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  • 花椒毒素; 8-甲氧基补骨脂素

    Xanthotoxin

    花椒毒素; 8-甲氧基补骨脂素
    产品编号 CFN98372
    CAS编号 298-81-7
    分子式 = 分子量 C12H8O4 = 216.2
    产品纯度 >=98%
    物理属性 Powder
    化合物类型 Coumarins
    植物来源 The rhizomes of Astilbe chinensis (Maxim.) Franch. et Sav.
    ChemFaces的产品在影响因子大于5的优秀和顶级科学期刊中被引用
    提供自定义包装
    产品名称 产品编号 CAS编号 包装 QQ客服
    花椒毒素; 8-甲氧基补骨脂素 CFN98372 298-81-7 10mg QQ客服:1413575084
    花椒毒素; 8-甲氧基补骨脂素 CFN98372 298-81-7 20mg QQ客服:1413575084
    花椒毒素; 8-甲氧基补骨脂素 CFN98372 298-81-7 50mg QQ客服:1413575084
    花椒毒素; 8-甲氧基补骨脂素 CFN98372 298-81-7 100mg QQ客服:1413575084
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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
  • MTT Agrifood Research Finland (Finland)
  • Copenhagen University (Denmark)
  • Universidade do Porto (Portugal)
  • Universitas islam negeri Jakarta (Indonesia)
  • Helmholtz Zentrum München (Germany)
  • Nanjing University of Chinese Medicine (China)
  • Universidade de Franca (Brazil)
  • Tohoku University (Japan)
  • Charles Sturt University (Denmark)
  • Universidad Veracuzana (Mexico)
  • Institute of Chinese Materia Medica (China)
  • The Vancouver Prostate Centre (VPC) (Canada)
  • University of Dicle (Turkey)
  • Shanghai Institute of Organic Chemistry (China)
  • More...
  • 国外学术期刊发表的引用ChemFaces产品的部分文献
  • Molecules.2016, 21(10)
  • Synthetic and Systems Biotechnology2023, j.synbio.
  • Plant Cell, Tissue and Organ Culture (PCTOC)2020, 143, 45-60(2020)
  • Int J Mol Sci.2023, 24(4):3682.
  • Front Plant Sci.2020, 11:630.
  • J Chromatogr B Analyt Technol Biomed Life Sci.2021, 1187:123012.
  • BioResources J.2020, 15(3).
  • Int J Mol Sci.2019, 20(11):E2734
  • Molecules.2015, 20(11):20014-30
  • Front Pharmacol.2016, 7:460
  • Invest New Drugs.2017, 35(2):166-179
  • LWT2020, 110397
  • Biomolecules.2024, 14(4):451.
  • J Clin Transl Hepatol.2023, 11(4):863-876.
  • Cell Mol Biol(Noisy-le-grand)2019, 65(7):77-83
  • Biochem Pharmacol.2023, 211:115502.
  • Food Chemistry: X2023, 101032.
  • Food Funct.2021, 12(13):5892-5902.
  • Research J. Pharm. and Tech.2020, 13(7):3059-3064.
  • Evid Based Complement Alternat Med.2017, 2017:7383104
  • In Vitro Cellular & Developmental Biology - Plant2022, 58:972-988.
  • Srinakharinwirot University2023, 2669.
  • Chem Biol Interact.2024, 394:110995.
  • ...
  • 生物活性
    Description: Xanthotoxin (Methoxsalen ) is a potent tricyclic furocoumarin suicide inhibitor of CYP (cytochrome P-450), is an agent used to treat psoriasis, eczema, vitiligo and some cutaneous Lymphomas in conjunction with exposing the skin to sunlight. Xanthotoxin has anticonvulsant activities, it can protect the animals against maximal electroshock-induced seizures; Xanthotoxin prevents bone loss in ovariectomized mice through the inhibition of RANKL-induced osteoclastogenesis, it may be considered to be a new therapeutic candidate for treating osteoporosis.
    Targets: FAK | ROS | Calcium Channel | P450 (e.g. CYP17) | NFATc1 | c-FOS
    In vitro:
    Osteoporos Int. 2016 Jul;27(7):2335-2344.
