Mechanistic studies of the astacin-like Serratia metalloendopeptidase serralysin: highly active (&gt;2000%) Co(II) and Cu(II) derivatives for further corroboration of a "metallotriad" mechanism

Park, Hyun Ik; Ming, Li‐June

doi:10.1007/s00775-002-0338-2

Cited by 32 publications

(24 citation statements)

References 55 publications

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“…6, A and D), indicating the presence of two ionizable groups in the catalytic mechanism of Zn-BP10. Two ionization constants, pK a1 ϭ 5.94 and pK a2 ϭ 10.2, were obtained from the k cat versus pH profile, and pK a1 ϭ 6.3 and pK a2 ϭ 10.1 were obtained from the k cat /K m versus pH profile, which can be assigned to the deprotonation of a zinc-bound water and the coordinated tyrosine, respectively, which are consistent with previous reports for serralysin (24). The role of the coordinated Tyr in BP10 catalysis is further addressed below.…”

Section: Resultssupporting

confidence: 89%

“…Thus, the Zn 2ϩ is frequently replaced with other spectroscopically active metal ions to afford derivatives that can offer detailed insight into the catalytic mechanisms and structure within the active site (36). The formation of the Cu 2ϩ -substituted BP10 (Cu-BP10) is evident by the intense Tyr-to-Cu 2ϩ LMCT at 454 nm, analogous to that in Cu 2ϩ -astacin and Cu 2ϩ -serralysin (24,37). The activity of Cu-BP10 is considerably higher than Zn-BP10 in terms of k cat (0.76 s Ϫ1 ) and k cat /K m (5430 M Ϫ1 s Ϫ1 ), reflecting a 960% increase in activity in terms of k cat and 485% in terms of k cat /K m .…”

Section: Mechanistic Studies Of the Copper Derivative Of Bp10 (Cu-bp10)-mentioning

confidence: 99%

“…However, the coordination of the Tyr-phenolate under physiological conditions does not seem to affect astacin catalysis under neutral conditions. The status of the coordinated tyrosine has been proposed to be an inhibitory process in the metal-centered hydrolysis of peptide bonds by astacin and serralysin (a bacterial metalloprotease containing an astacin-like active site) (24,25). A metal-centered mechanism has been proposed for astacin and serralysin based on kinetic and spectroscopic studies of the enzymes and their Cu 2ϩ derivatives (24,25).…”

mentioning

confidence: 99%

“…The status of the coordinated tyrosine has been proposed to be an inhibitory process in the metal-centered hydrolysis of peptide bonds by astacin and serralysin (a bacterial metalloprotease containing an astacin-like active site) (24,25). A metal-centered mechanism has been proposed for astacin and serralysin based on kinetic and spectroscopic studies of the enzymes and their Cu 2ϩ derivatives (24,25). In this mechanism, the active site Zn 2ϩ 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 Zn 2ϩ -OH⅐⅐⅐Glu Ϫ without a coordinated Tyr.…”

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confidence: 99%

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

Silva

Reuille

et al. 2006

Journal of Biological Chemistry

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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 tolloidrelated metalloenzyme involved in sea urchin embryogenesis.The astacin family of zinc-dependent endopeptidases is ubiquitously distributed across all phyla and part of the superfamily of metzincins (1). Approximately 30 members of the astacin family have been characterized at the protein level (2), such as meprins, bone morphogenetic protein-1 (BMP-1), 3 and tolloid, whereas several others have been identified through gene sequencing, including those in Caenorhabditis elegans (3). The signature of the sequence of the active site motif for this family of enzymes is HEXXHXXGXXH, where one Zn 2ϩ ion coordinates 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). Most members of this family share common domain structures such as the pre-and proenzyme sequences located immediately N-terminal to the protease domain. Several members contain one or two copies of epidermal growth factor (EGF)-like domains and complement-like domains (Clr, Cls) near the C terminus (2). The shuffling of different domains in relation to the catalytic protease domain creates a variety of proteins with different structures and functions.Originally isolated and characterized as a developmentally regulated gene in sea urchin embryos (5, 6), the BP10 protein has remained uncharacterized. It shares sequence similarity with other members of the astacin family of enzymes (astacin itself being a crayfish digestive enzyme (4, ...

