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Clive’s primary research interest is in neurodegenerative diseases, specifically those caused following protein misfolding (such as prion, Alzheimer’s and Parkinson’s diseases). Clive’s research encompasses 3 main themes. (1) The formation of prions within neuronal cells and how their formation can be blocked. (2) How the accumulation of misfolded proteins (either prions or the Aβ1-42 peptide that is thought to intiate pathogenesis in Alzheimer’s disease) causes damage to synapses (synaptotoxity) and ultimately neuronal death. The synapse damage represents the early stage of neurodegenerative disease. Clive’s research is aimed at stopping the synaptic destruction, and allowing the growth of synaptic connections. (3) The role of neuroinflammation, the responses of immune cells within the brain to cell damage, that occurs with Alzheimer’s and prion diseases.

Underlying these research interests is the concept that membrane biology and abnormal cell signaling pathways are important in the development of these diseases. Clive is particularly interested in the role of cholesterol in cell membranes and its effect specific “lipid raft” micro-domains, on cell signaling (phospholipase A2) and intracellular trafficking. These studies have identified a number of novel drugs that may be able to retard the progression of prion and Alzheimer’s disease.

Puig, B; Altmeppen, H C; Linsenmeier, L; Chakroun, K; Wegwitz, F; Piontek, U K; Tatzelt, J; Bate, C; Magnus, T; Glatzel, M. (2019)
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PLoS Pathogens, 15;1:e1007520.  

Osborne C, West E, & Bate C. (2018)
The phospholipase A2 pathway controls a synaptic cholesterol ester cycle and synapse damage.
Journal of Cell Science 131 (8), doi: 10.1242/jcs.211789.

Bate, C; Williams, A. (2018)
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Neurobiology of Disease 11148-58.

McHale-Owen, H; Bate, C. (2018)
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Biochimica et Biophysica Acta-Molecular Basis of Disease, 1864;3:649-659.

Williams, R S B; Bate, C. (2017)
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Neuropharmacology,  12854-62.

West, E; Osborne, C; Bate, C. (2017)
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Journal of Cell Science, 1303050-3059.

Bate, C. (2017)
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Neural Regeneration Research, 12;9:1437-1438.

Bate, C. (2017)
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Journal of Experimental Neuroscience, 11.

Nolan, W; McHale-Owen, H; Williams, A. (2017)
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Journal of Biological Chemistry,  474;17:3045-3058.

Bate C, Nolan W, McHale-Owen H, Williams A. (2016)
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J Biol Chem. 2016 Aug 12;291(33):17093-101

Osborne, C; West, E; Nolan, W; McHale-Owen, H; Williams, A; Bate, C. (2016)

NEUROPHARMACOLOGY, 101225-236.

Williams, R S B; Bate, C. (2016)
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NEUROPHARMACOLOGY, 101566-575.

Bate, C; Nolan, W; Williams, A. (2016)
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Communicative & Integrative Biology, 9;2:e1149671-e1149671.

Bate, C; Nolan, W; Williams, A. (2016)
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Prion, 10;2:127-30.

Bate, C; Williams, A. (2015)

Biomolecules, 5;1:178-93.

Bate, C. (2015)
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NEURAL REGENERATION RESEARCH, 10;5:700-701.

Simmons C, Ingham V, Williams A & Bate C. (2014) - Platelet-activating factor antagonists increase the removal of amyloid-β42 from neurons via regulation of cholesterol ester hydrolases. Alzheimer’s Research & Therapy 6:15.

Ingham V, Williams A & Bate C (2014) Glimepiride reduces CD14 expression and cytokine production from macrophages Journal of Neuroinflammation 11:115.

Bate C & Williams A. (2012) Neurodegeneration is induced by the clustering of sialic acid-containing glycosylphosphatidylinositol anchors of prion proteins. The Journal of Biological Chemistry 

Bate C & Williams A. (2011) Amyloid-β-induced synapse damage is mediated via cross-linkage of cellular prion proteins. The Journal of Biological Chemistry 286, 37955 - 37963.

Bate C & Williams A. (2011) Ethanol protects cultured neurons against amyloid-β and α-synuclein-induced synapse damage. Neuropharmacology 61, 1406 - 1412.

