Topological sub-structural molecular design (TOPS-MODE): a useful tool to explore key fragments of human A3 adenosine receptor ligands.
Liane Saíz-UrraMarta TeijeiraVirginia Rivero-BucetaAliuska Morales HelgueraMaria CeleiroMa Carmen TeránPedro BesadaFernanda BorgesPublished in: Molecular diversity (2015)
Adenosine regulates tissue function by activating four G-protein-coupled adenosine receptors (ARs). Selective agonists and antagonists for A3 ARs have been investigated for the treatment of a variety of immune disorders, cancer, brain, and heart ischemic conditions. We herein present a QSAR study based on a Topological sub-structural molecular design (TOPS-MODE) approach, intended to predict the A3 ARs of a diverse dataset of 124 (94 training set/ 30 prediction set) adenosine derivatives. The final model showed good fit and predictive capability, displaying 85.1 % of the experimental variance. The TOPS-MODE approach afforded a better understanding and interpretation of the developed model based on the useful information extracted from the analysis of the contribution of different molecular fragments to the affinity.
Keyphrases
- protein kinase
- endothelial cells
- single molecule
- heart failure
- papillary thyroid
- signaling pathway
- molecular docking
- cerebral ischemia
- healthcare
- mass spectrometry
- molecular dynamics
- oxidative stress
- atrial fibrillation
- young adults
- smoking cessation
- resting state
- atomic force microscopy
- high resolution
- virtual reality
- subarachnoid hemorrhage