Crizotinib (PF-02341066) Licensed by Pfizer

Catalog No.S1068

Crizotinib (PF-02341066) is a potent inhibitor of c-Met and ALK with IC50 of 11 nM and 24 nM in cell-based assays, respectively.

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Crizotinib (PF-02341066) Chemical Structure

Crizotinib (PF-02341066) Chemical Structure
Molecular Weight: 450.34

Validation & Quality Control

Cited by 65 publications:

8 customer reviews :

Quality Control & MSDS

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Product Information

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  • Research Area
  • Crizotinib (PF-02341066) Mechanism
  • Combination Therapy
    Combination Therapy

Product Description

Biological Activity

Description Crizotinib (PF-02341066) is a potent inhibitor of c-Met and ALK with IC50 of 11 nM and 24 nM in cell-based assays, respectively.
Targets c-Met [1]
(A549, MDA-MB-231, GTL-16, HT29, 786-O, Colo-205, A498 cells)
ALK [1]
(Karpas299 cells)
IC50 11 nM 24 nM
In vitro PF-2341066 displays similar potency against c-Met phosphorylation in mIMCD3 mouse or MDCK canine epithelial cells with IC50 of 5 nM and 20 nM, respectivly. PF-2341066 shows improved or similar activity against NIH3T3 cells engineered to express c-Met ATP-binding site mutants V1092I or H1094R or the P-loop mutant M1250T with IC50 of 19 nM, 2 nM and 15 nM, respectively, compared with NIH3T3 cells expressing wild-type receptor with IC50 of 13 nM. In contrast, a marked shift in potency of PF-2341066 is observed against cells engineered to express c-Met activation loop mutants Y1230C and Y1235D with IC50 of 127 nM and 92 nM, respectively, compared with wild-type receptor. PF-2341066 also potently prevents the phosphorylation of c-Met in NCI-H69 and HOP92 cells, with IC50 of 13 nM and 16 nM, respectively, which express the endogenous c-Met variants R988C and T1010I, respectively. PF-2341066 is >1,000-fold selective for the VEGFR2 and PDGFRβ RTKs, >250-fold selective for IRK and Lck, and ∼40- to 60-fold selective for Tie2, TrkA, and TrkB, all compared with c-Met. PF-2341066 is 20- to 30-fold selective for RON and Axl RTKs. In contrast, PF-2341066 shows a near-equivalent IC50 of 24 nM against the nucleophosmin (NPM)-anaplastic lymphoma kinase (ALK) oncogenic fusion variant of the ALK RTK expressed by the KARPAS299 human anaplastic large cell lymphoma (ALCL) cell line. PF-2341066 inhibits c-Met–dependent neoplastic phenotypes of cancer cells and angiogenic phenotypes of endothelial cells. PF-2341066 suppresses human GTL-16 gastric carcinoma cell growth with IC50 of 9.7 nM. PF-2341066 induces apoptosis in GTL-16 cells with IC50 of 8.4 nM. PF-2341066 inhibits HGF-stimulated human NCI-H441 lung carcinoma cell migration and invasion with IC50 of 11 nM and 6.1 nM, respectively. PF-2341066 inhibits MDCK cell scattering with IC50 of 16 nM. PF-2341066 prevents HGF-stimulated c-Met phosphorylation, cell survival, and Matrigel invasion with IC50 of 11 nM, 14 nM and 35 nM, respectively. In addition, PF-2341066 prevents serum-stimulated HMVEC branching tubulogenesis (formation of vascular tubes) in fibrin gels. [1] PF-2341066 also potently inhibits NPM-ALK phosphorylation in Karpas299 or SU-DHL-1 ALCL cells with an IC50 of 24 nM. PF-2341066 potently prevents cell proliferation, which is associated with G(1)-S-phase cell cycle arrest and induction of apoptosis in ALK-positive ALCL cells with IC50 of 30 nM, but not ALK-negative lymphoma cells. [2] Besides, PF-2341066 prevents osteosarcoma behavior associated with primary tumor growth (i.e., proliferation and survival) as well as metastasis (eg, invasion and clonogenicity). [3]
