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Journal of Biomolecular Structure and Dynamics Volume 35, 2017 - Issue 10
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Research Articles

Structural insight into GRIP1-PDZ6 in Alzheimer’s disease: study from protein expression data to molecular dynamics simulations

Paulami ChatterjeeDepartment of Biophysics, Bose Institute, Acharya J.C. Bose Centenary Building, P-1/12 C.I.T Scheme VII M, Kolkata700054, India
&
Debjani RoyDepartment of Biophysics, Bose Institute, Acharya J.C. Bose Centenary Building, P-1/12 C.I.T Scheme VII M, Kolkata700054, IndiaCorrespondence[email protected]
Pages 2235-2247 | Received 19 Apr 2016, Accepted 13 Jul 2016, Published online: 01 Aug 2016
 
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Abstract

Protein–protein interaction domain, PDZ, plays a critical role in efficient synaptic transmission in brain. Dysfunction of synaptic transmission is thought to be the underlying basis of many neuropsychiatric and neurodegenerative disorders including Alzheimer’s disease (AD). In this study, Glutamate Receptor Interacting Protein1 (GRIP1) was identified as one of the most important differentially expressed, topologically significant proteins in the protein–protein interaction network. To date, very few studies have analyzed the detailed structural basis of PDZ-mediated protein interaction of GRIP1. In order to gain better understanding of structural and dynamic basis of these interactions, we employed molecular dynamics (MD) simulations of GRIP1-PDZ6 dimer bound with Liprin-alpha and GRIP1-PDZ6 dimer alone each with 100 ns simulations. The analyses of MD simulations of Liprin-alpha bound GRIP1-PDZ6 dimer show considerable conformational differences than that of peptide-free dimer in terms of SASA, hydrogen bonding patterns, and along principal component 1 (PC1). Our study also furnishes insight into the structural attunement of the PDZ6 domains of Liprin-alpha bound GRIP1 that is attributed by significant shift of the Liprin-alpha recognition helix in the simulated peptide-bound dimer compared to the crystal structure and simulated peptide-free dimer. It is evident that PDZ6 domains of peptide-bound dimer show differential movements along PC1 than that of peptide-free dimers. Thus, Liprin-alpha also serves an important role in conferring conformational changes along the dimeric interface of the peptide-bound dimer. Results reported here provide information that may lead to novel therapeutic approaches in AD.

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Acknowledgment

The authors would like to thank the Department of Biophysics, Bose Institute, Kolkata.

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