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Section: Resultssupporting

confidence: 89%

Section: Mechanistic Studies Of the Copper Derivative Of Bp10 (Cu-bp10)-mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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

Silva

Reuille

et al. 2006

Journal of Biological Chemistry

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“…The gene aprA is present in all 25 genomes, except that of strain P1.8, whereas aprX was only detected in the genomes of strains belonging to sub-clade 1 (Supplementary Table S1). AprA and AprX belong to the M10 family that includes serralysin, aeruginolysin and other related exopeptidases that cause tissue damage and anaphylactic responses (Park and Ming, 2002). In Pseudomonas entomophila, an aprA mutant was shown to be slightly less virulent and to have a reduced persistence in D. melanogaster (Liehl et al, 2006).…”

Section: Strain Selectionmentioning

confidence: 99%

Insect pathogenicity in plant-beneficial pseudomonads: phylogenetic distribution and comparative genomics

et al. 2016

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Bacteria of the genus Pseudomonas occupy diverse environments. The Pseudomonas fluorescens group is particularly well-known for its plant-beneficial properties including pathogen suppression. Recent observations that some strains of this group also cause lethal infections in insect larvae, however, point to a more versatile ecology of these bacteria. We show that 26 P. fluorescens group strains, isolated from three continents and covering three phylogenetically distinct sub-clades, exhibited different activities toward lepidopteran larvae, ranging from lethal to avirulent. All strains of sub-clade 1, which includes Pseudomonas chlororaphis and Pseudomonas protegens, were highly insecticidal regardless of their origin (animals, plants). Comparative genomics revealed that strains in this sub-clade possess specific traits allowing a switch between plant-and insect-associated lifestyles. We identified 90 genes unique to all highly insecticidal strains (sub-clade 1) and 117 genes common to all strains of sub-clade 1 and present in some moderately insecticidal strains of sub-clade 3. Mutational analysis of selected genes revealed the importance of chitinase C and phospholipase C in insect pathogenicity. The study provides insight into the genetic basis and phylogenetic distribution of traits defining insecticidal activity in plant-beneficial pseudomonads. Strains with potent dual activity against plant pathogens and herbivorous insects have great potential for use in integrated pest management for crops.

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Serralysin

Baumann

2004

Handbook of Metalloproteins

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Serralysins (EC 3.4.24.40) are a family of 50‐kDa metalloproteases from gram‐negative enterobacteria. They are members of the metzincin clan of endopeptidases and possess the conserved zinc binding HEXXHXXGXXHP sequence motif, followed by a conserved methionine. The three‐dimensional structure shows that serralysins possess two domains; besides the typical metzincin‐protease domain that resides within the N‐terminal 220 amino acids, there is an extended C‐terminal β‐sheet domain. This domain contains six glycine‐rich tandem repeats GGXGXDXLX characteristic for the RTX‐toxin family. These repeats bind calcium ions. Recent studies include directed mutagenesis in order to clarify the function of the conserved methionine as well as the crystal‐structure determination of complexes between serralysins and their cognate inhibitors. The latter shows inhibition by a coordinative bond between the inhibitor's N‐terminus and the catalytic zinc ion.

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Mechanistic studies of the astacin-like Serratia metalloendopeptidase serralysin: highly active (>2000%) Co(II) and Cu(II) derivatives for further corroboration of a "metallotriad" mechanism

Cited by 32 publications

References 55 publications

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

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

Insect pathogenicity in plant-beneficial pseudomonads: phylogenetic distribution and comparative genomics

Serralysin

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