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Full-Text Articles in Physical Sciences and Mathematics
Extracellular Chaperones Modulate The Effects Of Alzheimer's Patient Cerebrospinal Fluid On A Beta(1-42) Toxicity And Uptake , Justin J. Yerbury, Mark R. Wilson
Extracellular Chaperones Modulate The Effects Of Alzheimer's Patient Cerebrospinal Fluid On A Beta(1-42) Toxicity And Uptake , Justin J. Yerbury, Mark R. Wilson
Mark R Wilson
Alzheimer's disease is characterised by the inappropriate death of brain cells and accumulation of the A beta peptide in the brain. Thus, it is possible that there are fundamental differences between Alzheimer's disease patients and healthy individuals in their abilities to clear A beta from brain fluid and to protect neurons from A beta toxicity. In the present study, we examined (1) the cytotoxicity of Alzheimer's disease cerebrospinal fluid (CSF) compared to control CSF, (2) the ability of Alzheimer's disease and control CSF to protect cells from A beta toxicity and to promote cell-mediated clearance of A beta and lastly …
Alphab-Crystallin Inhibits The Cell Toxicity Associated With Amyloid Fibril Formation By Kappa-Casein And The Amyloid-Beta Peptide, Francis C. Dehle, Heath Ecroyd, Ian F. Musgrave, John A. Carver
Alphab-Crystallin Inhibits The Cell Toxicity Associated With Amyloid Fibril Formation By Kappa-Casein And The Amyloid-Beta Peptide, Francis C. Dehle, Heath Ecroyd, Ian F. Musgrave, John A. Carver
Heath Ecroyd
Amyloid fibril formation is associated with diseases such as Alzheimer’s, Parkinson’s, and prion diseases. Inhibition of amyloid fibril formation by molecular chaperone proteins, such as the small heat-shock protein αB-crystallin, may play a protective role in preventing the toxicity associated with this form of protein misfolding. Reduced and carboxymethylated κ-casein (RCMκ-CN), a protein derived from milk, readily and reproducibly forms fibrils at physiological temperature and pH. We investigated the toxicity of fibril formation by RCMκ-CN using neuronal model PC12 cells and determined whether the inhibition of fibril formation altered its cell toxicity. To resolve ambiguities in the literature, we also …
Amyloid Fibril Formation By Bovine Milk Kappa-Casein And Its Inhibition By The Molecular Chaperones Alpha-S And Beta-Casein, Mark Wilson, David Thorn, Agata Rekas, S. L Gras, Christopher Dobson, Sarah Meehan, Cait Macphee, M Sunde
Amyloid Fibril Formation By Bovine Milk Kappa-Casein And Its Inhibition By The Molecular Chaperones Alpha-S And Beta-Casein, Mark Wilson, David Thorn, Agata Rekas, S. L Gras, Christopher Dobson, Sarah Meehan, Cait Macphee, M Sunde
Mark R Wilson
No abstract provided.
Lymphotoxin-Beta Receptor-Dependent Genes In Lymph Node And Follicular Dendritic Cell Transcriptomes, Mark Wilson, C. Huber, C. Thielen, Y. Fu, E. Heinen, A Aguzzi, G Miele
Lymphotoxin-Beta Receptor-Dependent Genes In Lymph Node And Follicular Dendritic Cell Transcriptomes, Mark Wilson, C. Huber, C. Thielen, Y. Fu, E. Heinen, A Aguzzi, G Miele
Mark R Wilson
No abstract provided.