The role of propeptide-mediated autoinhibition and intermolecular chaperone in the maturation of cognate catalytic domain in leucine aminopeptidase

Leucyl aminopeptidase A from Aspergillus oryzae RIB40 (AO-LapA) is an exo-acting peptidase, widely utilised in food debittering applications. AO-LapA is secreted as a zymogen by the host and requires enzymatic cleavage of the autoinhibitory propeptide to reveal its full activity. Scarcity of structural data of zymogen aminopeptidases hampers a better understanding of the details of their molecular action of autoinhibition and how this might be utilised to improve the properties of such enzymes by recombinant methods for more effective bioprocessing. To address this gap in the literature, herein we report high-resolution crystal structures of recombinantly expressed AO-LapA precursor (AO-proLapA), mature LapA (AO-mLapA) and AO-mLapA complexed with reaction product l-leucine (AO-mLapA-Leu), all purified from Pichia pastoris culture supernatant. Our structures reveal a plausible molecular mechanism of LapA catalytic domain autoinhibition by propeptide and highlights the role of intramolecular chaperone (IMC). Our data suggest an absolute requirement for IMC in the maturation of cognate catalytic domain of AO-LapA. This observation is reinforced by our expression and refolding data of catalytic domain only (AO-refLapA) from Escherichia coli inclusion bodies, revealing a limited active conformation. Our work supports the notion that known synthetic aminopeptidase inhibitors and substrates mimic key polar contacts between propeptide and corresponding catalytic domain, demonstrated in our AO-proLapA zymogen crystal structure. Furthermore, understanding the atomic details of the autoinhibitory mechanism of cognate catalytic domains by native propeptides has wider reaching implications toward synthetic production of more effective inhibitors of bimetallic aminopeptidases and other dizinc enzymes that share an analogous reaction mechanism.     

Purification and Properties of Leucine Aminopeptidase I–III from Aspergillus oryzae

An aminopeptidase from Aspergillus oryzae 460 was purified from the rivanol precipitable fraction. The partially purified enzyme was not homogeneous in disc electrophoresis, although symmetric profiles were obtained for enzyme protein and activity in Sephadex gel filtration. Its optimum pH is at pH 8.5 for l-leucyl-β-naphthylamide. The enzyme activity was inhibited by metal chelating agents and S-S dissociating agents, but not inhibited by SH reagents. The molecular weight of the enzyme was estimated to be about 26,500 by gel filtration. The enzyme was named leucine aminopeptidase I of Asp. oryzae 460, since it preferentially hydrolyzed oligopeptides that possess leucine as the amino terminal amino acid.     

Purification and properties of an aminopeptidase from the mid-gut gland of scallop (Patinopecten yessoensis)

An aminopeptidase was isolated from the mid-gut gland of Patinopecten yessoensis. The enzyme was purified from an acetone-dried preparation by extracting, ammonium sulfate precipitation, Hi-Load Q column chromatography, isoelectric focusing, and POROS HP2 and HQ column chromatography. The molecular weight of the enzyme was estimated to be 61 kDa by SDS-polyacrylamide gel electrophoresis and 59 kDa by gel permeation chromatography. The isoelectric point of the enzyme was 5.2 and the optimum pH was 7.0 toward leucine p-nitroanilide (Leu-pNA). The enzyme was inhibited by o-phenanthroline. The activity of the enzyme treated with o-phenanthroline was completely recovered by adding excess Zn²⁺. Relative hydrolysis rates of amino acid-pNAs and amino acid-4-methylcoumaryl-7-amides (amino acid-MCAs) indicated that the enzyme preferred substrates having Ala or Met as an amino acid residue. The enzyme had a K_m of 32.2 μM and k_cat of 29.5 s⁻¹ with Ala-pNA and a K_m of 11.1 μM and k_cat of 9.49 s⁻¹ with Ala-MCA. The enzyme sequentially liberated amino acids from the amino-termini of Ala–Phe–Tyr–Glu.     

