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CAS NO. |
Products Name |
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2097381-85-4 |
VH298 |
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VH-298 is a highly potent inhibitor of the VHL:HIF-α interaction with a Kd value of 80 to 90 nM, used in PROTAC technology. |
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300657-03-8 |
BMS309403 |
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BMS-309403 is a potent, selective and cell-permeable inhibitor of fatty acid binding protein 4 (FABP4) with a Ki of less than 2 nM. |
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1346242-81-6 |
Erdafitinib |
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Erdafitinib (JNJ-42756493) is a potent and orally available FGFR family inhibitor; inhibits FGFR1-4 with IC50 values of 1.2, 2.5, 3.0 and 5.7nM, respectively. |
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1123838-51-6 |
Glesatinib |
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Glesatinib hydrochloride is an inhibitor of the MET and Axl receptor tyrosine kinase pathways, which drive tumour growth when altered. Target: MET, Axl Glesatinib is an orally bioavailable, small-molecule, multitargeted tyrosine kinase inhibitor with potential antineoplastic activity. MGCD265 binds to and inhibits the phosphorylation of several receptor tyrosine kinases (RTKs), including the c-Met receptor (hepatocyte growth factor receptor); the Tek/Tie-2 receptor; vascular endothelial growth factor receptor (VEGFR) types 1, 2, and 3; and the macrophage-stimulating 1 receptor (MST1R or RON). Glesatinib is a tyrosine kinase inhibitor that is expected to potently and selectively target tumors in patients with driver alterations in MET (mutations and gene amplification) and Axl (rearrangements) that occur in approximately 8% of patients with non-small cell lung cancer (NSCLC). Glesatinib is being evaluated in a Phase 1b study in patients with solid tumors that have genetic alterations in MET or AXL genes. The Phase 2 trial in NSCLC patients with MET genetic alterations is underway to confirm and extend the data that supports the clinical benefit of Glesatinib in patients with driver mutations in MET. Genetic alterations in these targets have been implicated as drivers of tumor growth and disease progression in NSCLC, gastroesophageal cancer and other solid tumors. MET and Axl are also implicated as drivers of tumor progression in patients whose tumors have become resistant to EGFR inhibitors. Therefore, Mirati believes that the combination of Glesatinib with an EGFR inhibitor could potentially treat patients who have become resistant to agents targeting EGFR. Mirati retains worldwide rights to Glesatinib |
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1013101-36-4 |
PF-04691502 |
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PF-04691502 is a potent and selective inhibitor of PI3K and mTOR kinases with antitumor activity. PF-04691502 inhibits human and mouse PI3Kα with Ki of 1.8 and 1.2 nM, respectively, human PI3K isoforms β, δ, and γ with Ki of 2.1, 1.6, and 1.9 nM, respectively, and human mTOR with Ki of 16 nM. |
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169869-90-3 |
Exatecan Mesylate |
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Exatecan Mesylate (DX-8951) is a totally synthetic analogue of the topoisomerase I-inhibitor camptothecin, which was synthesised to impart increased aqueous solubility, greater tumour efficacy, and less toxicity than camptothecin itself. IC50 value: Target: topoisomerase I Exatecan was given as i.v. infusion over 30 min at a dose of 0.5mg/m2 every day for five consecutive days, repeated every 21 days. Seventy-four percentage of cycles could be given without dose or schedule modification. The main toxicity was haematotoxicity with grade 3/4 neutropenia in 49%, grade 3/4 thrombocytopenia in 23%, and grade 3/4 anaemia in 15% of patients, respectively [1]. The most common drug-related toxicity was neutropenia. Non-hematologic toxicities were mostly mild to moderate; the most common were nausea, vomiting and anorexia. Plasma concentrations of DX-8951 (the anhydrous form of DX-8951f) were well described using a linear 2-compartment PK model. All concentrations and dose events were simultaneously modeled and explained by the population PK model. There was no evidence of non-linearity in the elimination PK, auto-inhibition or induction of DX-8951 clearance over the five days of administration [2]. Thirty-one patients were treated with 100 courses of exatecan at 6 dose-schedule levels. The incidence of the principal dose-limiting toxicities, neutropenia and thrombocytopenia, was unacceptably high at exatecan doses exceeding 0.15 mg/m(2)/day as a 21-day CIVI, which was determined to be the MTD for both MP and HP patients [ |
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1345982-69-5 |
GSK2330672 |
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GSK2330672 is a highly potent, nonabsorbable ASBT(apical sodium-dependent bile acid transporter) inhibitor (hASBT IC50=42 ± 3 nM) which lowers glucose in an animal model of type 2 diabetes and shows excellent developability properties for evaluating the potential therapeutic utility of a nonabsorbable ASBT inhibitor for treatment of patients with type 2 diabetes. IC50 value: 42 ± 3 nM [1] Target: hASBT in vitro: GSK2330672 is a highly potent, nonabsorbable ASBT inhibitor with excellent aqueous solubility, selectivity, and developability properties for evaluation in safety studies and ultimately humans. GSK2330672 will be a valuable clinical tool for exploring the therapeutic utility of a nonabsorbable ASBT inhibitor for treatment of patients with type 2 diabetes.[1] in vivo: GSK2330672 results in potent inhibition of ASBT and very low oral absorption in the rat. GSK2330672 shows potent mouse and rat ASBT activity and was stable in GI stability assays. GSK2330672 is stable in the rodent GI tract and potently induced fecal bile acid excretion in mice, leading us to select these three compounds for mechanistic and efficacy studies in vivo in lean rats and Zucker Diabetic Fatty (ZDF) rats, respectively.[1 |
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1123837-84-2 |
Sitravatinib |
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Sitravatinib is a novel small molecule inhibitor targeting multiple RTKs involved in driving sarcoma cell growth with IC50 of 3980 nmol/L in vitro: MGCD516 is superior to other multi-kinase inhibitors in inhibiting cell proliferation, RTK phosphorylation, and phosphorylation of downstream effectors. MGCD516 is unique in a way that it has broad spectrum activity against many RTKs including c-Met, c-Kit, Axl, PDGFR, and Eph receptors that are known to play a role in driving sarcoma cell growth In vivo: MGCD516 induces significant tumor growth suppression than imatinib and crizotinib. |
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