c-Met-IN-10 (compound 26a) is a highly potent c-Met kinase inhibitor with an IC50 value of 16 nM. c-Met-IN-10 has inhibitory activity against cancer cells A549, H460 and HT-29 with IC50s of 0.56 ~ 1.59 μM. c-Met-IN-10 suppresses the colony formation on HT-29 cells, induces HT-29 and A549 cells apoptosis, and inhibits A549 cells motility. c-Met-IN-10 can be used for researching anticancer[1].
Capmatinib (INC280; INCB28060) dihydrochloride is a potent, orally active, selective, and ATP competitive c-Met kinase inhibitor (IC50=0.13 nM). Capmatinib dihydrochloride can inhibit phosphorylation of c-MET as well as c-MET pathway downstream effectors such as ERK1/2, AKT, FAK, GAB1, and STAT3/5. Capmatinib dihydrochloride potently inhibits c-MET-dependent tumor cell proliferation and migration and effectively induces apoptosis. Antitumor activity. Capmatinib dihydrochloride is largely metabolized by CYP3A4 and aldehyde oxidase[1][2][3].
c-Met-IN-15 (compound S3) is a c-Met kinase inhibitor. c-Met-IN-15 inhibits c-Met kinase activity of 21.1% at the concentration of 10 μM[1].
Boditrectinib is a potent tyrosine kinase inhibitor. Boditrectinib serves as an antineoplastic agent. Boditrectinib is useful in the research of cancer, inflammation, neurodegenerative diseases and certain infectious diseases[1][2].
Dalmelitinib is an orally active selective c-Met kinase inhibitor (IC50: 2.9 nM) that binds to the ATP-binding region of c-Met. Dalmelitinib induces the phosphorylation of MET, partially or completely inhibits the phosphorylation of AKT and ERK. Dalmelitinib potently inhibits cancer cell (c-Met oncogene amplification) proliferation, and is used for the research of cancers like human non-small cell lung cancer (NSCLC)[1].
JNJ-38877605 is an ATP-competitive inhibitor of c-Met with IC50 of 4 nM, 600-fold selective for c-Met than 200 other tyrosine and serine-threonine kinases.IC50 value: 4 nM [1]Target: c-Metin vitro: JNJ-38877605 shows more than 600-fold selectivity for c-Met compared with more than 200 other diverse tyrosine and serine-threonine kinases and also potently inhibits HGF-stimulated and constitutively activated c-Met phosphorylation in vitro. [1] In EBC1, GTL16, NCI-H1993, and MKN45 cells, JNJ-38877605 (500 nM) leads to a significant reduction of phosphorylation of Met and RON, another key player in invasive growth [2]. A recent study shows that JNJ-38877605 is involved in modulating secretion of IL-8, GROa, uPAR and IL-6 in GTL16 cells [3]. in vivo: In mice bearing established GTL16 xenografts, JNJ-38877605, dosed orally with 40 mg/kg/day for 72 hours, results in a statistically significant decrease in the plasma levels of human IL-8 (from 0.150 ng/mL to 0.050 ng/mL) and GROα (from 0.080 ng/mL to 0.030 ng/mL). While concentrations of uPAR in the blood become reduced to more than 50% at the same dose [3].
SU 5616 is an organic compound. SU 5616 potentially modulates tyrosine kinase signal transduction, and regulates abnormal cell proliferation[1].
Altiratinib (DCC-2701) is a multi-targeted kinase inhibitor with IC50s of 2.7, 8, 9.2, 9.3, 0.85, 4.6, 0.83 nM for MET, TIE2, VEGFR2, FLT3, Trk1, Trk2, and Trk3 respectively.
JNJ-38877618 is a potent, highly selective, orally bioavailable Met kinase inhibitor with IC50s of 2 and 3 nM for wild type and mutant Met, respectively.
Cabozantinib-d4 is deuterium labeled Cabozantinib. Cabozantinib is a potent multiple receptor tyrosine kinases (RTKs) inhibitor that inhibits VEGFR2, c-Met, Kit, Axl and Flt3 with IC50s of 0.035, 1.3, 4.6, 7 and 11.3 nM, respectively.
ABN401 is a highly potent and selective ATP-competitive c-MET inhibitor with an IC50 value of 10 nM. ABN401 has cytotoxic activity against MET-addicted cancer cells. ABN401 can inhibit c-MET phosphorylation in tumor tissues. ABN401 can be used for researching anticancer[1].
