Purification of prophenoloxidase from crayfish blood cells, and its activation by an endogenous serine proteinase

Anna Aspán, Kenneth Söderhäll
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引用次数: 156

Abstract

A prophenoloxidase was purified from blood cells of the crayfish Pacifastacus leniusculus. The purified proenzyme was homogeneous on sodium dodecyl sulfate polyacrylamide gel electrophoresis, and had a molecular mass of 76 kDa under both non-reducing and reducing conditions. The crayfish prophenoloxidase was a glycoprotein, with an isoelectric point of about 5.4.

A 36 kDa serine proteinase, isolated and purified from crayfish blood cells (Aspán et al., 1990b, Insect Biochem.20, 709–718), could convert the 76 kDa prophenoloxidase to phenoloxidase by an apparent proteolytic cleavage, since the molecular masses of two active enzymes, phenoloxidases, were 60 and 62 kDa. A commercial serine proteinase, trypsin, activated prophenoloxidase to phenoloxidase, and as a result a 60 kDa protein was produced.

In the blood cells of crayfish four serine proteinases or 3H-DFP binding proteins are present, with masses of 36, 38, 50 and 67 kDa. However, 3H-DFP labelling of proteins in blood cells lysate, prepared in its inactive form, only yielded labelled bands of 50 and 67 kDa, whereas addition of an elicitor to prophenoloxidase system activation, a β-1,3-glucan, resulted in the appearance of four 3H-DFP labelled proteins, with molecular masses of 67, 50, 38 and 36 kDa, respectively. Thus, the 36 kDa endogenous serine proteinase, the prophenoloxidase activating enzyme, ppA, may be present as an inactive precursor in crayfish blood cells. The 38 and 36 kDa proteinases could both cleave the chromogenic peptide S-2337 [Bz-Ile-Glu-(γ-O-Piperidyl)-Gly-Arg-p-nitroaniline], and specifically bind prophenoloxidase.

These results show that crayfish prophenoloxidase, the terminal enzyme of the prophenoloxidase activating cascade, a proposed defence pathway in arthropod blood, can be converted to active enzyme by an apparent proteolytic cleavage, not only by a commercial proteinase, but also by an endogenous serine type proteinase.

小龙虾血细胞中酚氧化酶原的纯化及其内源性丝氨酸蛋白酶的活化
从小龙虾血细胞中纯化出一种酚氧化酶原。纯化的原酶在十二烷基硫酸钠聚丙烯酰胺凝胶电泳上均相,在非还原和还原条件下均具有76 kDa的分子量。小龙虾酚氧化酶原是一种糖蛋白,等电点约为5.4。从小龙虾血细胞中分离纯化出一种36 kDa的丝氨酸蛋白酶(Aspán et al., 1990b, Insect biochemistry . 20,709 - 718),该酶能通过明显的蛋白水解裂解作用将76 kDa的酚氧化酶原转化为酚氧化酶,因为酚氧化酶这两种活性酶的分子质量分别为60和62 kDa。一种商业丝氨酸蛋白酶胰蛋白酶将酚氧化酶原活化为酚氧化酶,从而产生60 kDa的蛋白质。小龙虾血细胞中存在4种丝氨酸蛋白酶或3H-DFP结合蛋白,其质量分别为36、38、50和67 kDa。然而,用无活性形式制备的血细胞裂解液中的3H-DFP标记蛋白质,只产生50和67 kDa的标记带,而在酚氧化酶原系统激活中添加β-1,3-葡聚糖,会产生4个3H-DFP标记的蛋白质,分子质量分别为67、50、38和36 kDa。因此,36kda内源性丝氨酸蛋白酶,即酚氧化酶原活化酶,ppA,可能作为无活性前体存在于小龙虾血细胞中。38 kDa和36 kDa的蛋白酶均可切割显色肽S-2337 [Bz-Ile-Glu-(γ- o -胡椒酰基)- gly - arg -p-硝基苯胺],并特异性结合酚氧化酶原。这些结果表明,小龙虾的酚氧化酶原(prophenoloxidase),即原酚氧化酶激活级联的末端酶,是节肢动物血液中被提出的一种防御途径,它不仅可以被商业蛋白酶转化为活性酶,也可以被内源性丝氨酸型蛋白酶转化为活性酶。
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