Interaction study of peptide-PAMAM as potential bio-nanogate for detecting anti-hepatitis B surface antigen

[Display omitted] •The fusion of aD peptide with MBP is specific towards anti-HBsAg.•Higher interaction of anti-HBsAg with MBP-aD is due to the recognition of aD.•PAMAM G4 interacts with MBP-aD through van der Waals and hydrogen bonding.•Higher interaction of anti-HBsAg towards MBP-aD may displace P...

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Published in:Colloids and surfaces, B, Biointerfaces B, Biointerfaces, 2020-01, Vol.185, p.110623-110623, Article 110623
Main Authors: Syamila, Noor, Syahir, Amir, Ikeno, Shinya, Tan, Wen Siang, Ahmad, Haslina, Ahmad Tajudin, Asilah
Format: Article
Language:English
Subjects:
Anti-HBsAg
Bio-nanogate
MBP-aD
PAMAM G4
Peptide-PAMAM
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Summary:[Display omitted] •The fusion of aD peptide with MBP is specific towards anti-HBsAg.•Higher interaction of anti-HBsAg with MBP-aD is due to the recognition of aD.•PAMAM G4 interacts with MBP-aD through van der Waals and hydrogen bonding.•Higher interaction of anti-HBsAg towards MBP-aD may displace PAMAM G4 from MBP-aD. Bio-nanogate involves synthesized or natural molecules as a ‘gate’ towards bioreceptors and responds upon the presence of targeted analytes in nanoscale dimension. Development of bio-nanogate improves analyte selectivity and signal response across various types of biosensors. The versatility of PAMAM dendrimers to form conjugates with guest molecules, such as proteins can be utilized in forming a bio-nanogate. PAMAM interaction with peptide bioreceptor for antibody detection is of interest in this study. This study investigated the interaction of synthesized immunogenic ‘a’ determinant (aD) region of hepatitis B virus surface antigen (HBsAg) with PAMAM G4 and anti-HBsAg antibody, as a potential bio-nanogate for anti-HBsAg detection. The aD peptide fused with maltose binding protein (MBP), was confirmed with Western blotting. Nano-Differential Scanning Fluorimetry (nano-DSF) study revealed that the interaction of MBP-aD with anti-HBsAg indicated a higher thermal stability as compared to its interaction with PAMAM G4. Electrochemical impedance spectroscopy showed that a higher binding constant of MBP-aD interaction with anti-HBsAg (0.92 μM−1) was observed at maximum saturation, as compared with PAMAM G4 (0.07 μM−1). Thermodynamic parameters demonstrated that MBP-aD interacted with anti-HBsAg and PAMAM G4, through van der Waals and hydrogen bonding. These analyses suggest that the weak interaction of MBP-aD and PAMAM G4 may form a potential bio-nanogate. It is hypothesized that the presence of anti-HBsAg has a higher affinity towards MBP-aD which may displace PAMAM G4 in the anti-HBsAg detection system. This interaction study is crucial as an initial platform of using peptide-PAMAM as a bio-nanogate in an antibody detection system.
ISSN:0927-7765
1873-4367
DOI:10.1016/j.colsurfb.2019.110623