AMG-337 is a potent and highly selective small molecule ATP-competitive MET kinase inhibitor. AMG 337 inhibits MET kinase activity with an IC50 of < 5nM in enzymatic assays.IC50 value: < 5nM [1]Target: METin vitro: AMG-337 demonstrates exquisite selectivity for MET when profiled against a diverse panel of over 400 protein and lipid kinases in a competitive binding assay. In cellular assays, AMG 337 inhibits HGF-dependent MET phosphorylation with an IC50 of < 10 nM. [1] AMG 337 is a selective inhibitor of Met, which inhibits multiple mechanisms of Met activation. [2]in vivo: AMG-337 demonstrates robust activity in MET-dependent cancer models. Oral administration of AMG 337 results in robust dose-dependent anti-tumor efficacy in MET amplified gastric cancer xenograft models, with inhibition of tumor growth consistent with the pharmacodynamic modulation of MET signaling.[1]
SAR125844 is a potent, highly selective, reversible and ATP-competitive MET receptor tyrosine kinase (RTK) inhibitor for intravenous administration, with an IC50 of 4.2 nM. Shows inhibition of MET autophosphorylation in cell-based assays[1].
Rilotumumab (AMG 102) is an anti-HGF (anti-hepatocyte growth factor) monoclonal antibody, inhibits HGF/MET-driven signaling. Rilotumumab shows anti-tumor activity, and can be used in castration-resistant prostate cancer (CRPC) and solid tumor research[1][2].
(Z)-Semaxanib (compound (z)-1) is a potent tyrosine kinase inhibitor. (Z)-Semaxanib shows cytotoxicity for TAMH and HepG2 cells with IC50s of 6.28 µM and 8.17 µM, respectively[1].
2-Phospho-L-ascorbic acid trisodium salt acts as an antioxidant and a stimulator of hepatocyte growth factor (HGF) production.
Davutamig (REGN-5093) is a humanized immunoglobulin G4-kappa, anti-MET monoclonal antibody targeting two different nonoverlapping epitopes on MET. Davutamig is an antineoplastic[1].
OSI-296 is a potent and dual inhibitor of cMET and RON kinases (IC50 value are 42 nM and 200 nM for cMet and sfRon respectively) . OSI-206 shows in vivo efficacy and is well tolerated in tumor xenografts models upon oral dosing. OSI-296 also reduces tumour growth in the bone.
Ficlatuzumab is a monoclonal antibody (McAb) targeting human hepatocyte growth factor (HGF). Ficlatuzumab blocks the activation of the HGF/c-Met signaling pathway, and inhibits c-Met receptor-mediated cancer cell proliferation, migration, and invasion[1].
Ensartinib hydrochloride (X-396 hydrochloride) is a potent and dual ALK/MET inhibitor with IC50s of <0.4 nM and 0.74 nM, respectively.
SGX-523 is a selective Met inhibitor with IC50 of 4 nM, no activity to BRAFV599E, c-Raf, Abl and p38α.IC50 value: 4 nM [1]Target: Metin vitro: SGX-523 belongs to the class of c-Met/hepatocyte growth factor receptor (HGFR) tyrosine kinase inhibitors. SGX-523 stabilizes MET in a unique inactive conformation that is inaccessible to other protein kinases, suggesting an explanation for its selectivity. SGX523 potently inhibits the purified MET catalytic domain but not the closely related receptor tyrosine kinase RON. SGX523 indicates ATP-competitive inhibition with higher apparent affinity for the less active, unphosphorylated form of MET [MET-KD(0P), with a Ki of 2.7 nM] versus the more active phospho-enzyme [MET-KD(3P), with a Ki of 23 nM], a phenomenon consistent with preferential binding to an inactive enzyme conformation. SGX523 inhibits MET-mediated signaling, cell proliferation and cell migration at nanomolar concentrations but had no effect on signaling dependent on other protein kinases, including the closely related RON, even at micromolar concentrations [1].in vivo: SGX523 significantly retards the growth of preestablished GTL16 tumors when administered orally at doses of ≥10 mg/kg twice daily. SGX523 potently inhibits U87MG tumor growth; at 30 mg/kg dosed twice daily, SGX523 leads to clear regression of U87MG tumors. SGX523, dosed twice daily at 30 mg/kg, also retards the growth of H441 tumors with concomitant reduction in tumor MET autophosphorylation levels. SGX523 inhibition of MET in vivo is associated with the dose-dependent inhibition of growth of tumor xenografts derived from human glioblastoma, lung and gastric cancers, confirming the dependence of these tumors on MET catalytic activity [1].
