine-N-oxide.

Author

Murray, James I., Woscholski, Rudiger, and Spivey, Alan C.

Subjects
*PHOSPHORYLATION, *PYRIDINE, *PHENOLS, *ALCOHOL, *CHEMICAL reactions, *OXIDATIVE phosphorylation
Abstract

Phosphorylation of alcohols by phosphoryl chlorides catalysed by pyridine-N-oxide is reported. The utility of this method is demonstrated through phosphorylation of primary, secondary and a tertiary alcohol as well as phenols under mild reaction conditions and with low catalyst loading (5 mol%). [ABSTRACT FROM AUTHOR]

Published
2015
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46. Introduction

Author

Larijani, Banafshé, primary, Rosser, Colin. A., additional, and Woscholski, Rudiger, additional

Published
2006
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