Identification of Potent Leads for Human cAMP Dependent Protein Kinase Catalytic Subunit Alpha: A Strategic Application of Virtual Screening for Cancer Therapeutics

• Published in: Nature precedings
• Main Authors: Swargam, Sandeep, Pradhan, Dibyabhaba, Umamaheswari, Amineni
• Format: Journal Article
• Language: English
• Published: 15.09.2010
• ISSN: 1756-0357; 1756-0357
• DOI: 10.1038/npre.2010.4903.1

Abstract The advancement in therapeutic applications focused on specific macromolecular compounds of deregulated cell signaling pathways bestowed novel approach to design the ligands as drug molecules against several life threatening diseases such as Cancer. In humans, protein kinase A is one of the important kinases those were involved in cell signaling mechanism. cAMP, G-proteins and ATP molecules were required for activation of protein kinase A (PKA), upon activation, PKA catalytic subunits (PRKACA,PRKACB and PRKACG) undergoes many cellular functions like cell proliferations, cell cycle regulation, and survival of cells through acting on many substrates. Overexpression of extracellular cAMP dependent protein kinase A catalytic subunits (PRKACA) causes severe tumorgenesis in different organs (prostate gland, breast, lungs and pancreas) leading to cancer. High throughput virtual screening was implemented herein to identify the potent leads for human PRKACA that stimulates chronic form of cancers. In silico functional and phylogenetic analysis of PRKACA protein provided enough evidences towards its cancer stimulating nature. The human PRKACA crystal structure in complex with inhibitor ‘796’ (PDB ID: 2GU8) was optimized in Maestro v9.0 and the amino acid residues constituting inhibitor interaction site were determined. Fifteen published inhibitors were selected including HA1077, Flavopiridol, Roscovitine, MLN-518, PP2 and Gleevec which were already in clinical trials for high throughput screening at Ligand.Info database. An in house library of 5388 compounds was designing from the above screening procedure were prepared in LigPrep for molecular docking with human PRKACA. Maestro Glide docking from lesser to higher stringency towards minor steric classes were applied subsequently to the prepared ligand dataset against a grid around centroid of the identified inhibitor interaction site of human PRKACA and 21 lead molecules with good docking scores were obtained. Lead ‘1’ (Leptosidin) with relatively least docking score (-11.02 Kcal/mol) compared to other 20 lead molecules and 15 published inhibitors delineates it as potentially the best competitive inhibitor among all. The promising inhibitory activity of Leptosidin is further supported from analysis of binding orientations of human PRKACA- Leptosidin complex deciphering the Lead 1 blocks the active site residues Thr51, Glu121, Val123, Glu127 and Thr183 by forming hydrogen bond. Thus, Leptosidin could be futuristic perspective chemical compound to design drug molecule against human PRKACA in numerous cancers, however, further in vitro and in vivo studies were required to verify the computational strategic prediction of PKA holoenzyme against cancer therapeutics.