Terevalefim (ANG-3777), an hepatocyte growth factor (HGF) mimetic, selectively activates the c-Met receptor[1][2].
Tunlametinib, an antineoplastic agent, is a tyrosine kinase inhibitor[1].
Norleual is an angiotensin IV analog. Norleual is a highly potent HGF/c-MET inhibitor (IC50=3 pM). Norleual inhibits HGF-induced MDCK cell proliferation and invasion in vitro. Norleual also is an AT4 receptor antagonist; disrupts LTP stabilization. Antiangiogenic.
Zongertinib is a potent tyrosine kinase inhibitor. Zongertinib can be used as an antineoplastic agent. Zongertinib also has been tested as pHER2 and EGFR inhibitor inhibiting a wide variety of cancers[1][2].
LMTK3-IN-1 (compound C28) is an ATP-competitive inhibitor of lemur tyrosine kinase 3 (LMTK3) (Kd=2.5 μM),that acts by degrading LMTK3 via the ubiquitin-proteasome pathway. LMTK3-IN-1 shows anticancer activity in a variety of cancer cell lines and in vivo BC mouse models. LMTK3-IN-1 induces apoptosis in BC cell lines at 10-20 μM[1].
MET kinase-IN-4 is an orally active Met kinase inhibitor. MET kinase-IN-4 has potent Met kinase inhibitory activity with an IC50 value of 1.9 nM. MET kinase-IN-4 can be used for the research of cancer[1].
c-Met-IN-12 (compound 4r) is an orally active, potent and selective type II c-Met kinase inhibitor, with an IC50 of 10.6 nM. c-Met-IN-12 displays high inhibitory effects (inhibition rate > 80% in 1 μM) against AXL, Mer and TYRO3 kinases. c-Met-IN-12 can be used a scaffold for further kinase selectivity enhancement. c-Met-IN-12 shows antitumor efficacy[1].
MK8033 Hcl is a novel and specific dual ATP competitive c-Met/Ron inhibitor (IC50=1 nM Wt c-Met) under investigation as a treatment for cancer.IC50 Value: 1 nM (Wt c-Met); 2.0 nM (c-Met N1100Y) [1]Target: c-Metin vitro: MK-8033 binds 3-fold more tightly to phosphorylated c-Met kinase domain (Kd= 3.2 nM) than to its unphosphorylated counterpart (Kd = 10.4 nM). Signigicantly, MK-8033 potently inhibits kinase activity of three oncogenic c-Met activation loop mutants, Y1230C, Y1230H, and Y1235D (IC50s ranging from 0.6 to 1 nM at 50 uM ATP) in addition to other c-Met activating mutants N1100Y and M1250T. MK-8033 potently inhibited GTL-16 proliferation with an IC50 of 582 ± 30 nM. By contrast the HCT116 cell line, which does not harbor basal c-Met activation, was not inhibited by MK-8033 (IC50 > 10000 nM) [1]. MK-8033 radiosensitized the high-c-Met-expressing EBC-1 and H1993 cells but not the low-c-Met-expressing cell lines A549 and H460. However, irradiation of A549 and H460 cells increased the expression of c-Met protein at 30 minutes after the irradiation. Subsequent targeting of this up-regulated c-Met by using MK-8033 followed by a second radiation dose reduced the clonogenic survival of both A549 and H460 cells. MK-8033reduced the levels of radiation-induced phosphorylated (activated) c-Met in A549 cells [2].in vivo: MK-8033 was orally dosed in GTL-16 tumor xenograft bearing mice. Mice were euthanized 1 h after dosing and tested for p-Met (Y1349) in tumors and MK-8033 concentrations in plasma. At 100 mg/kg,essentially complete inhibition of p-Met (Y1349) was achieved. An in vivo IC50 of 1.3 uM was deduced from the relationship between plasma MK-8033 level and Met pY1349. Treatment with escalating dosed of MK-8033 for 21 days lead to antitumor efficacies in a dose-dependent manner. Dosing at 3, 10, 30, and 100 mg/kg resulted in 22, 18, 57, and 86% tumor growth inhibition, respectively, relative to tumor from vehicle-treated mice.
c-Met-IN-11 (compound 3) is a potent c-MET and VEGFR-2 inhibitor, with IC50 values of 41.4 and 71.1 nM, respectively[1].