Bate C & Williams A. (2011) PrPC with a monoacylated glycosylphosphatidylinositol anchor modifies cell membranes, inhibits cell signalling and reduces prion formation – Prion 5 (2) 65 - 68.

Bate C & Williams A (2011) Monoacylated cellular prion protein modifies cell membranes, inhibits cell signaling and reduces prion formation. The Journal of Biological Chemistry 286. 8752 - 8758.

Bate C, Ingham V & Williams A. (2011) Inhibition of phospholipase A2 increased the removal of the prion derived peptide PrP82-146 from cultured neurons. Neuropharmacology 60. 365 – 372.

Bate C, Gentleman S & Williams A. (2010) α-synuclein induced synapse damage is enhanced by Aβ1-42 Molecular Neurodegeneration 5. 55 (December).

Bate C, Tayebi M & Williams A. (2010) A glycosylphosphatidylinositol analogue reduced prion derived peptide mediated activation of cytoplasmic phospholipase A2, synapse degeneration and neuronal death Neuropharmacology 59, 93-99.

Bate C, Tayebi M & Williams A. (2010) Glycosylphosphatidylinositol anchor analogues sequester cholesterol and reduce prion formation Journal of Biological Chemistry 285, 22017 - 22026.

Bate C, Tayebi M & Williams A. (2010) Phospholipase A2 inhibitors protect against prion and Aβ mediated synapse degeneration Molecular Neurodegeneration, 5:13.

Bate C, Tayebi M & Williams A. (2010) The glycosylphosphatidylinositol anchor is a major determinant of prion binding and infectivity. Biochemistry J 428 (1) 95-101.

Bate C, Tayebi M, Diomede L, Salmona M & Williams A. (2010) Polyunsaturated fatty acids reduce prion-mediated synapse damage in vitro. Neurotoxicity Research, 17 (3) 203-214.

Bate C, Tayebi M, Diomede L, Salmona M & Williams. A. (2008) Docosahexaenoic and eicosapentaenoic acids increase prion formation in neuronal cells. BMC Biology, 6. 139 (September).

Bate C, Tayebi M, Diomede L, Salmona M & Williams A. (2009) Glimepiride reduced the expression of PrPC, prevents PrPSc formation and protects against prion-mediated neurotoxicity PLoSONE 4 (12) e8221.

Bate C & Williams A. (2008) Do prion-induced changes in cholesterol trigger neurodegeneration? Future Neurology 3 (4) 367-370.

BATE, C., TAYEBI, M. & WILLIAMS, A. (2008) Ginkgolides protect against amyloid-beta1-42-mediated synapse damage in vitro. Mol Neurodegener 3, 1.

BATE, C., TAYEBI, M. & WILLIAMS, A. (2008) Sequestration of free cholesterol in cell membranes by prions correlates with cytoplasmic phospholipase A2 activation. BMC Biol 6, 8.

BATE, C., TAYEBI, M. & WILLIAMS, A. (2008) Cholesterol esterification reduces the neurotoxicity of prions. Neuropharmacology 54, 1247-1253.

BATE, C., MARSHALL, V., COLOMBO, L., DIOMEDE, L., SALMONA, M. & WILLIAMS, A. (2008) Docosahexaenoic and eicosapentaenoic acids increase neuronal death in response to HuPrP82-146 and Abeta 1-42. Neuropharmacology 54, 934-943.

WILSON, R., BATE, C., BOSHUIZEN, R., WILLIAMS, A. & BREWER, J. (2007) Squalestatin alters the intracellular trafficking of a neurotoxic prion peptide. BMC Neurosci 8, 99.

TAYEBI, M., BATE, C., HAWKE, S. & WILLIAMS, A. (2007) A role for B lymphocytes in anti-infective prion therapies? Expert Rev Anti Infect Ther 5, 631-638.

KEMPSTER, S., BATE, C. & WILLIAMS, A. (2007) Simvastatin treatment prolongs the survival of scrapie-infected mice. Neuroreport 18, 479-482.

BATE, C. & WILLIAMS, A. (2007) Squalestatin protects neurons and reduces the activation of cytoplasmic phospholipase A2 by Abeta(1-42). Neuropharmacology 53, 222-231.

