Phosphoproteome-Entailed Kinase–Substrate Landscape of Human–DENV-2 Interaction
Ayisha A. Jabbar, Vineetha Shaji, Akash Anil, Mahammad Nisar, Sowmya Soman, Ganesh Prasad, Chandran S. Abhinand, Prashant Kumar Modi, Madathiparambil Gopalakrishnan Madanan, Abhithaj Jayanandan, Rajendra Pilankatta, Rajesh Raju

TL;DR
This study explores how human kinases interact with DENV-2 proteins, identifying potential therapeutic targets for treating dengue virus infections.
Contribution
The paper introduces a novel integration of phosphoproteomic data and kinase-substrate predictions to uncover host-directed therapeutic targets for DENV-2.
Findings
CDK9 is identified as a central hub kinase involved in DENV-2 infection.
Host kinases CDK9, EEF2K, HASPIN, and TNNI3K form stable interactions with viral proteins.
Predicted phosphorylation sites are conserved across DENV-2 strains.
Abstract
Dengue virus (DENV) is a mosquito-borne RNA virus that causes serious illness in humans, ranging from mild fever to severe clinical manifestations, with dengue virus type 2 (DENV-2) being the most virulent among its four serotypes. Despite extensive research, no specific antiviral therapy is currently available, making the host-directed method an appealing therapeutic approach. Evidence shows that DENV manipulates host kinase-driven phosphorylation pathways to control viral pathogenesis. Using the kinase–substrate phosphomotif approach, we predicted phosphorylation sites across the DENV proteome and their potential human kinases. The predicted kinase–substrate interactions were systematically integrated with DENV-2-induced human phosphoproteome datasets, protein–protein interactions, and experimentally-validated viral phosphosites. The therapeutic relevance of the identified host…
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Taxonomy
TopicsMosquito-borne diseases and control · Bioinformatics and Genomic Networks · Computational Drug Discovery Methods
