Non-chaperone Proteins Can Inhibit Aggregation and Cytotoxicity of Alzheimer Amyloid beta Peptide

• Background: A amyloid formation is associated with Alzheimer disease. Results: Non-chaperone proteins prevent amyloid formation and reduce the cytotoxicity of the A peptide. Conclusion: Non-chaperone proteins may affect the onset and development of Alzheimer disease by interfering with A peptide aggregation. Significance: Non-chaperone proteins can function as a chaperone protein to regulate the pathway of the A fibrillation in proteostasis providing a new strategy in the treatment of Alzheimer disease. Many factors are known to influence the oligomerization, fibrillation, and amyloid formation of the A peptide that is associated with Alzheimer disease. Other proteins that are present when A peptides deposit in vivo are likely to have an effect on these aggregation processes. To separate specific versus broad spectrum effects of proteins on A aggregation, we tested a series of proteins not reported to have chaperone activity: catalase, pyruvate kinase, albumin, lysozyme, -lactalbumin, and -lactoglobulin. All tested proteins suppressed the fibrillation of Alzheimer A(1-40) peptide at substoichiometric ratios, albeit some more effectively than others. All proteins bound non-specifically to A, stabilized its random coils, and reduced its cytotoxicity. Surprisingly, pyruvate kinase and catalase were at least as effective as known chaperones in inhibiting A aggregation. We propose general mechanisms for the broad-spectrum inhibition A fibrillation by proteins. The mechanisms we discuss are significant for prognostics and perhaps even for prevention and treatment of Alzheimer disease.

Subject headings

NATURVETENSKAP  -- Biologi -- Biokemi och molekylärbiologi (hsv//swe)

NATURAL SCIENCES  -- Biological Sciences -- Biochemistry and Molecular Biology (hsv//eng)

Keyword

Alzheimer Disease

Amyloid- (AB)

Protein Aggregation

Protein-Protein Interaction

Spectroscopy

Aggregates

Fibrillation

Toxicity

Publication and Content Type

ref (subject category)

art (subject category)