TY - JOUR
T1 - First evidence for helical transitions in supercoiled DNA by amyloid β peptide (1-42) and aluminum
T2 - A new insight in understanding Alzheimer's disease
AU - Hegde, Muralidhar L.
AU - Anitha, Suram
AU - Latha, Kallur S.
AU - Mustak, Mohammed S.
AU - Stein, Reuven
AU - Ravid, Rivka
AU - Rao, K. S.Jagannatha
N1 - Funding Information:
The authors wish to thank Dr. V. Prakash, Director, CFTRI (Mysore) for all of his support and encouragement. The authors also thank Prof. S. Sharath Chandra, Centre for Human Genetics (Bangalore) for his support. M. L. H. thanks the Council for Scientific and Industrial Research (CSIR) for awarding the Junior Research Fellowship; S. A., K. S. L., and M. S. M. are grateful to CSIR for awarding the Senior Research Fellowships. This work was supported by a grant from the Ministry of Science, Culture, and Sports (Israel) and the Department of Biotechnology (India). We profoundly thank Prof. Surolia, Indian Institute of Science, Bangalore, India, for allowing us to use CD facility and The Netherlands Brain Bank for providing the human brain specimens.
Copyright:
Copyright 2008 Elsevier B.V., All rights reserved.
PY - 2004/2
Y1 - 2004/2
N2 - Previously, we evidenced a B → Z helical change in Alzheimer's brain genomic DNA, leading to a hypothesis that Alzheimer's disease (AD) etiological factors such as aluminum (Al), amyloid β (Aβ) peptide, and Tau might play a role in modulating DNA topology. In the present study, we investigated the interaction of Al and Aβ with DNA. Our results show that Aβ(1-42) could induce a B → ψ (Psi) conformational change in pUC 18 supercoiled DNA (scDNA), Aβ(1-16) caused an altered B-form, whereas Al induced a complex B-C-A mixed conformation. Ethidium bromide binding and agarose gel electrophoresis studies revealed that Al uncoiled the DNA to a fully relaxed form, whereas Aβ(1-42) and Aβ(1-16) effected a partial uncoiling and also showed differential sensitivity toward chloroquine-induced topoisomer separation. Our findings show for the first time that Aβ and Al modulate both helicity and superhelicity in scDNA. A new hypothetical model explaining the potential toxicity of Aβ and Al in terms of their DNA binding properties leading to DNA conformational alteration is proposed.
AB - Previously, we evidenced a B → Z helical change in Alzheimer's brain genomic DNA, leading to a hypothesis that Alzheimer's disease (AD) etiological factors such as aluminum (Al), amyloid β (Aβ) peptide, and Tau might play a role in modulating DNA topology. In the present study, we investigated the interaction of Al and Aβ with DNA. Our results show that Aβ(1-42) could induce a B → ψ (Psi) conformational change in pUC 18 supercoiled DNA (scDNA), Aβ(1-16) caused an altered B-form, whereas Al induced a complex B-C-A mixed conformation. Ethidium bromide binding and agarose gel electrophoresis studies revealed that Al uncoiled the DNA to a fully relaxed form, whereas Aβ(1-42) and Aβ(1-16) effected a partial uncoiling and also showed differential sensitivity toward chloroquine-induced topoisomer separation. Our findings show for the first time that Aβ and Al modulate both helicity and superhelicity in scDNA. A new hypothetical model explaining the potential toxicity of Aβ and Al in terms of their DNA binding properties leading to DNA conformational alteration is proposed.
KW - ψ-DNA
KW - Alzheimer's disease
KW - B-DNA
KW - Helical transitions
KW - pUC18 supercoiled DNA
KW - Topoisomer separation
KW - Z-DNA
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U2 - 10.1385/JMN:22:1-2:19
DO - 10.1385/JMN:22:1-2:19
M3 - Article
C2 - 14742907
AN - SCOPUS:3042743587
SN - 0895-8696
VL - 22
SP - 19
EP - 31
JO - Journal of Molecular Neuroscience
JF - Journal of Molecular Neuroscience
IS - 1-2
ER -