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  • 罗氟司特

    Roflumilast

    罗氟司特
    产品编号 CFN90020
    CAS编号 162401-32-3
    分子式 = 分子量 C17H14Cl2F2N2O3 = 403.21
    产品纯度 >=98%
    物理属性 Powder
    化合物类型 Miscellaneous
    植物来源
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    提供自定义包装
    产品名称 产品编号 CAS编号 包装 QQ客服
    罗氟司特 CFN90020 162401-32-3 1mg QQ客服:215959384
    罗氟司特 CFN90020 162401-32-3 5mg QQ客服:215959384
    罗氟司特 CFN90020 162401-32-3 10mg QQ客服:215959384
    罗氟司特 CFN90020 162401-32-3 20mg QQ客服:215959384
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    ChemFaces的产品在许多优秀和顶级科学期刊中被引用

    Cell. 2018 Jan 11;172(1-2):249-261.e12.
    doi: 10.1016/j.cell.2017.12.019.
    IF=36.216(2019)

    PMID: 29328914

    Cell Metab. 2020 Mar 3;31(3):534-548.e5.
    doi: 10.1016/j.cmet.2020.01.002.
    IF=22.415(2019)

    PMID: 32004475

    Mol Cell. 2017 Nov 16;68(4):673-685.e6.
    doi: 10.1016/j.molcel.2017.10.022.
    IF=14.548(2019)

    PMID: 29149595

    ACS Nano. 2018 Apr 24;12(4): 3385-3396.
    doi: 10.1021/acsnano.7b08969.
    IF=13.903(2019)

    PMID: 29553709

    Nature Plants. 2016 Dec 22;3: 16206.
    doi: 10.1038/nplants.2016.205.
    IF=13.297(2019)

    PMID: 28005066

    Sci Adv. 2018 Oct 24;4(10): eaat6994.
    doi: 10.1126/sciadv.aat6994.
    IF=12.804(2019)