Purification and properties of an intracellular leucine aminopeptidase from the fungus,Penicillium citrinum strain IFO 6352

An intracellular leucine aminopeptidase (LAP) fromPenicillium citrinum (IFO 6352) was purified to homogeneity using three successive purification steps. The enzyme has a native molecular mass of 63 kDa using HPLC gel filtration analysis and a molecular mass of 65 kDa when using SDS-polyacrylamide gel electrophoresis. This monomeric aminopeptidase showed maximum enzyme activity at pH 8.5. An optimum temperature was 45–50°C whenl-Leu-p-nitroanilide (pNA) was the substrate, and enzyme activity drastically decreased above 60°C. The Michaelis-Menten constants forl-Leu-pNA andl-Met-pNA were 2.7 mM and 1.8 mM, respectively. When the enzyme reacted with biosynthetic methionyl human growth hormone, it showed high specificity for N-terminal methionine residue and recognized a stop sequence (Xaa-Pro). The aminopeptidase was inactivated by EDTA or 1,10-phenanthroline, indicating that it is a metallo-exoprotease. Enzyme activity was restored to 90% of maximal activity by addition of Co²⁺ ions. The activity of EDTA-treated enzyme was restored by addition of Zn²⁺, but reconstitution with Ca²⁺, Mg²⁺ or Mn²⁺ restored some enzyme activity. It is likely that Co²⁺ ions play an important role in the catalysis or stability of thePenicillium citrinum aminopeptidase, as zinc plays a similar function in other leucine aminopeptidases.     

Aminopeptidase C of Aspergillus niger Is a Novel Phenylalanine Aminopeptidase

A novel enzyme with a specific phenylalanine aminopeptidase activity (ApsC) from Aspergillus niger (CBS 120.49) has been characterized. The derived amino acid sequence is not similar to any previously characterized aminopeptidase sequence but does share similarity with some mammalian acyl-peptide hydrolase sequences. ApsC was found to be most active towards phenylalanine β-naphthylamide (F-βNA) and phenylalanine para-nitroanilide (F-pNA), but it also displayed activity towards other amino acids with aromatic side chains coupled to βNA; other amino acids with nonaromatic side chains coupled to either pNA or βNA were not hydrolyzed or were poorly hydrolyzed. ApsC was not able to hydrolyze N-acetylalanine-pNA, a substrate for acyl-peptide hydrolases.     

A thermostable leucine aminopeptidase from<Emphasis Type="Italic"> Bacillus kaustophilus</Emphasis> CCRC 11223

Two degenerate primers established from the consensus sequences of bacterial leucine aminopeptidases (LAP) were used to amplify a 360-bp gene fragment from the chromosomal DNA of thermophilic Bacillus kaustophilus CCRC 11223 and the amplified fragment was successfully used as a probe to clone a leucine aminopeptidase (lap) gene from a genomic library of the strain. The gene consists of an open reading frame (ORF) of 1,494 bp and encodes a protein of 497 amino acid residues with a calculated molecular mass of 53.7 kDa. The complete amino acid sequence of the cloned enzyme showed greater than 30% identity with prokaryotic and eukaryotic LAPs. Phylogenetic analysis showed that B. kaustophilus LAP is closely related to the enzyme from Bacillus subtilis and is grouped with the M17 family. His₆-tagged LAP was generated in Escherichia coli by cloning the coding region into pQE-30 and the recombinant enzyme was purified by nickel-chelate chromatography. The pH and temperature optima for the purified enzyme were 8 and 65°C, respectively, and 50% of its activity remained after incubation at 60°C for 32 min. The enzyme preferentially hydrolyzed l-leucine-p-nitroanilide (l-Leu-p-NA) followed by Cys derivative.Communicated by G. Antranikian     

Structure-based approach to alter the substrate specificity of Bacillus subtilis aminopeptidase

