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935666-88-9 molecular structure
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5-chloro-2-N-[(1S)-1-(5-fluoropyrimidin-2-yl)ethyl]-4-N-(5-methyl-1H-pyrazol-3-yl)pyrimidine-2,4-diamine

ChemBase ID: 72871
Molecular Formular: C14H14ClFN8
Molecular Mass: 348.7659632
Monoisotopic Mass: 348.10139839
SMILES and InChIs

SMILES:
c1(nc(ncc1Cl)N[C@H](c1ncc(cn1)F)C)Nc1n[nH]c(c1)C
Canonical SMILES:
Fc1cnc(nc1)[C@@H](Nc1ncc(c(n1)Nc1n[nH]c(c1)C)Cl)C
InChI:
InChI=1S/C14H14ClFN8/c1-7-3-11(24-23-7)21-13-10(15)6-19-14(22-13)20-8(2)12-17-4-9(16)5-18-12/h3-6,8H,1-2H3,(H3,19,20,21,22,23,24)/t8-/m0/s1
InChIKey:
PDOQBOJDRPLBQU-QMMMGPOBSA-N

Cite this record

CBID:72871 http://www.chembase.cn/molecule-72871.html

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NAMES AND DATABASE IDS

NAMES AND DATABASE IDS

Names Database IDs
IUPAC name
5-chloro-2-N-[(1S)-1-(5-fluoropyrimidin-2-yl)ethyl]-4-N-(5-methyl-1H-pyrazol-3-yl)pyrimidine-2,4-diamine
IUPAC Traditional name
5-chloro-2-N-[(1S)-1-(5-fluoropyrimidin-2-yl)ethyl]-4-N-(5-methyl-1H-pyrazol-3-yl)pyrimidine-2,4-diamine
Synonyms
AZD1480
CAS Number
935666-88-9
PubChem SID
162037792
PubChem CID
16659841

DATA SOURCES

DATA SOURCES

All Sources Commercial Sources Non-commercial Sources
Data Source Data ID Price
Selleck Chemicals
S2162 external link Add to cart Please log in.
Data Source Data ID
PubChem 16659841 external link

CALCULATED PROPERTIES

CALCULATED PROPERTIES

JChem
Acid pKa 10.783764  H Acceptors
H Donor LogD (pH = 5.5) 2.606618 
LogD (pH = 7.4) 2.6989844  Log P 2.7004848 
Molar Refractivity 91.1151 cm3 Polarizability 32.177944 Å3
Polar Surface Area 104.3 Å2 Rotatable Bonds
Lipinski's Rule of Five true 

PROPERTIES

PROPERTIES

Safety Information Pharmacology Properties Product Information Bioassay(PubChem)
Storage Condition
-20°C expand Show data source
Target
JAK expand Show data source
Salt Data
Free Base expand Show data source