    Xanthotoxin prevents bone loss in ovariectomized mice through the inhibition of RANKL-induced osteoclastogenesis.[Pubmed: 26809192]
    Xanthotoxin (XAT) is extracted from the seeds of Ammi majus. Here, we reported that XAT has an inhibitory effect on osteoclastogenesis in vitro through the suppression of both receptor activator of nuclear factor-κB ligand (RANKL)-induced ROS generation and Ca(2+) oscillations. In vivo studies showed that XAT treatment decreases the osteoclast number, prevents bone loss, and restores bone strength in ovariectomized mice. Excessive osteoclast formation and the resultant increase in bone resorption activity are key pathogenic factors of osteoporosis. In the present study, we have investigated the effects of XAT, a natural furanocoumarin, on the RANKL-mediated osteoclastogenesis in vitro and on ovariectomy-mediated bone loss in vivo.
    METHODS AND RESULTS:
    Cytotoxicity of XAT was evaluated using bone marrow macrophages (BMMs). Osteoclast differentiation, formation, and fusion were assessed using the tartrate-resistant acid phosphatase (TRAP) stain, the actin cytoskeleton and focal adhesion (FAK) stain, and the fusion assay, respectively. Osteoclastic bone resorption was evaluated using the pit formation assay. Reactive oxygen species (ROS) generation and removal were evaluated using dichlorodihydrofluorescein diacetate (DCFH-DA). Ca(2+) oscillations and their downstream signaling targets were then detected. The ovariectomized (OVX) mouse model was adopted for our in vivo studies. In vitro assays revealed that XAT inhibited the differentiation, formation, fusion, and bone resorption activity of osteoclasts. The inhibitory effect of XAT on osteoclastogenesis was associated with decreased intracellular ROS generation. XAT treatment also suppressed RANKL-induced Ca(2+) oscillations and the activation of the resultant downstream calcium-CaMKK/PYK2 signaling. Through these two mechanisms, XAT downregulated the key osteoclastogenic factors nuclear factor of activated T cells c1 (NFATc1) and c-FOS. Our in vivo studies showed that XAT treatment decreases the osteoclast number, prevents bone loss, rescues bone microarchitecture, and restores bone strength in OVX mice.
    CONCLUSIONS:
    Our findings indicate that XAT is protective against ovariectomy-mediated bone loss through the inhibition of RANKL-mediated osteoclastogenesis. Therefore, XAT may be considered to be a new therapeutic candidate for treating osteoporosis.
    In vivo:
    Neuropharmacology. 2014 Oct;85:67-72.
    Effects of methoxsalen, a CYP2A5/6 inhibitor, on nicotine dependence behaviors in mice.[Pubmed: 24859605]
    Metabolism of nicotine to inactive cotinine by hepatic enzyme CYP2A6 is the principal pathway by which active nicotine is removed from circulation.
    METHODS AND RESULTS:
    We therefore hypothesized that inhibition of mouse CYP2A5, the ortolog of human CYP2A6, by methoxsalen (8-methoxypsoralen) alter dependence-related behaviors of nicotine in the mouse. Conditioned place preference (CPP) test was used to assess the appetitive reward-like properties and precipitated nicotine withdrawal to assess physical (somatic and hyperalgesia) and affective (anxiety-related behaviors) measures. The nicotine plasma levels were also measured with or without methoxsalen pretreatment. Methoxsalen (15 and 30 mg/kg, intraperitoneally) pretreatment enhanced nicotine-induced preference in mice (p<0.05). However, there was a lack of enhancement of nicotine in the CPP test after the highest dose of the CYP-2A5 inhibitor. Similarly to the CPP results, repeated administration of methoxsalen increased the intensity of mecamylamine-precipitated withdrawal signs. The potentiation of nicotine preference and withdrawal intensity by methoxsalen was accompanied by significant increase in nicotine plasma levels in mice (p<0.05). Finally, methoxsalen enhanced the ability of a very low dose of nicotine (0.05 mg/kg) to reverse withdrawal signs in mice undergoing spontaneous withdrawal after chronic nicotine infusion (p<0.05).
    CONCLUSIONS:
    In conclusion, inhibition of nicotine metabolism by methoxsalen alters the behavioral effects of nicotine in the mouse. Combining CYP2A6 inhibitors with low dose nicotine replacement therapies may have a beneficial role in smoking cessation because it will decrease the drug elimination rate and maintain plasma and brain nicotine levels.