    PMID: 30417089
    我们的产品现已经出口到下面的研究机构与大学,并且还在增涨
  • University of Wisconsin-Madison (USA)
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  • Kyushu University (Japan)
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  • Lodz University of Technology (Poland)
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  • More...
  • 国外学术期刊发表的引用ChemFaces产品的部分文献
  • J Chromatogr Sci.2015, 53(5):824-9
  • Asian Pac J Cancer Prev.2021, 22(S1):97-106.
  • Molecules.2018, 23(11):E2837
  • J Cell Biochem.2018, 119(2):2231-2239
  • Nutrients2022, 14(14)2929
  • Phytother Res.2016, 30(12):2020-2026
  • Applied Biological Chemistry 2022, 65,5(2022).
  • Chem Res Toxicol. 2022, acs.chemrestox.2c00049.
  • J Tradit Chin Med.2023, 43(6):1081-1091.
  • The Japan Society for Analy. Chem.2017, 66(8):613-617
  • Cardiovasc Toxicol.2019, 19(4):297-305
  • Mediators Inflamm. 2016, 2016:6189590
  • Int J Mol Med.2015, 35(5):1237-45
  • Jeju National University Graduate School2023, 24478
  • Phytochemistry Letters2017, 449-455
  • Molecules.2018, 23(2)
  • Food Control2022, 132:108434.
  • Phys Chem Chem Phys.2018, 20(23):15986-15994
  • Nutrients.2021, 13(10):3414.
  • Molecules2022, 27(9):2613.
  • Kor. J. Herbol.2019, 34(2):59-66
  • Environ Toxicol.2021, doi: 10.1002
  • J Mol Recognit.2020, 33(2):e2819
  • ...
  • 生物活性
    Description: Roflumilast is a phosphodiesterase 4 inhibitor that may improve lung function and reduce the frequency of exacerbations in patients with COPD. Roflumilast has anti-inflammatory and immunomodulatory potential,it will be useful in the treatment of chronic inflammatory disorders such as asthma and chronic obstructive pulmonary disease. Suppression of hematological and immunological markers of inflammation and enhanced apoptosis in animals treated with Roflumilast points to the possibility of a beneficial effect of Roflumilast in allergic inflammation.
    Targets: cAMP | ROS | IL Receptor | PDE
    In vitro:
    Am J Physiol Lung Cell Mol Physiol. 2015 May 15;308(10):L1068-77.
    Roflumilast combined with adenosine increases mucosal hydration in human airway epithelial cultures after cigarette smoke exposure.[Pubmed: 25795727]
    Chronic obstructive pulmonary disease (COPD) is a growing cause of morbidity and mortality worldwide. Recent studies have shown that cigarette smoke (CS) induces cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction, which leads to airway-surface liquid (ASL) dehydration. This in turn contributes to the mucus dehydration and impaired mucociliary clearance that are seen in the chronic bronchitis form of COPD. Roflumilast is a phosphodiesterase 4 inhibitor that may improve lung function and reduce the frequency of exacerbations in patients with COPD. Although Roflumilast can affect cAMP metabolism, little is known about the downstream pharmacological effects in the airways.
    METHODS AND RESULTS:
    We hypothesized that Roflumilast would increase ASL rehydration in human bronchial epithelial cultures (HBECs) after chronic CS exposure. cAMP production was measured by Förster resonance energy transfer in HEK293T cells and by ELISA in HBECs. ASL height was measured by xz-confocal microscopy after air exposure or following HBEC exposure to freshly produced CS. Roflumilast had little effect on cAMP or ASL height when applied on its own; however, Roflumilast significantly potentiated adenosine-induced increases in cAMP and ASL height in CS-exposed HBECs. Roflumilast increased the rate of ASL height recovery in cultures after CS exposure compared with controls. In contrast, the β2-adrenergic receptor agonists isoproterenol and salmeterol failed to increase ASL height after CS exposure.
    CONCLUSIONS:
    Our data suggest that Roflumilast can increase ASL hydration in CS-exposed HBECs, which is predicted to be beneficial for the treatment of mucus dehydration/mucus stasis in patients with COPD chronic bronchitis.
    J Pharmacol Exp Ther. 2001 Apr;297(1):267-79.
    Anti-inflammatory and immunomodulatory potential of the novel PDE4 inhibitor roflumilast in vitro.[Pubmed: 11259554]