Aminopeptidases can selectively catalyze the cleavage of the N-terminal amino acid residues from peptides and proteins. Bacillus subtilis aminopeptidase (BSAP) is most active toward p-nitroanilides (pNAs) derivatives of Leu, Arg, and Lys. The BSAP with broad substrate specificity is expected to improve its application. Based on an analysis of the predicted structure of BSAP, four residues (Leu 370, Asn 385, Ile 387, and Val 396) located in the substrate binding region were selected for saturation mutagenesis. The hydrolytic activity toward different aminoacyl-pNAs of each mutant BSAP in the culture supernatant was measured. Although the mutations resulted in a decrease of hydrolytic activity toward Leu-pNA, N385L BSAP exhibited higher hydrolytic activities toward Lys-pNA (2.2-fold) and Ile-pNA (9.1-fold) than wild-type BSAP. Three mutant enzymes (I387A, I387C and I387S BSAPs) specially hydrolyzed Phe-pNA, which was undetectable in wild-type BSAP. Among these mutant BSAPs, N385L and I387A BSAPs were selected for further characterized and used for protein hydrolysis application. Both of N385L and I387A BSAPs showed higher hydrolysis efficiency than the wild-type BASP and a combination of the wild-type and N385L and I387A BSAPs exhibited the highest hydrolysis efficiency for protein hydrolysis. This study will greatly facilitate studies aimed on change the substrate specificity and our results obtained here should be useful for BSAP application in food industry.     

The Type II Secretion System of Legionella pneumophila Elaborates Two Aminopeptidases, as Well as a Metalloprotease That Contributes to Differential Infection among Protozoan Hosts

Legionella pneumophila, the agent of Legionnaires' disease, is an intracellular parasite of aquatic amoebae and human macrophages. A key factor for L. pneumophila in intracellular infection is its type II protein secretion system (Lsp). In order to more completely define Lsp output, we recently performed a proteomic analysis of culture supernatants. Based upon the predictions of that analysis, we found that L. pneumophila secretes two distinct aminopeptidase activities encoded by the genes lapA and lapB. Whereas lapA conferred activity against leucine, phenylalanine, and tyrosine aminopeptides, lapB was linked to the cleavage of lysine- and arginine-containing substrates. To assess the role of secreted aminopeptidases in intracellular infection, we examined the relative abilities of lapA and lapB mutants to infect human U937 cell macrophages as well as Hartmannella vermiformis and Acanthamoeba castellanii amoebae. Although these experiments identified a dispensable role for LapA and LapB, they uncovered a previously unrecognized role for the type II-dependent ProA (MspA) metalloprotease. Whereas proA mutants were not defective for macrophage or A. castellanii infection, they (but not their complemented derivatives) were impaired for growth upon coculture with H. vermiformis. Thus, ProA represents the first type II effector implicated in an intracellular infection event. Furthermore, proA represents an L. pneumophila gene that shows differential importance among protozoan infection models, suggesting that the legionellae might have evolved some of its factors to especially target certain of their protozoan hosts.     

Biochemical and conformational characterization of a leucine aminopeptidase from Geobacillus thermodenitrificans NG80-2

In order to search for valuable and extremely thermo-stable enzymes that could be used in the protein hydrolysis industry, the gene corresponding to a leucine aminopeptidase from Geobacillus thermodenitrificans NG80-2 (GtLAP) was cloned and expressed in E. coli. The recombinant enzyme was purified, and its characteristics were examined. Meanwhile, potential applications of GtLAP in the hydrolysis of anchovy proteins were also investigated. GtLAP was overexpressed in IPTG-induced E. coli BL21 (pET28a-LAP) as a soluble protein, and was purified to homogeneity by nickel-chelate chromatography to a specific activity of 125?±?8.75 U/mg proteins. The molecular mass of GtLAP was estimated to be 55?kDa by SDS-PAGE analysis. The optimal reaction temperature and pH of GtLAP were 70?°C and 8.0, respectively. Under optimal conditions, GtLAP showed a marked preference for Leu-p-nitroanilide, followed by Met- and Phe-derivatives. Activity of GtLAP was strongly stimulated by Ni²⁺ ions, but was strongly inhibited by Hg²⁺. Conformational studies via circular dichroism spectroscopy indicated that various factors could influence the secondary structure of GtLAP to various extents and further induce changes in enzymatic activity. Results of hydrolytic experiment showed that combining GtLAP with endogenous enzymes could significantly increase the degree of hydrolysis to anchovy proteins and concentrations of free amino acids in hydrolysates. In this regard, GtLAP could potentially be used in the protein hydrolysis industry.     

