Printable Handouts

PDF

Navigable Slide Index

1. Introduction
2. The first AD diagnosis
3. Alzheimer's disease
4. Alzheimer's disease and Ach (1)
5. Alzheimer's disease and Ach (2)
6. The goals are straightforward
7. AD is a double proteinopathy
8. Amyloid beta plaques
9. The original 'amyloid cascade' hypothesis
10. Protein aggregates in degenerative diseases
11. The dogma
12. Synapse pathology and fibrils
13. A-beta self-assembly takes alternative paths
14. Toxic A-beta oligomers (ADDLs) (1)
15. Toxic A-beta oligomers (ADDLs) (2)
16. Toxic A-beta oligomers (ADDLs) (3)
17. ADDLs are potent CNS neurotoxins (1)
18. ADDLs are potent CNS neurotoxins (2)
19. Clinical relevance of ADDLs
20. Toxin specific antibodies
21. Human brain extract striking AD-dependence
22. Regional specificity
23. Structure of ADDLs in AD extracts
24. 12mers and memory loss
25. The Osaka mutation
26. How do oligomers attack neurons?
27. Differences between human AD and Tg mice?
28. Early ADDLs in human brain
29. Pathogenic ligands
30. Ligand specificity?
31. What is the identity of the targets?
32. ADDLs localize to spines
33. Extracellular, diffusible… in CSF?
34. Alternative for Dx? ADDLs in AD brain tissue
35. Targetable magnetic nanostructure
36. MRI probes for AD
37. Neuropathology of AD
38. Insulin receptors
39. AD as type III diabetes
40. ADDLs and damage to spine structure
41. Alzheimer's pathology correlated with dementia
42. Binding sites that act as ADDL toxin receptors
43. Saturable binding implies receptors
44. Fyn receptor
45. ADDLs and prion protein
46. Role of mGluR5
47. Nanoscale artificial membranes (nanodiscs)
48. Cell free platform for binding
49. Characterizing binding sites in SMPL nanodiscs
50. Receptor identification
51. Discovery of ADDL binding antagonists (1)
52. Discovery of ADDL binding antagonists (2)
53. Oligomers' build up in sporadic late onset AD
54. Diabetes and AD (1)
55. Diabetes and AD (2)
56. AD’s synaptic struggle for survival
57. Are ADDLs the basis for unifying mechanism?
58. ADDL based strategies for Rx
59. Acknowledgements

Topics Covered

• The oligomer cascade hypothesis for Alzheimer’s Disease
• why the oligomer hypothesis has largely supplanted the amyloid cascade hypothesis
• the role of AβOs in memory failure and the major facets of AD neuropathology
• mechanisms by which AβOs instigate neurotoxicity
• why AβOs accumulate in the first place
• how AβOs offer superb targets for novel AD diagnostics and disease-modifying therapeutics
• beside its direct link to Alzheimer’s disease, the discovery of toxic Aβ oligomers has provided a novel structural archetype for toxins germane to more than two dozen diseases of protein mis-folding, including diabetes, Parkinson’s, and prion diseases

Links

Series:

• Drug Discovery and Development in the Neurosciences

Categories:

• Biochemistry
• Cell Biology
• Clinical Practice
• Neuroscience

Therapeutic Areas:

• Neurology

Talk Citation

Publication History

• Published on February 5, 2014

Financial Disclosures

• Prof. William L. Klein has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.