    METHODS AND RESULTS:
    From a series of benzamide derivatives, Roflumilast (3-cyclo-propylmethoxy-4-difluoromethoxy-N-[3,5-di-chloropyrid-4-yl]-benzamide) was identified as a potent and selective PDE4 inhibitor. It inhibits PDE4 activity from human neutrophils with an IC(50) of 0.8 nM without affecting PDE1 (bovine brain), PDE2 (rat heart), and PDE3 and PDE5 (human platelets) even at 10,000-fold higher concentrations. Roflumilast is almost equipotent to its major metabolite formed in vivo (Roflumilast N-oxide) and piclamilast (RP 73401), however, more than 100-fold more potent than rolipram and Ariflo (cilomilast; SB 207499). The anti-inflammatory and immunomodulatory potential of Roflumilast and the reference compounds was investigated in various human leukocytes using cell-specific responses: neutrophils [N-formyl-methyl-leucyl-phenylalanine (fMLP)-induced formation of LTB(4) and reactive oxygen species (ROS)], eosinophils (fMLP- and C5a-induced ROS formation), monocytes, monocyte-derived macrophages, and dendritic cells (lipopolysaccharide-induced tumor necrosis factor-alpha synthesis), and CD4+ T cells (anti-CD3/anti-CD28 monoclonal antibody-stimulated proliferation, IL-2, IL-4, IL-5, and interferon-gamma release). Independent of the cell type and the response investigated, the corresponding IC values (for half-maximum inhibition) of Roflumilast were within a narrow range (2-21 nM), very similar to Roflumilast N-oxide (3-40 nM) and piclamilast (2-13 nM). In contrast, cilomilast (40-3000 nM) and rolipram (10-600 nM) showed greater differences with the highest potency for neutrophils. Compared with neutrophils and eosinophils, representing the terminal inflammatory effector cells, the relative potency of Roflumilast and its N-oxide for monocytes, CD4+ T cells, and dendritic cells is substantially higher compared with cilomilast and rolipram, probably reflecting an improved immunomodulatory potential.
    CONCLUSIONS:
    The efficacy of Roflumilast in vitro and in vivo (see accompanying article in this issue) suggests that Roflumilast will be useful in the treatment of chronic inflammatory disorders such as asthma and chronic obstructive pulmonary disease.
    In vivo:
    Toxicol Pathol. 2015 Jun;43(4):569-80.
    Roflumilast-induced Local Vascular Injury Is Associated with a Coordinated Proteome and Microparticle Change in the Systemic Circulation in Pigs.[Pubmed: 25311372]
    Drug-induced vascular injury (DIVI) is commonly associated with phosphodiesterase (PDE) inhibitors. Despite histological characterization, qualified biomarkers for DIVI detection are lacking.
    METHODS AND RESULTS:
    We investigated whether a single administration of Roflumilast (PDE-IV inhibitor) induces vascular damage and identified novel surrogate biomarkers of acute vascular injury. Pigs received postoperative 250, 375, or 500 μg of Roflumilast or placebo/control. After 1.5 hr, coronary reactivity was determined by catheter-based administration of acetylcholine and sodium nitroprusside (SNP) in the coronary sinus. Immunohistochemical analysis of vessel integrity (von Willebrand factor [vWF]) and fibrin(ogen) deposition was performed in the coronary artery and aorta. Peripheral blood was collected for differential proteomics and microparticles analysis. Circulating interleukin (IL)-6 was analyzed. Roflumilast-treated animals displayed higher vasodilation to acetylcholine and SNP versus controls (p < .05). Roflumilast-treated animals showed a dose-dependent (p < .05) decrease in vessel integrity and dose-dependent increase in fibrin deposition forming a continuous layer at Roflumilast-500 μg. Peripheral blood of Roflumilast-500-μg-treated animals showed increased levels of total and endothelial-derived microparticles and exhibited a coordinated change in proteins kininogen-1, endothelin-1, gelsolin, apolipoprotein A-I, and apolipoprotein-J associated with vascular injury (p < .05 vs. controls). IL-6 remained unaltered.
    CONCLUSIONS:
    Roflumilast-induced vascular injury can be detected by novel markers in peripheral blood. Validation of these surrogate markers in human samples seems required.
    制备储备液(仅供参考)
    1 mg 5 mg 10 mg 20 mg 25 mg
    1 mM 2.4801 mL 12.4005 mL 24.801 mL 49.6019 mL 62.0024 mL
    5 mM 0.496 mL 2.4801 mL 4.9602 mL 9.9204 mL 12.4005 mL
    10 mM 0.248 mL 1.24 mL 2.4801 mL 4.9602 mL 6.2002 mL
    50 mM 0.0496 mL 0.248 mL 0.496 mL 0.992 mL 1.24 mL
    100 mM 0.0248 mL 0.124 mL 0.248 mL 0.496 mL 0.62 mL
    * Note: If you are in the process of experiment, it's need to make the dilution ratios of the samples. The dilution data of the sheet for your reference. Normally, it's can get a better solubility within lower of Concentrations.
    部分图片展示
    产品名称 产品编号 CAS编号 分子式 = 分子量 位单 联系QQ
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    奎硫平去羟乙基杂质; Quetiapine hydroxy impurity CFN98514 329216-67-3 C19H21N3OS = 339.46 5mg QQ客服:1413575084
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    依泽替米贝; Ezetimibe CFN90018 163222-33-1 C24H21F2NO3 = 409.43 5mg QQ客服:1413575084
    罗氟司特; Roflumilast CFN90020 162401-32-3 C17H14Cl2F2N2O3 = 403.21 5mg QQ客服:215959384
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