BATE, C., RUMBOLD, L. & WILLIAMS, A. (2007) Cholesterol synthesis inhibitors protect against platelet-activating factor-induced neuronal damage. J Neuroinflammation 4, 5.

BATE, C., KEMPSTER, S. & WILLIAMS, A. (2006) Prostaglandin D2 mediates neuronal damage by amyloid-beta or prions which activates microglial cells. Neuropharmacology 50, 229-237.

BATE, C., KEMPSTER, S. & WILLIAMS, A. (2006) Platelet-activating factor antagonists protect amyloid-beta damaged neurons from microglia-mediated death. Neuropharmacology 51, 173-181.

BATE, C., KEMPSTER, S., LAST, V. & WILLIAMS, A. (2006) Interferon-gamma increases neuronal death in response to amyloid-beta1-42. J Neuroinflammation 3, 7.

BATE, C., BOSHUIZEN, R. & WILLIAMS, A. (2005) Microglial cells kill prion-damaged neurons in vitro by a CD14-dependent process. J Neuroimmunol 170, 62-70.

BATE, C. & WILLIAMS, A. (2004) Role of glycosylphosphatidylinositols in the activation of phospholipase A2 and the neurotoxicity of prions. J Gen Virol 85, 3797-3804.

BATE, C. & WILLIAMS, A. (2004) Detoxified lipopolysaccharide reduces microglial cell killing of prion-infected neurons. Neuroreport 15, 2765-2768.

BATE, C., VEERHUIS, R., EIKELENBOOM, P. & WILLIAMS, A. (2004) Microglia kill amyloid-beta1-42 damaged neurons by a CD14-dependent process. Neuroreport 15, 1427-1430.

BATE, C., SALMONA, M. & WILLIAMS, A. (2004) The role of platelet activating factor in prion and amyloid-beta neurotoxicity. Neuroreport 15, 509-513.

BATE, C., SALMONA, M. & WILLIAMS, A. (2004) Ginkgolide B inhibits the neurotoxicity of prions or amyloid-beta1-42. J Neuroinflammation 1, 4.

BATE, C., SALMONA, M., DIOMEDE, L. & WILLIAMS, A. (2004) Squalestatin cures prion-infected neurons and protects against prion neurotoxicity. J Biol Chem 279, 14983-14990.

BATE, C., REID, S. & WILLIAMS, A. (2004) Phospholipase A2 inhibitors or platelet-activating factor antagonists prevent prion replication. J Biol Chem 279, 36405-36411.

BATE, C., VEERHUIS, R., EIKELENBOOM, P. & WILLIAMS, A. (2003) Neurones treated with cyclo-oxygenase-1 inhibitors are resistant to amyloid-beta1-42. Neuroreport 14, 2099-2103.

BARRET, A., TAGLIAVINI, F., FORLONI, G., BATE, C., SALMONA, M., COLOMBO, L., DE LUIGI, A., LIMIDO, L., SUARDI, S., ROSSI, G., AUVRE, F., ADJOU, K. T., SALES, N., WILLIAMS, A., LASMEZAS, C. & DESLYS, J. P. (2003) Evaluation of quinacrine treatment for prion diseases. J Virol 77, 8462-8469.

EIKELENBOOM, P., BATE, C., VAN GOOL, W. A., HOOZEMANS, J. J., ROZEMULLER, J. M., VEERHUIS, R. & WILLIAMS, A. (2002) Neuroinflammation in Alzheimer's disease and prion disease. Glia 40, 232-239.

BATE, C., RUTHERFORD, S., GRAVENOR, M., REID, S. & WILLIAMS, A. (2002) Cyclo-oxygenase inhibitors protect against prion-induced neurotoxicity in vitro. Neuroreport 13, 1933-1938.

BATE, C., REID, S. & WILLIAMS, A. (2001) Killing of prion-damaged neurones by microglia. Neuroreport 12, 2589-2594.

Clive lectures on prion and Alzheimer’s diseases to the BSc Bioveterinary Science course. He also lectures on basic immunology and parasitology, specifically how a parasite is successful and mechanisms of immune system evasion. He has also assisted with the BVetMed course and the Control of Infectious Disease MSc.