Kondoh Gen, Watanabe Hitomi, Tashima Yuko, Maeda Yusuke, Kinoshita Taroh
Laboratory of Animal Experiments for Regeneration, Institute for Frontier Medical Sciences, Kyoto University, Kyoto, Japan.
J Biochem. 2009 Jan;145(1):115-21. doi: 10.1093/jb/mvn148. Epub 2008 Nov 4.
We have previously found that the angiotensin-converting enzyme (ACE) carries GPI-anchored protein releasing activity (GPIase) as well as dipeptidase activity. Testicular ACE (tACE), the male germinal specific isozyme, plays a crucial role in male fertilization. The amino-terminal region of this isozyme is different from that of somatic isozyme (sACE) and contains potential O-linked glycosylation sites. By multiple mutagenesis after an in silico prediction, amino acid residues acquiring O-glycans were assigned. Both GPIase and dipeptidase activities were compared between O-glycan null mutant and wild-type molecules, but no differences were found. Furthermore, the wild-type tACE was produced in two different cells (COS7 and CHO) and its activities compared. The GPIase activity, but not dipeptidase, was apparently higher for CHO-derived molecule than COS7. Sensitivity to neuraminidase and O-glycosidase digestions and the profile of glycosylation were quite different between these two molecules. Moreover, serial digestions with neuraminidase and O-glycosidase have no influence on GPIase activity of both molecules, suggesting that the sialylation and the presence of O-glycan has no influence on tACE enzyme activities, while the set of glycans modulate GPIase activity.
我们之前发现,血管紧张素转换酶(ACE)具有糖基磷脂酰肌醇锚定蛋白释放活性(GPIase)以及二肽酶活性。睾丸ACE(tACE)是雄性生殖特异性同工酶,在雄性受精过程中起关键作用。该同工酶的氨基末端区域与体细胞同工酶(sACE)不同,并且含有潜在的O-连接糖基化位点。通过计算机预测后的多重诱变,确定了获得O-聚糖的氨基酸残基。比较了O-聚糖缺失突变体和野生型分子之间的GPIase和二肽酶活性,但未发现差异。此外,在两种不同的细胞(COS7和CHO)中产生野生型tACE并比较其活性。CHO来源的分子的GPIase活性明显高于COS7,而二肽酶活性则不然。这两种分子对神经氨酸酶和O-糖苷酶消化的敏感性以及糖基化谱有很大不同。此外,用神经氨酸酶和O-糖苷酶进行的连续消化对两种分子的GPIase活性均无影响,这表明唾液酸化和O-聚糖的存在对tACE酶活性没有影响,而聚糖的组合调节GPIase活性。
