Table 1.
PRL inhibitors.
| Inhibitor | Potency and selectivity | Discovery | Cellular efficacy | Reference |
|---|---|---|---|---|
| Pentamidine | Similar activity against PRL-1/2/3: IC50 < 0.277 μg/ml using peptide substrate; also shows activity against other phosphatases. | The clue comes from that pentamidine has similar anti-leishmania action as SSG, which has anti-cancer activity via inhibiting PTPs. | Inhibits growth of five human cancer cell lines with PRL expression within the concentration ranges 0.3-5 μg/ml; inhibits growth of WM9 human melanoma tumors in nude mice and results in tumor necrosis. | (Pathak et al., 2002) |
| Thienopyridone | PRL-1: IC50 = 173 nM PRL-2: IC50 = 277 nM PRL-3: IC50 = 128 nM Shows selectivity over 11 other PTPs using DiFMUP substrate. |
High-throughput screening of the Roche chemical library to search for molecules that inhibits PRL phosphatase activity using peptide substrate. | Induce p130Cas cleavage and apoptosis in Hela and RKO cells; inhibits anchorage-independent growth in RKO and HT-29 cells; inhibits HUVEC cells migration but not proliferation. | (Daouti et al., 2008) |
| Iminothienopyridinedione 13 (JMS-053) | PRL-1: IC50 = 50 nM PRL-2: IC50 = 53 nM PRL-3: IC50 = 18 nM Minimal effect on 25 other phosphatases at 1 μM using DiFMUP substrate. |
Identified during the process of SAR study of thienopyridone to increase its stability and reduce its potential toxicity. | Inhibit migration, spheroid growth and RhoA activity in human ovarian cancer cells; reduce growth of drug-resistant ovarian cancer in a murine xenograft model. | (McQueeney et al., 2018; Salamoun et al., 2016) |
| Rhodanine and its derivatives | Inhibit human PRL-3 activity with IC50 range 0.9-9.5 μM; compound 5e is the most active one with IC50 0.9 μM against PRL-3; not tested on other PRLs and PTPs (DiFMUP). | Rhodanine skeleton was identified by high throughput screening of chemical library of Korean Chemical Bank and 14 derivatives were synthesized for SAR study. | Compound 5e reduces invasiveness of B16F10 cells in vitro. | (Ahn et al., 2006) |
| CG-707 and BR-1 | Inhibit human PRL-3 activity: CG-707: IC50 = 0.8 μM BR-1: IC50 = 1.1 μM Minimal effects on 9 other PTPs (DiFMUP). Suppress cancer cell migration: CG-707: IC50 = 5 μM BR-1: IC50 = 7 μM |
Using cell-based assay to screen rhodanine derivatives. | Inhibit the migration and invasion of cancers that express PRL-3 without affecting proliferation; change the expression of EMT markers. | (Min et al., 2013) |
| Analog 3 | Inhibit human PRL-3 activity PRL-3: IC50 = 31 μM. Shows acceptable selectivity against PTP1B, TCPTP and VHR and no selectivity against PRL-1 and PRL-2 (DiFMUP). | Ligand based virtual screening of Zinc database combined with SAR study and biochemical screening. | Specifically inhibits migration of cells that express PRLs in a dose-dependent manner and does not affects proliferation of HEK cells at 50 μM. | (Hoeger et al., 2014) |
| Compound-43 and several analogs. | Not phosphatase inhibitors, Trimerization disruptors 30 mg/kg cmpd-43 inhibits melanoma xenograft tumor growth; ~2 μM cmpd-43 suppress 50% MeWo cells survival | Sequential structure-based virtual screening of compounds of Asinex and ChemBridge subsets in the ZINC database. | Specifically inhibit cell proliferation and migration of PRL-1 overexpressing cells; suppress MeWo cells proliferation and migration, inhibit melanoma xenograft tumor growth. | (Bai et al., 2016) |
| Curcumin | Inhibit human PRL-3 activity PRL-3: IC50 = 31 μM Shows acceptable selectivity against PTP1B, TCPTP and VHR and no selectivity against PRL-1 and PRL-2 | Extracted from spice turmeric, has been known to be able to induce apoptosis of cancer cells and suppress cell migration and angiogenesis. | Inhibits mRNA expression of PRL-3 and partial PRL-2; specifically inhibits adhesion and migration of cancer cells with high PRL-3 expression; inhibits growth and metastasis of xenograft tumors in mice. | (L. Wang et al., 2009) |
| Ginkgetin and sciadopitysin | Inhibited PRL-3 activity: gfinkgetin: IC50 = 50 μM sciadopitysin: IC50 = 25.8 μM Not tested on other PTPs and PRLs |
Bioflavonoids identified in the MeOH extract of the young branches of Taxus cuspidata | Reduce invasiveness of B16F10 cells in vitro | (Choi et al., 2006) |
| Natural anthraquinone compounds: compound 1 and 2 | Inhibited PRL-3 activity: Compound 1: IC50 = 5.2 μg/ml Compound 2: IC50 = 1.3 μg/ml. Not tested on other PRLs and PTPs. |
Extracted from the roots of Rubia akane. | Compound 2 was shown to inhibit migration of DLD-1 cells but not proliferation. | (Moon et al., 2010) |
| PRL-1 and PRL-3 mAb (mouse); Chimeric mouse and human PRL-3 mAb; PRL-3-zumab | High selectivity: PRL-1 and PRL-3 mAb only prevents metastatic tumor formation of cells that express respective PRL. PRL-3-zumab is more potent than 5-FU, a first-line chemotherapeutic drug for gastric cancer. |
Generated using hybridoma technology and their specificity was confirmed. | Efficiently and specifically block metastatic tumors formation of cells overexpressing PRL; also inhibit tumor formation of cancer cells expressing endogenous PRL; prevents recurrence of PRL-3 positive tumors after surgery. | (Guo et al., 2012; Ke Guo et al., 2008; Thura et al., 2016 |