Cell Data
Cell LinesAssay TypeConcentrationIncubation TimeFormulationActivity DescriptionPMID
BAF3NIHjZmhEgXSxdH;4bYMhSXO|YYm=NVm2TpFYPDhiaB?=NITCUVVFVVORMYrDfZRwfG:6aXPpeJkh[WejaX7zeEBud3W|ZTDCRWY{KGOnbHzzJIV5eHKnc4PpcochSUyNIF[xNVc1VCCvdYThcpQh[2:neIDy[ZN{cW6pIFXNUFQhf2m2aDDJR|UxKG:oIECuOlIh|ryPNXjPUWpMOjF3N{K1PFk>
BAF3MofTR5l1d3SxeHnjJGF{e2G7NEfV[pE1QCCqNVPmVogxTE2VTx?=NWnCOHZ5S3m2b4TvfIlkcXS7IHHnZYlve3RibX;1d4UhSkGIMzDj[YxteyCneIDy[ZN{cW6pIFHMT{BNOTF7Nl2gcZV1[W62IHPv[ZhxemW|c3nu[{BGVUx2IIfpeIghUUN3MDDv[kAzNjJizszNMX6yNVU4OjV6OR?=
BAF3MnWxR5l1d3SxeHnjJGF{e2G7MX[0PEBpNYjPdYtzTE2VTx?=NETDeGtEgXSxdH;4bYNqfHliYXfhbY5{fCCvb4Xz[UBDSUZ|IHPlcIx{KGW6cILld5NqdmdiRV3MOE1CVEtid3n0bEBKSzVyIH;mJFAvOjhizszNNUXxXGVwOjF3N{K1PFk>
KellyNU\Hc4RRS3m2b4TvfIlkKEG|c3H5NV;6cWt6TE2VTx?=Mn7uR5l1d3SxeHnjbZR6KGGpYXnud5QhcHWvYX6gT4VtdHliY3XscJMh\XiycnXzd4lv\yCDTFugSlEyPzSOIH31eIFvfCC5aYToJGlEPTBib3[gNE41OiEQvF2=NVTjdFlLOjF3N{K1PFk>
SH-SY5YMlvER5l1d3SxeHnjJGF{e2G7NFHGSm9FVVORM1rRW2N6fG:2b4jpZ4l1gSCjZ3HpcpN1KGi3bXHuJHNJNVO\NWmgZ4VtdHNiZYjwdoV{e2mwZzDBUGshTjFzN{TMJI12fGGwdDD3bZRpKEmFNUCgc4YhOC53MzFOwG0>NUfHeG93OjF3N{K1PFk>
SMS-KCNNUHR[pBUS3m2b4TvfIlkKEG|c3H5MXLEUXNQNYPxZ2ZoS3m2b4TvfIlkcXS7IHHnZYlve3RiaIXtZY4hW02VLVvDUkBk\WyuczDlfJBz\XO|aX7nJGFNUyCUMUK3OXEhdXW2YX70JJdqfGhiSVO1NEBw\iByLkmxJO69VQ>?M{HoPVIyPTd{NUi5
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3T3MnnhSpVv[3Srb36gRZN{[Xl?MkjlNUBpNILrOVNFVVORM2HrNmlvcGmkaYTpc44hd2ZiUl;OJIF{e2W|c3XkJIF{KGe{b4f0bEBn[WO2b4KtbY5lfWOnZDDheZRweGixc4Doc5J6dGG2aX;uJJdqfGhiSVO1NEBw\iByLkC4JO69VQ>?NXnKPJp[OjF6MUK0NVQ>
3T3-EMnHvSpVv[3Srb36gRZN{[Xl?MlG0NUBpM2XpVmROW09?MUfJcohq[mm2aX;uJI9nKFSLRUKgZZN{\XO|ZXSg[5Jwf3SqIH\hZ5Rwei2rbnT1Z4VlKGG3dH;wbI9{eGixconsZZRqd25id3n0bEBKSzVyIH;mJFAvPDR6IN88US=>MlLJNlE5OTJ2MUS=
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HEK293MUXGeY5kfGmxbjDBd5NigQ>?MmL2NUBpMn7LSG1UVw>?M4DSZWlvcGmkaYTpc44hd2ZiQWjMJIF{e2W|c3XkJIF{KGe{b4f0bEBn[WO2b4KtbY5lfWOnZDDheZRweGixc4Doc5J6dGG2aX;uJJdqfGhiSVO1NEBw\iByLkK5OEDPxE1?MofhNlE5OTJ2MUS=
HEK293MlnJSpVv[3Srb36gRZN{[Xl?MVmxJIg>NETI[2NFVVORMlraTY5pcWKrdHnvckBw\iCLUjDhd5Nme3OnZDDhd{Boem:5dHig[oFkfG:{LXnu[JVk\WRiYYX0c5Bpd3OyaH;yfYxifGmxbjD3bZRpKEmFNUCgc4YhOi56OEeg{txONYLnUZdwOjF6MUK0NVQ>
JurkatNE\tXmpHfW6ldHnvckBCe3OjeR?=MoPmNUBpM{DVcmROW09?MoXWTY5pcWKrdHnvckBw\iCOQ1ugZZN{\XO|ZXSgZZMh\3Kxd4ToJIZi[3Sxcj3pcoR2[2WmIHH1eI9xcG:|cHjvdplt[XSrb36ge4l1cCCLQ{WwJI9nKDJwN{SxJO69VQ>?MYmyNVgyOjRzNB?=
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MCF7M1GzUmdzd3e2aDDJcohq[mm2aX;uJGF{e2G7M{jFW|czKGh?Mn3uSG1UVw>?M1\GemlEPTB;OT61PEDPxE1?MXSyN|k6OzN{OB?=
MDA-MB-231MUfHdo94fGhiSX7obYJqfGmxbjDBd5NigQ>?NFvwVlQ4OiCqM3K3[GROW09?MljFTWM2OD1zMD64JO69VQ>?MUWyN|k6OzN{OB?=
MKN45NFmxdotIem:5dHigTY5pcWKrdHnvckBCe3OjeR?=MUe3NkBpNGXE[FJFVVORM1rpcmlEPTB;MD6wNVMh|ryPMWGyN|k6OzN{OB?=
NCI-H441MoXhS5Jwf3SqIFnubIljcXSrb36gRZN{[Xl?NUX1W2dGPzJiaB?=M17jXGROW09?MVPJR|UxRTF5LkK1JO69VQ>?MW[yN|k6OzN{OB?=
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SK-MEL-28NF\BbGxIem:5dHigTY5pcWKrdHnvckBCe3OjeR?=MYC3NkBpMlTDSG1UVw>?MlzRTWM2OD1zMD65O{DPxE1?M4TNZ|I{QTl|M{K4