Overexpression,Purification, and Characterization of the Recombinant Leucine Aminopeptidase II of <Emphasis Type="Italic">Bacillus stearothermophilus</Emphasis>

For expression of Bacillus stearothermophilus NCIB 8924 leucine aminopeptidase II (LAP II) in Escherichia coli regulated by a T5 promoter, the gene was amplified by polymerase chain reaction and cloned into expression vector pQE-32 to generate pQE-LAPII. The His₆-tagged enzyme was overexpressed in IPTG-induced E. coli M15 (pQE-LAPII) as a soluble protein and was purified to homogeneity by nickel-chelate chromatography to a specific activity of 425 U/mg protein with a final yield of 76%. The subunit molecular mass of the purified protein was estimated to be 44.5 kDa by SDS-PAGE. The temperature and pH optima for the purified protein were 60°C and 8.0, respectively. Under optimal condition, the purified enzyme showed a marked preference for Leu-p-nitroanilide, followed by Arg- and Lys-derivatives. The His₆-tagged enzyme was stimulated by Co²⁺ ions, but was strongly inhibited by Cu²⁺ and Hg²⁺ and by the chelating agents, DTT and EDTA. The EDTA-treated enzyme could be reactivated with Co²⁺ ions, indicating that it is a cobalt-dependent exopeptidase. Taking the biochemical characteristics together, we found that the recombinant LAP II exhibits no important differences from those properties described for the native enzyme. Received: 16 August 2002 / Accepted: 4 September 2002     

Purification and Identification of a Novel Leucine Aminopeptidase from <Emphasis Type="Italic">Bacillus thuringiensis israelensis</Emphasis>

A novel leucine aminopeptidase was purified from a Bacillus thuringiensis israelensis (Bti) culture. The purification stages included heating the concentrated supernatant to 65°C for 90 min, anion-exchange chromatography by DEAE cellulose, and hydrophobic chromatography by phenyl Sepharose. The specific activity of leucine aminopeptidase after the hydrophobic chromatography increased by 215.5-fold and the yield was 16%. The molecular weight of the active enzyme was 59 kDa. Mass spectrometry analysis of the 59-kDa leucine aminopeptidase revealed that this protein has at least 41% homology with the cytosol leucine aminopeptidase produced by Bacillus cereus. Maximal leucine aminopeptidase activity occurred at 65°C, pH 10 toward leucine as the amino acid terminus. The enzyme was strongly inhibited by bestatin, dithiothreitol, and 1,10-phenanthroline, indicating that the enzyme might be considered as a metallo-aminopeptidase that has disulfide bonds at the catalytic site or at a region that influences its configuration. Examination of the purified leucine aminopeptidase’s effect on the activation of the protoxin Cyt1Aa from Bti revealed that when it acts synergistically with Bti endogenous proteases, it has only a minor role in the processing of Cyt1Aa into an active toxin.     

Dechlorination of Chloral Hydrate Is Influenced by the Biofilm Adhesin Protein LapA in Pseudomonas putida LF54

LapA is the largest surface adhesion protein of Pseudomonas putida that initiates biofilm formation. Here, by using transposon insertion mutagenesis and a conditional lapA mutant, we demonstrate for the first time that LapA influences chloral hydrate (CH) dechlorination in P. putida LF54.     

Identification of Amino Acid Residues Essential for the Catalytic Reaction of Bacillus kaustophilus Leucine Aminopeptidase

The functional significance of amino acid residues Lys-265, Asp-270, Lys-277, Asp-288, Asp-347, Glu-349, and Arg-351 of Bacillus kaustophilus leucine aminopeptidase was explored by site-directed mutagenesis. Variants with an apparent molecular mass of approximately 54 kDa were overexpressed in Escherichia coli and purified to homogeneity by nickel-chelate chromatography. The purified mutant enzymes had no LAP activity, implying that these residues are important for the catalytic reaction of the enzyme.     

