GRP78-targeted in-silico virtual screening of novel anticancer agents

Authors
Viswanath, Ambily Nath InduLim, Ji WoongSeo, Seon HeeLee, Jae YeolLim, Sang MinPae, Ae Nim
Issue Date
2018-08
Publisher
WILEY
Citation
CHEMICAL BIOLOGY & DRUG DESIGN, v.92, no.2, pp.1555 - 1566
Abstract
Overexpression GRP78 in a variety of cancers such as glioblastoma, leukemia, lung, prostate, breast, gastric, and colon makes it a prime target for anticancer drug development. Present study reports GRP78-based design of novel anticancer agents using in-silico methods. As a first step toward the work, the interactions between GRP78 and 15 known ligands were modeled by docking simulation. The docked complex, GRP78-13, superior to other compounds with respect to its experimental activity and energy descriptors, was deduced into a structure-based pharmacophore. This hypothesis was applied as a screening filter to Asinex and Chemdiv databases. Finally, 23 hits were tested in vitro. Among these, VH1019 and VH1011 induced a concentration-dependent strong broad antiproliferative effect in glioma (U87-MG), breast cancer (MCF-7), and prostate cancer (DU-145) cell lines as compared to non-tumorigenic control, neonatal foreskin fibroblast (HFF-1). These compounds showed preferential growth inhibition of cancer cells over normal cells. The acetohydrazide derivative VH1019 was identified as a potential new chemotype for GRP78 inhibitors with an IC50 of 12.7 mu M in MCF-7.
Keywords
UNFOLDED PROTEIN RESPONSE; GLUCOSE-REGULATED PROTEIN-78; STRESS CHAPERONE GRP78/BIP; PROSTATE-CANCER; CLINICAL-SIGNIFICANCE; CARCINOMA-CELLS; TERMINAL DOMAIN; ACTIVATION; EXPRESSION; APOPTOSIS; UNFOLDED PROTEIN RESPONSE; GLUCOSE-REGULATED PROTEIN-78; STRESS CHAPERONE GRP78/BIP; PROSTATE-CANCER; CLINICAL-SIGNIFICANCE; CARCINOMA-CELLS; TERMINAL DOMAIN; ACTIVATION; EXPRESSION; APOPTOSIS; anticancer agents; antiproliferation; GRP7S; in-silico design; structure -based pharmacophore; virtual screening
ISSN
1747-0277
URI
https://pubs.kist.re.kr/handle/201004/121121
DOI
10.1111/cbdd.13322
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KIST Article > 2018
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