Abstract
The sonic hedgehog (Shh) signaling pathway is necessary for a variety of development and differentiation during embryogenesis as well as maintenance and renascence of diverse adult tissues. However, an abnormal activation of the signaling pathway is related to various cancers. In this pathway, the Shh signaling transduction is facilitated by binding of Shh to its receptor protein, Ptch. In this study, we modeled the 3D structure of functionally important key loop peptides of Ptch based on homologous proteins. Using this loop model, the molecular interactions between the structural components present in the pseudo-active site of Shh and key residues of Ptch was investigated in atomic level through molecular dynamics (MD) simulations. For the purpose of developing inhibitor candidates of the Shh signaling pathway, the Shh pseudo-active site of this interface region was selected as a target to block the direct binding between Shh and Ptch. Two different structure-based pharmacophore models were generated considering the key loop of Ptch and known inhibitor-induced conformational changes of the Shh through MD simulations. Finally two hit compounds were retrieved through a series of virtual screening combined with molecular docking simulations and we propose two hit compounds as potential inhibitory lead candidates to block the Shh signaling pathway based on their strong interactions to receptor or inhibitor induced conformations of the Shh.
Highlights
The sonic hedgehog (Shh) signaling pathway is critical for embryonic development and differentiation, patterning of several tissues, and stem cell renewal [1,2]
In order to study the function of human Ptch1 L2-like loop against human Shh pseudo-active site, a structure of human Ptch1 L2-like loop (PL2) was modeled based on the 3D structure of Hhip loop 2 (Hhip L2) in place of a full-length Ptch structure and this model was refined in the Shh-bound state through 2 ns molecular dynamics (MD) simulations
An aspartic acid of the PL2 corresponding to the E381 of Hhip L2 has coordinated with the calcium ion while simultaneously another aspartic acid of the PL2 corresponding to the D383 of Hhip L2 anchored to the zinc ion
Summary
The sonic hedgehog (Shh) signaling pathway is critical for embryonic development and differentiation, patterning of several tissues, and stem cell renewal [1,2]. Activity of the Shh signaling is important for maintenance and improvement of coronary vasculature, and proliferation of stem cells in adult, but reversely the aberrant reactivation leads to basal cell carcinoma, myeloid leukemia, and rhabdomyosarcoma [3,4,5,6]. This pathway is related to carcinomas of foregut such as esophagus, stomach, pancreas, and biliary tract as well as small lung cancer and neoplasia of prostate [7]. These autoprocessing and lipid modification are probably responsible to strict membraneassociation of the Shh [12]
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