DETAILS

DETAILS

Selleck Chemicals Selleck Chemicals
Selleck Chemicals - S2162 external link
Research Area
Description Cancer
Biological Activity
Description AZD1480 is a novel ATP-competitive inhibitor of JAK1 and JAK2 with IC50 of 1.3 nM and 0.26 nM, respectively.
Targets JAK1 JAK2
IC50 1.3 nM 0.26 nM [1]
In Vitro 5μM AZD1480 induces G2/M arrest and cell death by inhibiting Aurora kinases. [1] AZD1480 is a potent JAK2 inhibitor that can suppress growth, survival, as well as FGFR3 and STAT3 signaling and downstream targets including Cyclin D2 in human multiple myeloma cells. At low micromolar concentrations, AZD1480 blocks cell proliferation and induces apoptosis of myeloma cell lines. [2]AZD1480 effectively blocks constitutive and stimulus-induced JAK1, JAK2, and STAT-3 phosphorylation in both human and murine glioma cells, and leads to a decrease in cell proliferation and induction of apoptosis. [3]AZD1480 is a potent, competitive small-molecule inhibitor of JAK1/2 kinase, and that it is capable of inhibiting STAT3 phosphorylation and tumor growth in a STAT3-dependent manner. AZD1480 inhibits tumor angiogenesis and metastasis in part by affecting the tumor microenvironment. [4]
In Vivo AZD1480 inhibits the STAT3 phosphorylation in an xenograft model of human solid tumors and multiple myeloma. [1] In vivo, AZD1480 inhibits the growth of subcutaneous tumors and increases survival of mice bearing intracranial glioblastoma (GBM) tumors by inhibiting STAT-3 activity, indicating that pharmacologic inhibition of the JAK/STAT-3 pathway by AZD1480 should be considered for study in the treatment of patients with GBM tumors. [3]AZD1480 blocks lung infiltration of myeloid cells and formation of pulmonary metastases in both mouse syngeneic experimental and spontaneous metastatic models. Furthermore, AZD1480 reduces angiogenesis and metastasis in a human xenograft tumor model. [4] The Jak2 inhibitor, AZD1480, suppresses the growth of human solid tumor xenografts harboring persistent Stat3 activity. [5]
Clinical Trials AZD1480 is currently in Phase I clinical trials in Asian Patients With Advanced Solid Malignancies and Asian Patients With Advanced Hepatocellular Carcinoma (HCC)
Features
Protocol
Kinase Assay [5]
kinase assays Inhibition studies of AZD1480 are performed using recombinant Jak1, Jak2, or Jak3 under buffer conditions of 50 mM HEPES pH 7.3, 1 mM DTT, 0.01% Tween-20, 50 μg/ml BSA, and 10 mM MgCl 2. Jak3 enzyme is expressed as N-terminal GST fusion in insect cells and purified by glutathione-affinity and size-exclusion chromatographies. Enzymes are assayed in the presence of AZD1480 (10 point dose response, in triplicate, from 8.3 μM to 0.3 nM in half-log dilution steps) using 1.5 μM peptide substrate (Jak1: FITC-C6-KKHTDDGYMPMSPGVA-NH2, Jak2 and Jak3: FAM-SRCtide) and screened under their respective ATP Km (Jak1: 55 μM, Jak2: 15 μM, Jak3: 3 μM) and approximated physiological ATP concentration of 5 mM. Phosphorylated and unphosphorylated peptides are separated and quantified by a Caliper LC3000 system for calculating percent inhibition.
Cell Assay [4]
Cell Lines Renca or 786-O cells, mouse endothelial cells and splenic CD11b+/c-myeloid cells, HUVECs
Concentrations ~1 μM
Incubation Time 48 or 24 hours
Methods Renca or 786-O cells are suspended in DMEM medium with 5% FBS , and seeded in 96-well plates (5×103 per well) to allow adhesion and then treated with DMSO or AZD1480 for 48 hours. Cell viability is determined by MTS assay. Absorbance at 490 nm is measured with Mikrotek Laborsysteme. Mouse endothelial cells and splenic CD11b+/c- myeloid cells are enriched from tumor-bearing mice,and cultured in 5% FBS RPMI-1640 medium. HUVECs are cultured on collagen 1–coated plates in complete medium. All cells are treated with DMSO and AZD1480 at various doses for 24 hours. Cell viability is determined by counting cell number manually. All the experiments are repeated 3 times.
Animal Study [4]
Animal Models Female BALB/c and athymic nude (NCR - nu/nu) mice (7–8 weeks old)
Formulation AZD1480 is suspended in water supplemented with 0.5% hypromellose and 0.1% Tween 80.
Doses Once a day at the dose of 50 mg/kg or twice daily at 30 mg/kg
Administration Oral gavage
References
[1] E Derenzini, et al. Blood Cancer J, 2011, 1(12), e46.
[2] Scuto A, et al. Leukemia, 2011, 25(3), 538-50.
[3] McFarland BC,et al. Cancer Ther, 2011, 10(12), 2384-93.
[4] Xin H, et al. Cancer Res, 2011, 71(21), 6601-10.
[5] Hedvat M, et al. Cancer Cell, 2009, 16(6), 487-97.

PATENTS

PATENTS

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INTERNET

INTERNET

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