Ginkgolic Acid C15:1 (Synonyms: Anacardic Acid 15:1,Ginkgolic Acid I) |
Catalog No.GC10134 |
L'acide ginkgolique C15:1 est un composé naturel qui inhibe la SUMOylation avec une IC50 de 3,0 μM dans un test in vitro.
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Cas No.: 22910-60-7
Sample solution is provided at 25 µL, 10mM.
Ginkgolic acid is an alkylphenol derivative that causes allergic skin inflammation. IC50 values of ginkgolic acid against the SUMOylation of RanGAP1-C2 are 3.0 μM. Ginkgolic Acid, a Major Component of Ginkgo biloba Extract, inhibited SUMOylation in vitro and in vivo [1].
The cytotoxicity of ginkgolic acid (15:1) in primary rat hepatocytes was lower than in HepG2 cells. Ginkgolic acid (15:1) was demonstrated less cytotoxicity in four-day-cultured primary rat hepatocytes than in 20-h cultured ones. Co-incubation with selective CYP inhibitors, α-naphthoflavone and ketoconazole, could decrease the cytotoxicity of ginkgolic acid (15:1) in primary rat hepatocytes. In agreement, pretreatment with selective CYP inducers, β-naphthoflavone and rifampin, could increase the cytotoxicity of ginkgolic acid (15:1) in HepG2 cells [2]. Ginkgolic acid inhibited the growth of tumorogenic cell lines in a dose- and time-dependent manner. Tumor cells were treated with GA for 72 h, 70.53 ± 4.54% Hep-2 and 63.5 ± 7.2% Tca8113 cells were retarded at GO/G1 phase, and the percentage of apoptosis was 40.4 ± 1.58 and 38.4 ± 1.7%, respectively [3]. In 293T cells expressing Flag-tagged SUMO, ginkgolic Acid Inhibited SUMOylation. Ginkgolic acid impaired SUMOylation by blocking the formation of an E1-SUMO thioester complex, by directly binding to E1 [1].
References:
[1] Fukuda I, Ito A, Hirai G, et al. Ginkgolic acid inhibits protein SUMOylation by blocking formation of the E1-SUMO intermediate[J]. Chemistry & biology, 2009, 16(2): 133-140.
[2] Liu Z H, Zeng S. Cytotoxicity of ginkgolic acid in HepG2 cells and primary rat hepatocytes[J]. Toxicology letters, 2009, 187(3): 131-136.
[3] Zhou C, Li X, Du W, et al. Antitumor effects of ginkgolic acid in human cancer cell occur via cell cycle arrest and decrease the Bcl-2/Bax ratio to induce apoptosis[J]. Chemotherapy, 2010, 56(5): 393-402.
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