| Abstract: | Dishevelled (Dvl) is an essential protein in the Wnt signaling pathways; it uses its PDZ domain to transduce the Wnt signals from the membrane receptor Frizzled to downstream components. Here, we report identifying a drug-like small molecule compound through structure-based ligand screening and NMR spectroscopy and show the compound to interact at low micromolar affinity with the PDZ domain of Dvl. In a Xenopus testing system, the compound could permeate the cell membrane and block the Wnt signaling pathways. In addition, the compound inhibited Wnt signaling and reduced the levels of apoptosis in the hyaloid vessels of eye. Moreover, this compound also suppressed the growth of prostate cancer PC-3 cells. These biological effects suggest that by blocking the PDZ domain of Dvl, the compound identified in our studies effectively inhibits the Wnt signaling and thus provides a useful tool for studies dissecting the Wnt signaling pathways.The Wnt signaling pathways are regulated by a family of secreted Wnt glycoproteins. The canonical Wnt pathway, which is highly conserved, is best understood. In this pathway, Wnt molecules interact with the seven-transmembrane Frizzled (Fz)2 proteins (1) by binding to an N-terminal cysteine-rich-domain (2). The signal is then transduced into the cell through an internal sequence of Fz, C-terminal to the seventh transmembrane domain, which binds directly to the PDZ (postsynaptic density-95/discs large/zonula occludens-1) domain of the cytoplasmic protein Dishevelled (Dvl) (3). Dvl then transduces the Wnt signals to downstream components (4). Three Dvl homologs (Dvl-1, -2, and -3) have been identified in humans; all are expressed in both embryonic and adult tissues, including brain, heart, lung, kidney, skeletal muscle, and others (4). Up-regulation and overexpression of Dvl proteins have been reported in many cancers, including those of breast, colon, prostate, mesothelium, and lung (non-small cell) (5–8).The Dvl protein is made up of three conserved domains: an N-terminal DIX domain, a central PDZ domain, and a C-terminal DEP domain (9). The central PDZ domain is of particular interest because of its interaction with Fz and other Wnt pathway proteins (3, 10). The direct interaction between the PDZ domain and Fz peptides is relatively weak, and other factors may play a role to ensure the communication between the two molecules (3). For example, several studies suggest that the DEP domain of Dvl has a membrane-targeting function that may facilitate PDZ-Fz interaction (11–14). However, the weak PDZ-Fz interaction provides an opportunity to block Wnt signaling at the Dvl level by using a small molecule inhibitor. An earlier study in our laboratories used an NMR-assisted virtual ligand screening approach to identify a peptide mimic that can bind to the Dvl PDZ domain (15). We have now used an improved algorithm to conduct an additional structure-based virtual screen of the PDZ domain of Dvl and have discovered a group of drug-like compounds that bind to the PDZ domain with moderate to low micromolar affinity. One of these compounds effectively blocked Wnt signaling in vivo and reduced the growth rate of a prostate cancer cell line. |