Partial purification and characterization of Helicoverpa armigera (Lepidoptera: Noctuidae) active aminopeptidase secreted in midgut

We report the partial purification to apparent homogeneity of a soluble aminopeptidase (EC 3.4.11.1) from midgut of Helicoverpa armigera larvae, which preferentially degraded Leucine p-nitroanilide (LpNA). After midgut isolation, extraction and precipitation of soluble proteins with acetone, proteins were purified in two consecutive steps including gel filtration and ion-exchange chromatographies. Aminopeptidase activity was increased 8.95 fold after gel filtration chromatography. The purified enzyme appeared as single band with a molecular mass of ～ 112 kDa in SDS-PAGE, with a pH optimum of 7.0. Zymogram analysis revealed two enzymatically active proteinases using LpNA as substrate. The optimal temperature of aminopeptidase activity was 50–60 °C. The enzyme was characterized as metalloprotease as it was strongly inhibited by 1,10 phenanthroline. Strong inhibition was also being observed using the specific aminopeptidase inhibitor bestatin. Heavy metal ions, EDTA and cysteine strongly inhibited the enzyme, while Ca^+ 2, Mn^+ 2 and Mg^+ 2 somewhat stimulated aminopeptidase activity. Besides LpNA, the purified aminopeptidase also cleaved with decreasing activity ApNA, VpNA and BApNA. Study could be helpful to understand the mechanism of action of N-terminal degrading enzymes and also important is to further study the differential interaction of Bacillus thuringiensis cry insecticidal toxin with midgut receptor of insects.     

Leucine aminopeptidase and exsheathing activity in preparations from Haemonchus contortus

Rogers W.P. and Brooks F. 1978. Leucine aminopeptidase and exsheathing activity in preparations from Haemonchus contortus. International Journal for Parasitology 8: 449–452. Exsheathing activity relative to leucine aminopeptidase activity (LAP) was greater in exsheathing fluid of infective juveniles of Haemonchus contortus than extracts of homogenates of the same organism. In both preparations the biological and enzyme activities were precipitated with acetone 20 v/v and ammonium sulphate, 40% saturation. Broad peaks of exsheathing and LAP activities obtained by sucrose density-gradient centrifugation and on Sephadex G150 overlapped but the peak of biological activity was always found on the low mol. wt. side of the LAP peak. LAP in exsheathing fluid was separated into two sharp peaks in polyacrylamide gradient-pore electrophoresis. In four experiments the major peak gave a mol. wt. within the limits 345,000–354,500. A minor peak was obtained at 1,800,000. Exsheathing activity remained broadly distributed but fell mostly on the low mol. wt. side of the major LAP peak.It is concluded that LAP cannot be the sole agent involved in exsheathment a lipase may be necessary to expose the substrate attacked by LAP.     

Characterization of an aminopeptidase from Pseudozyma hubeiensis 31-B and potential applications

Yeast strain 31-B was isolated from the digestive juices of Nepenthes alata as an aminopeptidase producer and identified as Pseudozyma hubeiensis via morphological testing and comparative 26S ribosomal DNA-D1/D2 gene sequence analysis. Strain 31-B produced aminopeptidase as extracellular peptidase, but proteinase activity was not detected in the culture filtrate. The aminopeptidase from strain 31-B was purified from filtered culture medium by (NH₄)₂SO₄ precipitation and four column chromatography steps: Diethylaminoethyl (DEAE)-Toyopearl 650 M, Butyl-Toyopearl 650 M, hydroxylapatite, and Toyopearl HW-55. Sodium dodecyl sulfate polyacrylamide gel electrophoresis yielded the purified enzyme as a single band with molecular mass 75.3 kDa. The optimum temperature and pH were approximately 40 °C and 8.0, respectively. The purified aminopeptidase preferentially hydrolyzed Leu-p-NA and its activity was inhibited by ethylenediaminetetraacetic acid. The isolated aminopeptidase reduced the bitterness of peptides generated from milk casein using a bacterial proteinase. These results show that the aminopeptidase produced by P. hubeiensis 31-B has potential application as a food additive in the dairy industry.     

