Carlsson L M, Marklund S L, Edlund T
Department of Clinical Chemistry, Umeå University Hospital, Sweden.
Proc Natl Acad Sci U S A. 1996 May 28;93(11):5219-22. doi: 10.1073/pnas.93.11.5219.
Extracellular superoxide dismutase (EC-SOD) is a secreted Cu and Zn-containing glycoprotein. While EC-SOD from most mammals is tetrameric and has a high affinity for heparin and heparan sulfate, rat EC-SOD has a low affinity for heparin, does not bind to heparan sulfate in vivo, and is apparently dimeric. To examine the molecular basis of the deviant physical properties of rat EC-SOD, the cDNAs of the rat and mouse EC-SODs were isolated and the deduced amino acid sequences were compared with that of human EC-SOD. Comparison of the sequences offered no obvious explanation of the differences. Analysis of a series of chimeric and point mutated EC-SODs showed that the N-terminal region contributes to the oligomeric state of the EC-SODs, and that a single amino acid, a valine (human amino acid position 24), is essential for the tetramerization. This residue is replaced by an aspartate in the rat. Rat EC-SOD carrying an Asp --> Val mutation is tetrameric and has a high heparin affinity, while mouse EC-SOD with a Val --> Asp mutation is dimeric and has lost its high heparin affinity. Thus, the rat EC-SOD dimer is converted to a tetramer by the exchange of a single amino acid. Furthermore, the cooperative action of four heparin-binding domains is necessary for high heparin affinity. These results also suggest that tetrameric EC-SODs are not symmetrical tetrahedrons, but composed of two interacting dimers, further supporting an evolutionary relationship with the dimeric cytosolic Cu and Zn-containing SODs.
细胞外超氧化物歧化酶(EC-SOD)是一种分泌型含铜和锌的糖蛋白。大多数哺乳动物的EC-SOD是四聚体,对肝素和硫酸乙酰肝素具有高亲和力,而大鼠EC-SOD对肝素的亲和力较低,在体内不与硫酸乙酰肝素结合,且显然是二聚体。为了研究大鼠EC-SOD异常物理性质的分子基础,分离了大鼠和小鼠EC-SOD的cDNA,并将推导的氨基酸序列与人EC-SOD的序列进行比较。序列比较没有对差异给出明显的解释。对一系列嵌合和点突变的EC-SOD的分析表明,N端区域有助于EC-SOD的寡聚状态,并且单个氨基酸,即缬氨酸(人类氨基酸位置24),对四聚化至关重要。在大鼠中该残基被天冬氨酸取代。携带天冬氨酸→缬氨酸突变的大鼠EC-SOD是四聚体,具有高肝素亲和力,而具有缬氨酸→天冬氨酸突变的小鼠EC-SOD是二聚体,并且失去了其高肝素亲和力。因此,通过单个氨基酸的交换,大鼠EC-SOD二聚体转变为四聚体。此外,四个肝素结合结构域的协同作用对于高肝素亲和力是必需的。这些结果还表明,四聚体EC-SOD不是对称的四面体,而是由两个相互作用的二聚体组成,进一步支持了与二聚体细胞质含铜和锌的SOD的进化关系。