Overexpression and Mechanistic Characterization of Blastula Protease 10, a Metalloprotease Involved in Sea Urchin Embryogenesis and Development

Giordano F.Z Da Silva,Rae L Reuille,Li-June Ming,Brian T Livingston

doi:10.1074/jbc.m510707200

Giordano F.Z Da Silva, Rae L Reuille + Show 2 more

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https://doi.org/10.1074/jbc.m510707200

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Abstract

Blastula protease 10 (BP10) is a metalloenzyme involved in sea urchin embryogenesis, which has been assigned to the astacin family of zinc-dependent endopeptidases. It shows greatest homology with the mammalian tolloid-like genes and contains conserved structural motifs consistent with astacin, tolloid, and bone morphogenetic protein 1. Astacin, a crustacean digestive enzyme, has been proposed to carry out hydrolysis via a metal-centered mechanism that involves a metal-coordinated "tyrosine switch." It has not been determined if the more structurally complex members of this family involved in eukaryotic development share this mechanism. The recombinant BP10 has been overexpressed in Escherichia coli, its metalloenzyme nature has been confirmed, and its catalytic properties have been characterized through kinetic studies. BP10 shows significant hydrolysis toward gelatin both in its native zinc-containing form and copper derivative. The copper derivative of BP10 shows a remarkable 960% rate acceleration toward the hydrolysis of the synthetic substrate N-benzoyl-arginine-p-nitroanilide when compared with the zinc form. The enzyme also shows calcium-dependent activation. These are the first thorough mechanistic studies reported on BP10 as a representative of the more structurally complex members of astacin-type enzymes in deuterostomes, which can add supporting data to corroborate the metal-centered mechanism proposed for astacin and the role of the coordinated Tyr. We have demonstrated the first mechanistic study of a tolloid-related metalloenzyme involved in sea urchin embryogenesis.

Highlights

Nates with the three histidines, a tyrosine (Met-His/SerTyr in a loop region downstream from the coordinated His residues), and a water molecule [4]
Blastula protease 10 (BP10) has a unique arrangement of structural features [5, 6], such as the epidermal growth factor (EGF)-Ca2ϩ binding domain, two adjacent CUB domains, and a catalytic domain that is highly homologous to astacin
The active site Zn2ϩ coordinated by three His, a tyrosine, and a water molecule can be activated via detachment of the Tyr-phenolate with a concomitant deprotonation of the coordinated water assisted by a glutamate residue to afford the arrangement Zn2ϩ–OH1⁄71⁄71⁄7GluϪ without a coordinated Tyr

Summary

Introduction

Nates with the three histidines (boldface type), a tyrosine (Met-His/SerTyr in a loop region downstream from the coordinated His residues), and a water molecule [4]. A metal-centered mechanism has been proposed for astacin and serralysin based on kinetic and spectroscopic studies of the enzymes and their Cu2ϩ derivatives [24, 25].

Results

Conclusion