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NCI-H2228NXjqO4JNT3Kxd4ToJGlvcGmkaYTpc44hSXO|YYm=MWC3NkBpNFf0fmNFVVORM2rke2lvcGmkaYTpc44hd2ZiQVzLMYZ2e2mxbjDkdol3\W5iY3XscEBxem:uaX\ldoF1cW:wIIfpeIghUUN3MDDv[kAxNjFzODFOwG0>M2\3VFI1PDN{OUC5
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In vivo In the GTL-16 model, PF-2341066 reveals the ability to cause marked regression of large established tumors (>600 mm3) in both the 50 mg/kg/day and 75 mg/kg/day treatment cohorts, with a 60% decrease in mean tumor volume over the 43-day administration schedule. In an another study, PF-2341066 displays the ability to completely inhibits GTL-16 tumor growth for >3 months, with only 1 of 12 mice exhibiting a significant increase in tumor growth over the 3-month treatment schedule at 50 mg/kg/day. In the NCI-H441 NSCLC model, a 43% decrease in mean tumor volume is observed at 50 mg/kg/day during the 38-day PF-2341066 administration cycle. In the Caki-1 RCC model, a 53% decrease in mean tumor volume is observed to be associated with decreased volume of each tumor by at least 30% at 50 mg/kg/day during the 33-day PF-2341066 administration cycle. PF-2341066 also reveals near-complete prevention of the growth of established tumors at 50 mg/kg/day in the U87MG glioblastoma or PC-3 prostate carcinoma xenograft models, with 97% or 84% inhibition on the final study day, respectively. In contrast, PF-2341066 p.o. given at 50 mg/kg/day does not significantly inhibit tumor growth in the MDA-MB-231 breast carcinoma model, or the DLD-1 colon carcinoma model. A significant dose-dependent reduction of CD31–positive endothelial cells is observed at 12.5 mg/kg/day, 25 mg/kg/day, and 50 mg/kg/day in GTL-16 tumors, indicating that inhibition of MVD shows a dose-dependent correlation to antitumor efficacy. PF-2341066 displays a significant dose-dependent reduction of human VEGFA and IL-8 plasma levels in both the GTL-16 and U87MG models. Marked inhibition of phosphorylated c-Met, Akt, Erk, PLCλ1, and STAT5 levels is observed in GTL-16 tumors following p.o. administration of PF-2341066.[1] P.o. administration of PF-2341066 to severe combined immunodeficient-Beige mice bearing Karpas299 ALCL tumor xenografts leads to dose-dependent antitumor efficacy with complete regression of all tumors at the 100 mg/kg/d dose within 15 days of initial compound administration. In addition, inhibition of key NPM-ALK signaling mediators, including phospholipase C-gamma, signal transducers and activators of transcription 3, extracellular signal-regulated kinases, and Akt by PF-2341066 are observed at concentrations or dose levels, which correlated with inhibition of NPM-ALK phosphorylation and function.[2] PF-2341066 prevents osteosarcoma behavior associated with primary tumor growth (eg, proliferation and survival) as well as metastasis (eg, invasion and clonogenicity). In nude mice treated with PF-2341066 via oral gavage, the growth and associated osteolysis and extracortical bone matrix formation of osteosarcoma xenografts are prevented by PF-2341066.[3] Treatment of c-MET-amplified GTL-16 xenografts with 50 mg/kg PF-2341066 elicits tumor regression that is associated with a slow reduction in 18F-FDG uptake and decreases expression of the glucose transporter 1, GLUT-1.[4]
Features

