Tsuchida S, Maki T, Sato K
Second Department of Biochemistry, Hirosaki University School of Medicine, Japan.
J Biol Chem. 1990 May 5;265(13):7150-7.
Although recent studies suggest involvement of glutathione transferase (GST) of blood vessels in vasodilation by nitroglycerin, GST forms in blood vessels remain to be studied. In this study, three GST forms (pI values 8.3, 6.6, and 4.8) were purified from human aorta and four (pI values 6.0, 5.6, 5.3, and 4.6) from the heart by affinity chromatography followed by chromatofocusing. The major form of both aorta (pI 4.8) and heart (pI 4.6) was identified as GST-pi, and the other five forms were immunologically related to GST-mu, suggesting that the five belong to the Mu class. Among nine human GST forms, including three in the Alpha class purified from the liver, GST-mu, aorta pI 8.3 form, and GST-I (a form of the Alpha class, corresponding to GST-epsilon (B1B1)) showed high activities toward nitroglycerin, 1.08, 0.85, and 0.78 units/mg protein, respectively. GST-pi did not exhibit the activity. The Km values of the aorta form (pI 8.3) for glutathione (GSH) and nitroglycerin were calculated as 0.12 and 1.1 mM, respectively. The Km values of GST-mu and GST-I for GSH were 0.29 and 0.09 mM, and those for nitroglycerin were 2.5 and 0.3 mM, respectively. The activity of the pI 8.3 form as well as GST-mu toward nitroglycerin was inhibited by bromosulfophthalein, which is known to inhibit the relaxation of rabbit aorta induced by nitroglycerin, at the lower concentration (IC50, 2 microM) than was GST-I (IC50, 32 microM). Two-dimensional gel electrophoresis and N-terminal amino acid sequence analysis revealed that five forms in the Mu class are homo- or heterodimers of five different subunits named M1 (pI 7.0/Mr 27,000), M2 (6.6/27,000), M3 (6.0/27,000), N1 (6.5/26,500), and N2 (5.9/26,500). The subunit structures of the five forms are as follows: pI 8.3 form, M1M2; 6.6 form, M2N1; 6.0 form, M3M3; 5.6 form, M3N2; and 5.3 form, N2N2. M3 and N2 seem to correspond to the subunits of GST-mu, and -4 (Board, P. G., Suzuki, T., and Shaw, D. C. (1988) Biochim. Biophys. Acta 953, 214-217), respectively. These subunits except N1 are different from each other at two or three positions in the first 20 residues of N-terminal amino acid sequence. These results indicate the presence of five different subunits in the human Mu class and also suggest that GST-M1M2 and -M2N1 found in the aorta are involved in the expression of the pharmacologic effect of nitroglycerin.
尽管最近的研究表明血管中的谷胱甘肽转移酶(GST)参与硝酸甘油介导的血管舒张作用,但血管中的GST形式仍有待研究。在本研究中,通过亲和色谱随后进行聚焦层析,从人主动脉中纯化出三种GST形式(pI值分别为8.3、6.6和4.8),从心脏中纯化出四种(pI值分别为6.0、5.6、5.3和4.6)。主动脉(pI 4.8)和心脏(pI 4.6)的主要形式被鉴定为GST-π,其他五种形式与GST-μ在免疫学上相关,表明这五种属于Mu类。在九种人GST形式中,包括从肝脏中纯化出的三种α类形式、GST-μ、主动脉pI 8.3形式以及GST-I(α类的一种形式,对应于GST-ε(B1B1))对硝酸甘油表现出高活性,分别为1.08、0.85和0.78单位/毫克蛋白质。GST-π没有表现出这种活性。主动脉形式(pI 8.3)对谷胱甘肽(GSH)和硝酸甘油的Km值分别计算为0.12和1.1 mM。GST-μ和GST-I对GSH的Km值分别为0.29和0.09 mM,对硝酸甘油的Km值分别为2.5和0.3 mM。pI 8.3形式以及GST-μ对硝酸甘油的活性被溴磺酞抑制,已知溴磺酞在比GST-I(IC50,32 μM)更低的浓度(IC50,2 μM)下抑制硝酸甘油诱导的兔主动脉舒张。二维凝胶电泳和N端氨基酸序列分析表明,Mu类中的五种形式是由名为M1(pI 7.0/ Mr 27,000)、M2(6.6/27,000)、M3(6.0/27,000)、N1(6.5/26,500)和N2(5.9/26,500)的五个不同亚基组成的同二聚体或异二聚体。这五种形式的亚基结构如下:pI 8.3形式,M1M2;6.6形式,M2N1;6.0形式,M3M3;5.6形式,M3N2;5.3形式,N2N2。M3和N2似乎分别对应于GST-μ的亚基以及 -4(Board, P. G., Suzuki, T., and Shaw, D. C. (1988) Biochim. Biophys. Acta 953, 214 - 217)。这些亚基除N1外,在N端氨基酸序列的前20个残基中的两个或三个位置彼此不同。这些结果表明人Mu类中存在五个不同的亚基,也表明在主动脉中发现的GST-M1M2和 -M2N1参与硝酸甘油药理作用的表达。