    Pharmacol Rep. 2010 Nov-Dec;62(6):1231-6.
    Anticonvulsant effects of four linear furanocoumarins, bergapten, imperatorin, oxypeucedanin, and xanthotoxin, in the mouse maximal electroshock-induced seizure model: a comparative study.[Pubmed: 21273683]
    The aim of this study was to determine and compare the anticonvulsant activities of four natural furanocoumarins [bergapten (5-methoxypsoralen), imperatorin (8-isopentenyloxypsoralen), oxypeucedanin (5-epoxy-isopentenyloxypsoralen) and xanthotoxin (8-methoxypsoralen)] in the maximal electroshock-induced seizure test in mice.
    METHODS AND RESULTS:
    The anticonvulsant effects of bergapten, imperatorin, oxypeucedanin, and xanthotoxin were evaluated at 15, 30, 60 and 120 min after their systemic (intraperitoneal) administration. Tonic hind limb extension (seizure activity) was evoked in adult albino Swiss mice by a current (sine-wave, 25 mA, 500 V, 50 Hz, 0.2 s stimulus duration) delivered via auricular electrodes. The time courses of protection by bergapten, imperatorin, oxypeucedanin and xanthotoxin against maximal electroshock-induced seizures revealed that 300 mg/kg imperatorin and xanthotoxin (C-8 substituted derivatives of psoralen) exerted strong anticonvulsant activity, whereas 300 mg/kg bergapten and oxypeucedanin (C-5 substituted derivatives of psoralen) did not produce any anticonvulsant activity in this model.
    CONCLUSIONS:
    In conclusion, imperatorin and xanthotoxin protected the animals against maximal electroshock-induced seizures, whereas bergapten and oxypeucedanin, despite their chemical and structural similarities to xanthotoxin and imperatorin, exerted no anticonvulsant activity in this seizure test.
    制备储备液(仅供参考)
    1 mg 5 mg 10 mg 20 mg 25 mg
    1 mM 4.6253 mL 23.1267 mL 46.2535 mL 92.5069 mL 115.6337 mL
    5 mM 0.9251 mL 4.6253 mL 9.2507 mL 18.5014 mL 23.1267 mL
    10 mM 0.4625 mL 2.3127 mL 4.6253 mL 9.2507 mL 11.5634 mL
    50 mM 0.0925 mL 0.4625 mL 0.9251 mL 1.8501 mL 2.3127 mL
    100 mM 0.0463 mL 0.2313 mL 0.4625 mL 0.9251 mL 1.1563 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
    花椒毒酚,花椒毒醇; Xanthotoxol CFN98016 2009-24-7 C11H6O4 = 202.2 20mg QQ客服:215959384
    花椒毒素; 8-甲氧基补骨脂素; Xanthotoxin CFN98372 298-81-7 C12H8O4 = 216.2 20mg QQ客服:2056216494
    佛手酚葡萄糖苷; Bergaptol-beta-glucopyranoside CFN95186 131623-13-7 C17H16O9 = 364.3 10mg QQ客服:1413575084
    8-羟基-5-O-beta-D-吡喃葡萄糖补骨脂素; 8-Hydroxy-5-O-beta-D-glucopyranosylpsoralen CFN98663 425680-98-4 C17H16O10 = 380.3 5mg QQ客服:3257982914
    香柑醇; 5-羟基-6,7-呋喃并香豆素; Bergaptol CFN98772 486-60-2 C11H6O4 = 202.2 20mg QQ客服:2056216494
    佛手苷内酯; Bergapten CFN98766 484-20-8 C12H8O4 = 216.2 20mg QQ客服:2159513211
    8-羟基佛手苷内酯; 8-Hydroxybergapten CFN90591 1603-47-0 C12H8O5 = 232.19 10mg QQ客服:1457312923
    异茴芹灵; Isopimpinellin CFN98752 482-27-9 C13H10O5 = 246.2 20mg QQ客服:1457312923
    Rivulobirin B; Rivulobirin B CFN99893 194145-29-4 C23H12O9 = 432.3 5mg QQ客服:1457312923
    三甲沙林; Trioxsalen CFN70355 3902-71-4 C14H12O3 = 228.2 5mg QQ客服:1457312923

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