Tilgmann C, Melen K, Lundström K, Jalanko A, Julkunen I, Kalkkinen N, Ulmanen I
Orion-Farmos Pharmaceuticals, Orion Research Center, Helsinki, Finland.
Eur J Biochem. 1992 Jul 15;207(2):813-21. doi: 10.1111/j.1432-1033.1992.tb17112.x.
The rat and human recombinant soluble and membrane-bound catechol O-methyltransferase (S- and MB-COMT, respectively) were expressed using mammalian and baculovirus vectors. Low levels of rat and human S-COMT polypeptides were detected by immunoprecipitation in K-562 cell lines transfected with the S-COMT vectors. From K-562 cells transfected with the rat MB-COMT construct, both S- and MB-COMT recombinant proteins were detected by a rat COMT-specific anti-serum. Infection of lepidopteran Spodoptera frugiperda cells with recombinant S- or MB-COMT baculovirus constructs yielded high amounts of enzymically active and immunoreactive S- or MB-COMT proteins, respectively. Pulse/chase experiments with [35S]methionine-labelled insect cells infected with the MB-COMT baculovirus showed that the 30-kDa recombinant human MB-COMT polypeptide was not processed into the 25-kDa S-COMT form. Subcellular fractionations of insect cells, followed by immunoblotting with COMT antiserum, showed that recombinant S-COMT was found only in the soluble, cytoplasmic fraction, whereas MB-COMT resided both in soluble and membrane fractions. The recombinant MB-COMT sedimented in Percoll gradients at the density of 1.042 g/ml cosedimenting with the plasma-membrane marker. Fractionation and immunoblotting experiments on homogenized total rat brains indicated that the rat S-COMT (24 kDa) and some of the rat MB-COMT (28 kDa) was recovered in soluble fractions, whereas the microsomal material having COMT activity contained the MB-COMT polypeptide. The rat brain microsomal MB-COMT had a density of 1.042 g/ml in Percoll gradients, cosedimenting with the plasma-membrane and rough-endoplasmic-reticulum marker enzymes. The meta/para methylation ratio of dihydroxybenzoic-acid substrate by different recombinant and rat brain COMT-containing subcellular fractions was analysed.
使用哺乳动物和杆状病毒载体分别表达大鼠和人重组可溶性及膜结合儿茶酚-O-甲基转移酶(分别为S-COMT和MB-COMT)。在用S-COMT载体转染的K-562细胞系中,通过免疫沉淀检测到低水平的大鼠和人S-COMT多肽。在用大鼠MB-COMT构建体转染的K-562细胞中,大鼠COMT特异性抗血清检测到了S-COMT和MB-COMT重组蛋白。用重组S-或MB-COMT杆状病毒构建体感染鳞翅目昆虫草地贪夜蛾细胞,分别产生了大量具有酶活性和免疫反应性的S-或MB-COMT蛋白。用[35S]甲硫氨酸标记的感染MB-COMT杆状病毒的昆虫细胞进行脉冲/追踪实验表明,30 kDa的重组人MB-COMT多肽未加工成25 kDa的S-COMT形式。对昆虫细胞进行亚细胞分级分离,然后用COMT抗血清进行免疫印迹分析,结果表明重组S-COMT仅存在于可溶性细胞质部分,而MB-COMT则同时存在于可溶性和膜部分。重组MB-COMT在Percoll梯度中以1.042 g/ml的密度沉淀,与质膜标记物共沉淀。对大鼠全脑匀浆进行分级分离和免疫印迹实验表明,大鼠S-COMT(24 kDa)和部分大鼠MB-COMT(28 kDa)存在于可溶性部分,而具有COMT活性的微粒体物质含有MB-COMT多肽。大鼠脑微粒体MB-COMT在Percoll梯度中的密度为1.042 g/ml,与质膜和粗面内质网标记酶共沉淀。分析了不同重组体和含大鼠脑COMT的亚细胞部分对二羟基苯甲酸底物的间位/对位甲基化率。