Protocol(Only for Reference)

Kinase Assay: [1]

Cellular kinase phosphorylation ELISA assays Cells are seeded in 96-well plates in media supplemented with 10% fetal bovine serum (FBS) and transferred to serum-free media [with 0.04% bovine serum albumin (BSA)] after 24 h. In experiments investigating ligand-dependent RTK phosphorylation, corresponding growth factors are added for up to 20 min. After incubation of cells with PF-2341066 for 1 h and/or appropriate ligands for the designated times, cells are washed once with HBSS supplemented with 1 mM Na3VO4, and protein lysates are generated from cells. Subsequently, phosphorylation of selected protein kinases is assessed by a sandwich ELISA method using specific capture antibodies used to coat 96-well plates and a detection antibody specific for phosphorylated tyrosine residues. Antibody-coated plates are (a) incubated in the presence of protein lysates at 4°C overnight; (b) washed seven times in 1% Tween 20 in PBS; (c) incubated in a horseradish peroxidase–conjugated anti–total-phosphotyrosine (PY-20) antibody (1:500) for 30 min; (d) washed seven times again; (e) incubated in 3,3′,5,5′-tetramethyl benzidine peroxidase substrate to initiate a colorimetric reaction that is stopped by adding 0.09 N H2SO4; and (f) measured for absorbance in 450 nm using a spectrophotometer.

Cell Assay: [1]

Cell lines GTL-16 gastric carcinoma cells and T47D breast carcinoma cells
Concentrations 0-256 nM
Incubation Time 1 hour
Method Cells including GTL-16 gastric carcinoma cells and T47D breast carcinoma cells are seeded in 96-well plates in media supplemented with 10% fetal bovine serum (FBS) and transferred to serum-free media [with 0.04% bovine serum albumin (BSA)] after 24 hours. In experiments investigating ligand-dependent RTK phosphorylation, corresponding growth factors are added for up to 20 minutes. After incubation of cells with PF-2341066 for 1 hour and/or appropriate ligands for the designated times, cells are washed once with HBSS supplemented with 1 mM Na3VO4, and protein lysates are generated from cells. Subsequently, phosphorylation of selected protein kinases is assessed by a sandwich ELISA method using specific capture antibodies used to coat 96-well plates and a detection antibody specific for phosphorylated tyrosine residues. Antibody-coated plates are (a) incubated in the presence of protein lysates at 4 °C overnight; (b) washed seven times in 1% Tween 20 in PBS; (c) incubated in a horseradish peroxidase–conjugated anti–total-phosphotyrosine (PY-20) antibody (1:500) for 30 min; (d) washed seven times again; (e) incubated in 3,3,5,5-tetramethyl benzidine peroxidase substrate to initiate a colorimetric reaction that is stopped by adding 0.09 N H2SO4; and (f) measured for absorbance in 450 nm using a spectrophotometer.

