Facultad de Química, Universidad Nacional Autónoma de México, México DF 04510, Mexico.
Phytochemistry. 2013 Dec;96:273-8. doi: 10.1016/j.phytochem.2013.09.006. Epub 2013 Sep 28.
An extract of the solid cultures of Sporormiella minimoides (Sporormiaceae) isolated as an endophytic fungus from Hintonia latiflora (Rubiaceae), yielded three polyketides, 3,6-dimethoxy-8-methyl-1H,6H-benzo[de]isochromene-1,9-dione, 3-hydroxy-1,6,10-trimethoxy-8-methyl-1H,3H-benzo[de]isochromen-9-one, and 5-hydroxy-2,7-dimethoxy-8-methylnaphthoquinone, along with three known compounds, corymbiferone, ziganein, and brocaenol B. Their structures were characterized by spectrometric and spectroscopic methods. So as to be consistent the literature reports, 3,6-dimethoxy-8-methyl-1H,6H-benzo[de]isochromene-1,9-dione and 3-hydroxy-1,6,10-trimethoxy-8-methyl-1H,3H-benzo[de]isochromen-9-one were given the trivial names of corymbiferone C and corymbiferan lactone E, respectively. All isolates were tested as potential human calmodulin (hCaM) inhibitors using the fluorescent biosensor hCaM V91C-mBBr, but only 5-hydroxy-2,7-dimethoxy-8-methylnaphthoquinone quenched significantly the extrinsic fluorescence of this biosensor, with a dissociation constant (Kd) value of 1.55 μM. Refined docking analysis predicted that 5-hydroxy-2,7-dimethoxy-8-methylnaphthoquinone could also be bound to hCaM at site I displaying hydrophobic interactions with Phe19 and 68, Met51, 71, and 72, and Ile52 and 63 residues.
从茜草科植物宽叶鸡骨常山(Hintonia latiflora)中分离出的内生真菌小孢枝孢(Sporormiella minimoides)的固体培养物提取物中,分离得到三种聚酮类化合物,分别为 3,6-二甲氧基-8-甲基-1H,6H-苯并[de]异色烯-1,9-二酮、3-羟基-1,6,10-三甲氧基-8-甲基-1H,3H-苯并[de]异色烯-9-酮和 5-羟基-2,7-二甲氧基-8-甲基萘醌,以及三种已知化合物,即鸡骨常山酮、紫檀芪和布罗考醇 B。通过光谱和光谱方法对它们的结构进行了表征。为了与文献报道一致,3,6-二甲氧基-8-甲基-1H,6H-苯并[de]异色烯-1,9-二酮和 3-羟基-1,6,10-三甲氧基-8-甲基-1H,3H-苯并[de]异色烯-9-酮分别被赋予了鸡骨常山酮 C 和鸡骨常山内酯 E 的俗名。所有分离物均使用荧光生物传感器 hCaM V91C-mBBr 作为潜在的人钙调蛋白(hCaM)抑制剂进行了测试,但只有 5-羟基-2,7-二甲氧基-8-甲基萘醌显著猝灭了该生物传感器的外源性荧光,解离常数(Kd)值为 1.55 μM。经过改进的对接分析预测,5-羟基-2,7-二甲氧基-8-甲基萘醌也可以与 hCaM 结合在 I 位点,与 Phe19 和 68、Met51、71 和 72 以及 Ile52 和 63 残基形成疏水相互作用。