Crystal Structure of the Leucine Aminopeptidase from Pseudomonas putida Reveals the Molecular Basis for its Enantioselectivity and Broad Substrate Specificity

The zinc-dependent leucine aminopeptidase from Pseudomonas putida (ppLAP) is an important enzyme for the industrial production of enantiomerically pure amino acids. To provide a better understanding of its structure-function relationships, the enzyme was studied by X-ray crystallography. Crystal structures of native ppLAP at pH 9.5 and pH 5.2, and in complex with the inhibitor bestatin, show that the overall folding and hexameric organization of ppLAP are very similar to those of the closely related di-zinc leucine aminopeptidases (LAPs) from bovine lens and Escherichia coli. At pH 9.5, the active site contains two metal ions, one identified as Mn²⁺ or Zn²⁺ (site 1), and the other as Zn²⁺ (site 2). By using a metal-dependent activity assay it was shown that site 1 in heterologously expressed ppLAP is occupied mainly by Mn²⁺. Moreover, it was shown that Mn²⁺ has a significant activation effect when bound to site 1 of ppLAP. At pH 5.2, the active site of ppLAP is highly disordered and the two metal ions are absent, most probably due to full protonation of one of the metal-interacting residues, Lys267, explaining why ppLAP is inactive at low pH. A structural comparison of the ppLAP-bestatin complex with inhibitor-bound complexes of bovine lens LAP, along with substrate modelling, gave clear and new insights into its substrate specificity and high level of enantioselectivity.     

A putative proline iminopeptidase of Thermotoga maritima is a leucine aminopeptidese with lysine-p-nitroanilide hydrolyzing activity

A putative aminopeptidase P gene (TM0042, Swissport Q9WXP9, GeneBank AAD35136) of Thermotoga maritima was cloned and expressed in Escherichia coli BL21 (RIL). The enzyme was purified by the combination of ion exchange chromatography; Q-Sepharose and Mono-Q column. The purified recombinant T. maritima aminopeptidase P enzyme, gave a homogenous protein band with an apparent molecular weight of 40 kDa in SDS-PAGE analysis. The enzyme was purified 23-fold with the specific activity of 16.5 unit/mg with the final recovery of 22%. The enzyme was thermostable up to 90 °C for 30 min. An optimal activity was observed at 90 °C at pH 7.5. The purified enzyme was stable between pH 6.5 and 8 at 80 °C with the optimum of pH 7.5. Based on the amino acid sequence, the enzyme belongs to M 24B family of metalloenzymes. None of the divalent cations enhance the activity of the enzyme while Pb²⁺, Cu²⁺, Co²⁺, Cd²⁺, and Zn²⁺ were inhibitory to the enzyme activity. Divalent cation of Mg²⁺ showed 100% enzyme activity, to a lesser extent, Ca²⁺ and Mn²⁺ whereas strong inhibition of enzyme activity was observed with Zn²⁺ and Cd²⁺. The enzyme designated as putative aminopeptidase P was very low activity in hydrolyzing proline-p-nitroanilide. Kinetic studies on the purified enzyme confirmed that the enzyme is a leucine aminopeptidase. Enzyme also hydrolyzes lysine-p-nitroanilide with efficiency comparable to that of leucine-p-nitroanilide. This is the first report of leucine aminopeptidase with lysine-p-nitroanilide hydrolyzing activity, which belongs to the M 24B family of metalloenzymes.     

Identification and characterization of Paragonimus westermani leucine aminopeptidase

Paragonimus westermani is a tissue-invading trematode parasite that causes inflammatory lung disease as well as systemic infections including cerebral invasion in carnivorous mammals. While aminopeptidases play important roles in trematodes in the catabolism of host hemoglobin, an essential source of nutrient for the parasite, little is known about aminopeptidase in Paragonimus. Presently, we isolated a cDNA encoding a 58 kDa P. westermani leucine aminopeptidase (PwLAP). Deduced amino acid sequence of PwLAP exhibited significant sequence homology with LAP from Schistosoma spp. and Fasciola hepatica. Biochemical analysis of the recombinant PwLAP protein demonstrated preferential substrate specificity for Leu-NHMec and inhibition by EDTA, 1,10-phenanthroline, and bestatin, which are conserved characteristics of the M17 family of leucine aminopeptidase. PwLAP exhibited relatively higher enzyme activity in the presence of Mn2+ compared to Schistosoma mansoni LAP. Based on the biochemical properties and immunohistochemical analysis, PwLAP is concluded to represent a leucine aminopeptidase. The enzyme is most likely responsible for the catabolism of host hemoglobin, and, hence, represents a potential target of Paragonimus chemotherapy.