Structure-activity relationship of acridine derivatives to amyloid aggregation of lysozyme

• Published in: Biochimica et biophysica acta Vol. 1810; no. 4; pp. 465 - 474
• Main Authors: Antosova, Andrea, Chelli, Beatrice, Bystrenova, Eva, Siposova, Katarina, Valle, Francesco, Imrich, Jan, Vilkova, Maria, Kristian, Pavol, Biscarini, Fabio, Gazova, Zuzana
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 01.04.2011
• Subjects: acridines; Acridines - chemistry; Acridines - pharmacology; Alzheimer disease; Alzheimer Disease - drug therapy; Alzheimer Disease - metabolism; amyloid; Amyloid - antagonists & inhibitors; Amyloid - metabolism; Animals; atomic force microscopy; Cell Line; Cell Survival - drug effects; cell viability; Chickens; cytotoxicity; depolymerization; DNA; DNA - metabolism; Humans; Inhibitory Concentration 50; lysozyme; Muramidase - metabolism; noninsulin-dependent diabetes mellitus; spectroscopy; Structure-Activity Relationship; structure-activity relationships
• ISSN: 0304-4165; 0006-3002; 1872-8006
• DOI: 10.1016/j.bbagen.2011.01.007

BACKGROUND: Amyloid-related diseases (such as Alzheimer's disease or diabetes type II) are associated with self-assembly of protein into amyloid aggregates. METHODS: Spectroscopic and atomic force microscopy were used to determine the ability of acridines to affect amyloid aggregation of lysozyme. RESULTS: We have studied the effect of acridine derivatives on the amyloid aggregation of lysozyme to investigate the acridine structure-activity relationship. The activity of the effective planar acridines was characterized by the half-maximum depolymerization concentration DC₅₀ and half-maximal inhibition concentration IC₅₀. For the most effective acridine derivatives we examined their interaction with DNA and their effect on cell viability in order to investigate their eventual influence on cells. We thus identified planar acridine derivatives with intensive anti-amyloid activity (IC₅₀ and DC₅₀ values in micromolar range), low cytotoxicity and weak ability to interfere with the processes in the cell. CONCLUSIONS: Our findings indicate that both the planarity and the tautomerism of the 9-aminoacridine core together with the reactive nucleophilic thiosemicarbazide substitution play an important role in the anti-amyloid activities of studied derivatives. GENERAL SIGNIFICANCE: The present findings favor the application of the selected active planar acridines in the treatment of amyloid-related diseases.