Mapping the Pro-region of Carboxypeptidase B by Protein Engineering

Ventura, Salvador; Villegas, Sandra; Sterner, Jane; Larson, Jeffrey; Vendrell, Josep; Hershberger, Charles L.; Avilés, Francesc X.

doi:10.1074/jbc.274.28.19925

Cited by 47 publications

(14 citation statements)

References 34 publications

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“…A preliminary purification of B-type carboxypeptidase of H. zea (CPBHz) from the gut content of H. zea larvae allowed its cloning and recombinant expression in the Pichia pastoris system. The cDNA coding for the complete zymogen (PCPBHz) was subcloned into the expression vector pPIC9 and used to transform the KM 71 strain of P. pastoris by using the spheroplasts method as described for other procarboxypeptidases (14,15). The protein was subsequently purified from the supernatant by a first step of hydrophobic interaction chromatography in a butyl-Toyopearl 650M column and a second step of anionexchange on a Sep-Pack Q column, applying a gradient from 100% buffer A (20 mM Tris, pH 8.0) to 100% buffer B (20 mM Tris͞NaCl 1M, pH 8.0) in 30 min.…”

Section: Methodsmentioning

confidence: 99%

Structural basis of the resistance of an insect carboxypeptidase to plant protease inhibitors

Bayés

Comellas-Bigler

Vega

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

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Corn earworm (Helicoverpa zea), also called tomato fruitworm, is a common pest of many Solanaceous plants. This insect is known to adapt to the ingestion of plant serine protease inhibitors by using digestive proteases that are insensitive to inhibition. We have now identified a B-type carboxypeptidase of H. zea (CPBHz) insensitive to potato carboxypeptidase inhibitor (PCI) in corn earworm. To elucidate the structural features leading to the adaptation of the insect enzyme, the crystal structure of the recombinant CPBHz protein was determined by x-ray diffraction. CPBHz is a member of the A͞B subfamily of metallocarboxypeptidases, which displays the characteristic metallocarboxypeptidase ␣͞␤-hydrolase fold, and does not differ essentially from the previously described Helicoverpa armigera CPA, which is very sensitive to PCI. The data provide structural insight into several functional properties of CPBHz. The high selectivity shown by CPBHz for C-terminal lysine residues is due to residue changes in the S1 substrate specificity pocket that render it unable to accommodate the side chain of an arginine. The insensitivity of CPBHz to plant inhibitors is explained by the exceptional positioning of two of the main regions that stabilize other carboxypeptidase-PCI complexes, the ␤8-␣9 loop, and ␣7 together with the ␣7-␣8 loop. The rearrangement of these two regions leads to a displacement of the active-site entrance that impairs the proper interaction with PCI. This report explains a crystal structure of an insect protease and its adaptation to defensive plant protease inhibitors.crystal structure ͉ inhibitor resistance ͉ Helicoverpa zea ͉ metallocarboxypeptidase T he larvae of plant-eating insects have a high need for free amino acids and nitrogen during their development. Normally, they meet these requirements by degrading dietary proteins. The digestive enzymes present in the larvae of the lepidopteran insects such as Helicoverpa zea are closely related to those secreted from the mammalian pancreas, comprising serine endopeptidases like trypsins and chymotrypsins and exopeptidases such as metallocarboxypeptidases and aminopeptidases (1, 2).Plants have evolved a defense that interferes with the insects' digestive system by expressing a number of different protease inhibitors (PIs), which are either constitutively present or strongly up-regulated in response to wound damage (3). Most PIs are small proteins that have been found in all plant species investigated thus far and occur in both reproductive and vegetative tissues. In herbivorous insects, they act by inhibiting protein digestive enzymes in the guts of insect larvae or adults, resulting in amino acid deficiencies that lead to serious developmental delay, mortality, or reduced fecundity.A number of polyphagous insects, among them H. zea, a common pest of many Solanaceous plants such as the potato (4), have adapted to the protease inhibitors of their various host plants. Their survival and larval development is not affected by the presence of such molecules in th...

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Section: Methodsmentioning

confidence: 99%

Structural basis of the resistance of an insect carboxypeptidase to plant protease inhibitors

Bayés

Comellas-Bigler

Vega

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

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“…This construct, harboring three mutations, was used to express the recombinant proteins used in the present study. The protein was heterologously overexpressed in yeast following an approach recently reported for other proproteases (43). Briefly, the vector pPIC9 containing the mutant gene was transformed into Pichia pastoris strain KM71 by the spheroblast method.…”

Section: Methodsmentioning

confidence: 99%

The Structure of Human Prokallikrein 6 Reveals a Novel Activation Mechanism for the Kallikrein Family

Gomis‐Rüth¹,

Bayés²,

Sotiropoulou³

et al. 2002

Journal of Biological Chemistry

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Zyme/protease M/neurosin/human kallikrein 6 (hK6) is a member of the human kallikrein family of trypsinlike serine proteinases and was originally identified as being down-regulated in metastatic breast and ovarian tumors when compared with corresponding primary tumors. Recent evidence suggests that hK6 may serve as a circulating tumor marker in ovarian cancers. In addition, it was described in the brain of Parkinson's disease and Alzheimer's disease patients, where it is implicated in amyloid precursor protein processing. It is thus a biomarker for these diseases. To examine the mechanism of activation of hK6, we have solved the structure of its proform, the first of a human kallikrein family member. The proenzyme displays a fold that exhibits chimeric features between those of trypsinogen and other family members. It lacks the characteristic "kallikrein loop" and forms the six disulfide bridges of trypsin. Pro-hK6 displays a completely closed specificity pocket and a unique conformation of the regions involved in structural rearrangements upon proteolytic cleavage activation. This points to a novel activation mechanism, which could be extrapolated to other human kallikreins.

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“…CPBs from porcine and bovine pancreases have been isolated and well characterized (Folk et al, 1960;Folk et al, 1962;Wolff et al, 1962;Cox et al, 1962;Wintersberger et al 1962;Schmid & Herriott, 1976;Clauser et al, 1988;Edge et al, 1998;Ventura et al, 1999).…”

Section: Introductionmentioning

confidence: 99%

Characteristics of carboxypeptidase B from pyloric ceca of the starfish Asterina pectinifera

2006

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Carboxypeptidase B was purified from the pyloric ceca of the starfish Asterina pectinifera. The final enzyme preparation was nearly homogeneous in sodium dodecyl sulfate-polyacrylamide gel electrophoresis and its molecular weight was estimated as approximately 34,000. The value of the specificity constant (kcat/Km) for hydrolysis of benzoyl-glycyl-L-arginine by the purified enzyme was 1.72×10 5 M -1 sec -1 . The optimal pH and the optimal temperature of the enzyme were pH 7.5 and 55 ℃, respectively. The enzyme was unstable above 50 ℃ and below pH 5.0. The enzyme was activated by Co 2+ , and inhibited by EDTA. The N-terminal amino acid sequence of the enzyme was determined as ATFDYNKYHSYQEIMDWVTN.

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Mapping the Pro-region of Carboxypeptidase B by Protein Engineering

Cited by 47 publications

References 34 publications

Structural basis of the resistance of an insect carboxypeptidase to plant protease inhibitors

Structural basis of the resistance of an insect carboxypeptidase to plant protease inhibitors

The Structure of Human Prokallikrein 6 Reveals a Novel Activation Mechanism for the Kallikrein Family

Characteristics of carboxypeptidase B from pyloric ceca of the starfish Asterina pectinifera

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