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PZ0362

Sigma-Aldrich

CP-640186 hydrochloride

≥95% (HPLC)

Synonym(s):

(3R)-Anthracen-9-yl-[3-(morpholine-4-carbonyl)-[1,4′]bipiperidinyl-1′-yl]-methanone hydrochloride, CP 640186 hydrochloride, CP640186 hydrochloride, [(3R)-1′-(9-Anthracenylcarbonyl)[1,4′-bipiperidin]-3-yl]-4-morpholinyl-methanone hydrochloride

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About This Item

Empirical Formula (Hill Notation):
C30H35N3O3 · HCl
CAS Number:
Molecular Weight:
522.08
MDL number:
UNSPSC Code:
41121800
NACRES:
NA.77

Quality Level

Assay

≥95% (HPLC)

form

powder

storage condition

desiccated

color

white to beige

solubility

H2O: 2 mg/mL, clear (warmed)

storage temp.

room temp

SMILES string

O=C(C1=C2C=CC=CC2=CC3=CC=CC=C31)N(CC4)CCC4N5C[C@H](C(N6CCOCC6)=O)CCC5.[H]Cl

InChI

1S/C30H35N3O3.ClH/c34-29(32-16-18-36-19-17-32)24-8-5-13-33(21-24)25-11-14-31(15-12-25)30(35)28-26-9-3-1-6-22(26)20-23-7-2-4-10-27(23)28;/h1-4,6-7,9-10,20,24-25H,5,8,11-19,21H2;1H/t24-;/m1./s1

InChI key

DUBNXJIOBFRASV-GJFSDDNBSA-N

Application

CP-640186 hydrochloride has been used as an allosteric acetyl-CoA carboxylase (ACC) inhibitor (ACCi) for pharmacological inhibition of lipogenesis to determine if fatty acid synthesis is essential for brown adipose tissue (BAT) whitening. It has also been used as an inhibitor of mammalian acetyl-CoA carboxylase (mACC1/2) to study its effect on meropenem potency against the persisters from multiple pathogens, including B. thailandensis, P. aeruginosa, S.Typhimurium, and attenuated Y. pestis.

Biochem/physiol Actions

CP-640186 is a potent and orally active acetyl-CoA carboxylase 1/2 (ACC-alpha/beta, ACC1/2) inhibitor (IC50 ~50 nM) that targets the carboxyltransferase (CT) domain at the ACC dimer interface (via tight interactions with the putative biotin-binding site) in a reversible manner, uncompetitive with respect to ATP, and non-competitive with respect to bicarbonate, acetyl-CoA, and citrate. CP-610431 inhibits fatty acid (FA) synthesis, triglyceride (TG) synthesis, TG and apoB secretion (IC50 = 1.6, 1.8, 3.0, and 5.7 μM, respectively), but not cholesterol synthesis or apoC3 secretion in HepG2 cells (ACC1), as well as stimulates FA oxidation in C2C12 cells (ACC2) and in rat epitrochlearis muscle strips (EC50 = 57 nM and 1.3 μM, respectively). Oral administration is shown to inhibit FA synthesis in rats, CD1 mice, and ob/ob mice (ED50 = 13, 11, and 4 mg/kg, respectively) and stimulate rat whole body FA oxidation (ED50 ∼30 mg/kg) in vivo.

Storage Class Code

11 - Combustible Solids

WGK

WGK 3


Certificates of Analysis (COA)

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Yasunori Nio et al.
Antiviral research, 132, 262-267 (2016-07-10)
Recently, direct antiviral agents against hepatitis C virus (HCV) infection have been developed as highly effective anti-HCV drugs. However, the appearance of resistant viruses against direct anti-viral agents is an unsolved problem. One of the strategies considered to suppress the
Daniel Hess et al.
PloS one, 5(6), e11394-e11394 (2010-07-09)
Lung cancer is the most frequent form of cancer. The survival rate for patients with metastatic lung cancer is approximately 5%, hence alternative therapeutic strategies to treat this disease are critically needed. Recent studies suggest that lipid biosynthetic pathways, particularly
Hitomi Okamura et al.
Biochemical and biophysical research communications, 475(1), 87-92 (2016-05-15)
Hepatitis B virus (HBV) proliferates in hepatocytes after infection, but the host factors that contribute to the HBV lifecycle are poorly understood at the molecular level. We investigated whether fatty acid biosynthesis (FABS), which was recently reported to contribute to
H James Harwood et al.
The Journal of biological chemistry, 278(39), 37099-37111 (2003-07-05)
Inhibition of acetyl-CoA carboxylase (ACC), with its resultant inhibition of fatty acid synthesis and stimulation of fatty acid oxidation, has the potential to favorably affect the multitude of cardiovascular risk factors associated with the metabolic syndrome. To achieve maximal effectiveness
Kevin P Madauss et al.
Acta crystallographica. Section D, Biological crystallography, 65(Pt 5), 449-461 (2009-04-25)
Inhibition of acetyl-CoA carboxylase (ACC) may prevent lipid-induced insulin resistance and type 2 diabetes, making the enzyme an attractive pharmaceutical target. Although the enzyme is highly conserved amongst animals, only the yeast enzyme structure is available for rational drug design.

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