Animal Study: [1]

Animal Models Female or male nu/nu mice bearing NCI-H441,or DLD-1, or MDA-MB-231
Formulation
Dosages 12.5 mg/kg/day, 25 mg/kg/day, and 50 mg/kg/day
Administration Administered via p.o.

Conversion of different model animals based on BSA (Value based on data from FDA Draft Guidelines)

SpeciesMouseRatRabbitGuinea pigHamsterDog
Weight (kg)0.020.151.80.40.0810
Body Surface Area (m2)0.0070.0250.150.050.020.5
Km factor36128520
Animal A (mg/kg) = Animal B (mg/kg) multiplied by  Animal B Km
Animal A Km

For example, to modify the dose of resveratrol used for a mouse (22.4 mg/kg) to a dose based on the BSA for a rat, multiply 22.4 mg/kg by the Km factor for a mouse and then divide by the Km factor for a rat. This calculation results in a rat equivalent dose for resveratrol of 11.2 mg/kg.

Rat dose (mg/kg) = mouse dose (22.4 mg/kg) ×  mouse Km(3)  = 11.2 mg/kg
rat Km(6)
1

References

[1] Zou HY, et al. Cancer Res. 2007, 67(9), 4408-4417.

[2] Christensen JG, et al. Mol Cancer Ther. 2007, 6(12 Pt 1), 3314-3322.

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Clinical Trial Information( data from http://clinicaltrials.gov, updated on 2016-07-30)

NCT Number Recruitment Conditions Sponsor
/Collaborators
Start Date Phases
NCT02838420 Recruiting Anaplastic Lymphoma Kinase-positive Non-small Cell Lung Cancer Hoffmann-La Roche July 2016 Phase 3
NCT02836847 Recruiting Cholangiocarcinoma of the Extrahepatic Bile Duct|Gallbladder Cancer Shanghai Jiao Tong University School of Medicine|Xinhua H  ...more Shanghai Jiao Tong University School of Medicine|Xinhua Hospital, Shanghai Jiao Tong University School of Medicine|Ruijin Hospital|RenJi Hospital|Eastern Hepatobiliary Surgery Hospital|Huashan Hospital July 2016 Phase 2
NCT02767804 Recruiting Non-small Cell Lung Cancer Xcovery Holding Company, LLC June 2016 Phase 3
NCT02679170 Recruiting Non-Small Cell Lung Cancer Pfizer June 2016 --
NCT02761057 Recruiting Recurrent Renal Cell Carcinoma|Stage III Renal Cell Cancer|Stage IV Renal Cell Cancer|Type 1 Papillary Renal Cell Carcinoma|Type 2 Papillary Renal  ...more Recurrent Renal Cell Carcinoma|Stage III Renal Cell Cancer|Stage IV Renal Cell Cancer|Type 1 Papillary Renal Cell Carcinoma|Type 2 Papillary Renal Cell Carcinoma National Cancer Institute (NCI) April 2016 Phase 2

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Chemical Information

Download Crizotinib (PF-02341066) SDF
Molecular Weight (MW) 450.34
Formula

C21H22Cl2FN5O

CAS No. 877399-52-5
Storage 3 years -20℃powder
6 months-80℃in solvent
Synonyms N/A
Solubility (25°C) * In vitro DMSO 9 mg/mL (19.98 mM)
Water <1 mg/mL (<1 mM)
Ethanol <1 mg/mL (<1 mM)
In vivo 5% DMSO+30% PEG 300+dd H2O 5mg/mL
* <1 mg/ml means slightly soluble or insoluble.
* Please note that Selleck tests the solubility of all compounds in-house, and the actual solubility may differ slightly from published values. This is normal and is due to slight batch-to-batch variations.
Chemical Name 3-((R)-1-(2,6-dichloro-3-fluorophenyl)ethoxy)-5-(1-(piperidin-4-yl)-1H-pyrazol-4-yl)pyridin-2-amine

Tech Support

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