[人类唾液和牙龈中的蛋白水解酶]
[Proteolytic enzymes in human saliva and gingiva].
作者信息
Gridina L I, Levitskiĭ A P, Vovchuk S V
出版信息
Vopr Med Khim. 1978 May-Jun;24(3):407-11.
Proteolytic activity was studied in human saliva, gingiva and in other tissues of oral cavity by means of hydrolysis of N-alpha-benzoyl-L-arginine ethyl ester (BAEE), protamine and hemoglobin. Alkaline proteinases were mainly observed in gingiva, leukocytes and in a precipitate of mixed saliva. Acid proteinases (pH 3.5) were localized in submaxillary saliva. In a liquid fraction of saliva maximal proteolytic activity was estimated both at pH 3.5 (by hydrolysis of hemoglobin), at pH 8.0 (hydrolysis of BAEE and protamine) and at pH 9.3 (only in experiments with protamine). The protamine-splitting activity at pH 9.3 was found only in parotid saliva. The optima of the proteolytic enzymes activity were at pH 3.5 (substrate hemoglobin) and at pH 7.5 (substrates protamine and BAEE) in precipitate of mixed saliva and in gingiva. Effects of several inhibitors, chelating agents, thiol-containing substances and metal ions on the proteolytic activity in saliva were studied.
通过水解N-α-苯甲酰-L-精氨酸乙酯(BAEE)、鱼精蛋白和血红蛋白,研究了人唾液、牙龈及口腔其他组织中的蛋白水解活性。碱性蛋白酶主要见于牙龈、白细胞及混合唾液的沉淀物中。酸性蛋白酶(pH 3.5)定位于颌下唾液中。在唾液的液体部分,最大蛋白水解活性在pH 3.5(通过血红蛋白水解)、pH 8.0(BAEE和鱼精蛋白水解)以及pH 9.3(仅在鱼精蛋白实验中)时测得。仅在腮腺唾液中发现pH 9.3时的鱼精蛋白裂解活性。混合唾液沉淀物和牙龈中蛋白水解酶活性的最适pH分别为pH 3.5(底物血红蛋白)和pH 7.5(底物鱼精蛋白和BAEE)。研究了几种抑制剂、螯合剂、含硫醇物质和金属离子对唾液中蛋白水解活性的影响。
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