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CC-90003 Sale

目录号 : GC32900

CC-90003 is an irreversible inhibitor of ERK1/2 with IC50s in the 10-20 nM range and shows good kinase selectivity in a 258-kinase biochemical assay.

CC-90003 Chemical Structure

Cas No.:1621999-82-3

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10mM (in 1mL DMSO)
¥1,178.00
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5mg
¥1,071.00
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10mg
¥1,696.00
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25mg
¥3,392.00
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50mg
¥6,158.00
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100mg
¥10,710.00
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产品描述

CC-90003 is an irreversible inhibitor of ERK1/2 with IC50s in the 10-20 nM range and shows good kinase selectivity in a 258-kinase biochemical assay.

In biochemical, cellular, and mass spectrometry assays of 347 kinases, CC-90003 was found to strongly inhibit kinase activities of ERK1 and ERK2 with IC50s in the 10 to 20 nmol/L range and had good kinase selectivity. In a 258-kinase biochemical assay panel, significant inhibition of 213 kinases (<50% inhibition), moderate inhibition of 28 kinases (50%–80% inhibition), and >80% inhibition of 17 kinases by CC-90003 were found. In an ActivX cellular kinase screening using A375 BRAF V600E-mutant melanoma cell line, only 5 of 194 kinases (ERK1, ERK2, MKK4, MKK6, and FAK) were inhibited by >80% at 1 mmol/L of CC-90003. At the same concentration, no significant inhibition (<14%) was found in a Cerep panel of 40 nonkinase enzymes and receptors. Through our iterative analyses, only 3 kinases, in addition to ERK1/2, were inhibited in cells at biologically relevant concentrations: KDR, FLT3, and PDGFRa. Tumors with BRAF mutations were particularly sensitive to CC-90003. In many, but not all cases, CC-90003 had cytotoxic effects in KRAS-mutant PDAC, lung cancer, and colorectal cancer cell lines. CC-90003 does not significantly inhibit proliferation of normal lung fibroblasts or bronchial epithelial cells[1].

In in vivo studies of an HCT-116 xenograft model, CC-90003 was well tolerated at a range of doses (12.5 mg b.i.d.-100 mg qd), although doses of 50 mpk b.i.d. and 75 mpk b.i.d. group caused mortality by days 6 to 18 of study. Both dosing schedules (qd and b.i.d.) leads to tumor growth inhibition. CC-90003 inhibits tumor growth in vivo of three KRAS-mutant PDX models[1].

[1] Aronchik I, et al. Mol Cancer Res. 2018, doi: 10.1158/1541-7786.MCR-17-0554.

Chemical Properties

Cas No. 1621999-82-3 SDF
Canonical SMILES C=CC(NC1=CC(C)=CC=C1NC2=NC(NC3=CC(OC)=NC=C3C)=NC=C2C(F)(F)F)=O
分子式 C22H21F3N6O2 分子量 458.44
溶解度 DMSO : ≥ 125 mg/mL (272.66 mM);Water : < 0.1 mg/mL (insoluble) 储存条件 Store at -20°C
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1 mM 2.1813 mL 10.9066 mL 21.8131 mL
5 mM 0.4363 mL 2.1813 mL 4.3626 mL
10 mM 0.2181 mL 1.0907 mL 2.1813 mL
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Research Update

Efficacy of a Covalent ERK1/2 Inhibitor, CC-90003, in KRAS-Mutant Cancer Models Reveals Novel Mechanisms of Response and Resistance

Mol Cancer Res 2019 Feb;17(2):642-654.PMID:30275173DOI:10.1158/1541-7786.MCR-17-0554.

As a critical signaling node, ERK1/2 are attractive drug targets, particularly in tumors driven by activation of the MAPK pathway. Utility of targeting the MAPK pathway has been demonstrated by clinical responses to inhibitors of MEK1/2 or RAF kinases in some mutant BRAF-activated malignancies. Unlike tumors with mutations in BRAF, those with mutations in KRAS (>30% of all cancers and >90% of certain cancer types) are generally not responsive to inhibitors of MEK1/2 or RAF. Here, a covalent ERK1/2 inhibitor, CC-90003, was characterized and shown to be active in preclinical models of KRAS-mutant tumors. A unique occupancy assay was used to understand the mechanism of resistance in a KRAS-mutant patient-derived xenograft (PDX) model of colorectal cancer. Finally, combination of CC-90003 with docetaxel achieved full tumor regression and prevented tumor regrowth after cessation of treatment in a PDX model of lung cancer. This effect corresponded to changes in a stemness gene network, revealing a potential effect on tumor stem cell reprograming. IMPLICATIONS: Here, a covalent ERK1/2 inhibitor (CC-90003) is demonstrated to have preclinical efficacy in models of KRAS-mutant tumors, which present a therapeutic challenge for currently available therapies.

Investigation Into the Role of ERK in Tyrosine Kinase Inhibitor-Induced Neuropathy

Toxicol Sci 2021 May 27;181(2):160-174.PMID:33749749DOI:10.1093/toxsci/kfab033.

Chemotherapy-induced peripheral neuropathy (CIPN) is a common and debilitating adverse event that can alter patient treatment options and halt candidate drug development. A case study is presented here describing the preclinical and clinical development of CC-90003, a small molecule extracellular signal-regulated kinase (ERK)1/2 inhibitor investigated as an oncology therapy. In a Phase Ia clinical trial, CC-90003 elicited adverse drug-related neuropathy and neurotoxicity that contributed to discontinued development of CC-90003 for oncology therapy. Preclinical evaluation of CC-90003 in dogs revealed clinical signs and electrophysiological changes consistent with peripheral neuropathy that was reversible. Mice did not exhibit signs of neuropathy upon daily dosing with CC-90003, supporting that rodents generally poorly predict CIPN. We sought to investigate the mechanism of CC-90003-induced peripheral neuropathy using a phenotypic in vitro assay. Translating preclinical neuropathy findings to humans proves challenging as no robust in vitro models of CIPN exist. An approach was taken to examine the influence of CIPN-associated drugs on human-induced pluripotent stem cell-derived peripheral neuron (hiPSC-PN) electrophysiology on multielectrode arrays (MEAs). The MEA assay with hiPSC-PNs was sensitive to CIPN-associated drugs cisplatin, sunitinib, colchicine, and importantly, to CC-90003 in concordance with clinical neuropathy incidence. Biochemical data together with in vitro MEA data for CC-90003 and 12 of its structural analogs, all having similar ERK inhibitory activity, revealed that CC-90003 disrupted in vitro neuronal electrophysiology likely via on-target ERK inhibition combined with off-target kinase inhibition and translocator protein inhibition. This approach could prove useful for assessing CIPN risk and interrogating mechanisms of drug-induced neuropathy.