Purification and characterization of a dipeptidyl carboxypeptidase from the polychaete Neanthes virens resembling angiotensin I converting enzyme

Dipeptidyl carboxypeptidase (DCP) is well known as a mammalian angiotensin I converting enzyme (ACE) which plays an important role in blood pressure homeostasis. DCP was purified from the whole body of a polychaete, Neanthes virens. The purified enzyme was homogeneous by SDS-PAGE, with a molecular mass of 71 kDa by SDS-PAGE and 69 kDa by gel filtration, indicating that it is monomeric. The isoelectric point was 4.5 and optimum pH for the activity was 8.0. It showed a specific activity of 466.8 U/mg, which is the highest of known DCPs. The enzyme hydrolyzed angiotensin I to angiotensin II and sequentially released Phe-Arg and Ser-Pro from the C-terminus bradykinin, but does not cleave imido-bonds. Activity was completely inhibited by 1 mM EDTA and 5 mM o-phenanthroline, but it was not affected by serine and aspartic protease inhibitors. The original activity of EDTA-inactivated DCP was restored by addition of cobalt, manganese or low concentrations of zinc. The Km and Vmax values of the enzyme for Bz-Gly-His-Leu were 0.56 mM and 600 mumol/min per mg, respectively. The Ki values for specific mammalian ACE inhibitors, such as captopril and lisinopril, were 1.38 and 2.07 nM, respectively. In conclusion, we have shown the existence of a DCP from the polychaete, N. virens, with similar properties to those of mammalian ACE.     

Electronic spectroscopy of cobalt angiotensin converting enzyme and its inhibitor complexes

Zinc, the catalytically essential metal of angiotensin converting enzyme (ACE), has been replaced by cobalt(II) to give an active, chromophoric enzyme that is spectroscopically responsive to inhibitor binding. Visible absorption spectroscopy and magnetic circular dichroic spectropolarimetry have been used to characterize the catalytic metal binding site in both the cobalt enzyme and in several enzyme-inhibitor complexes. The visible absorption spectrum of cobalt ACE exhibits a single broad maximum (525 nm) of relatively low absorptivity (epsilon = 75 M-1 cm-1). In contrast, the spectra of enzyme-inhibitor complexes display more clearly defined maxima at longer wavelengths (525-637 nm) and of markedly higher absorptivities (130-560 M-1 cm-1). The large spectral response indicates that changes in the cobalt ion coordination sphere occur on inhibitor binding. Magnetic circular dichroic spectropolarimetry has shown that the metal coordination geometry in the inhibitor complexes is tetrahedral and of higher symmetry than in cobalt ACE alone. The presence of sulfur----cobalt charge-transfer bands in both the visible absorption and magnetic circular dichroic spectra of the cobalt ACE-Captopril complex confirm direct ligation of the thiol group of the inhibitor to the active-site metal.     

Alpha-2-macroglobulin-like protease inhibitor from the egg white of cuban crocodile (Crocodylus rhombifer)

A high molecular weight protease inhibitor was purified from the egg white of Cuban crocodile (Crocodylus rhombifer). It inhibited the casein hydrolyzing activity of trypsin, subtilisin and papain. Its native molecular weight was 730,000 and it consisted of four subunits of equal molecular weight, each pair of which were disulfide bonded. The amino acid composition, circular dichroic spectrum and electron micrographs of this protein are also presented. Upon incubation with trypsin this protein yielded a fragment of Mr = 80,000, similar in size to the one known to originate from alpha 2-macroglobulin under the same conditions. The molecular parameters of this protein and the broad inhibitory activity towards thiol and serine proteases with different substrate specificities suggest that it is a protein closely related to alpha 2-macroglobulin in mammalian serum. From its native molecular weight and amino acid composition we believe that this protein is also a reptilian counterpart of the avian ovomacroglobulin described by Miller and Feeney (3).     

Antigenic determinants of acylphosphatase from porcine skeletal muscle

Analysis of the quantitative precipitin reaction of acylphosphatase from porcine skeletal muscle with rabbit antiserum indicated the presence of at least two antigenic determinants on the porcine enzyme molecule. Immunological cross-reactivities of acylphosphatases from equine and rabbit skeletal muscles were examined. In double immunodiffusion with the antiserum, the precipitin lines of the porcine and equine enzymes completely fused, while the rabbit enzyme gave no precipitin line. The reaction between the 125I-labeled porcine enzyme and its antibody was inhibited to the same extent by the porcine and equine enzymes, but not by the rabbit enzyme. The three enzymes were similar in net charge and molecular weight on polyacrylamide gel electrophoreses. No conformational difference among the three enzymes was observed in their circular dichroism spectra. The amino acid composition of the rabbit enzyme differed from those of the porcine and equine enzymes in the contents of Glu, Gly, Lys, and Arg. Differences in the sequence of the rabbit enzyme from that of the porcine enzyme were investigated by comparison of the peptide maps of the tryptic peptides of the two enzymes. Four peptides of the rabbit enzyme were located at different positions from those of the porcine enzyme. Three of the four peptides from both enzymes were sequenced and all the tryptic peptides of both enzymes were characterized by amino acid analysis. The tryptic peptides of rabbit enzyme were tentatively aligned on the basis of their amino acid compositions and sequence homologies, compared with the corresponding peptides of the porcine enzyme. Among five amino acid residues of the porcine enzyme, Arg-4, Asp-28, Arg-31, Glu-56, and Ile-68, which are replaced in the rabbit enzyme, Arg-4 and Asp-28 are considered to be included in the antigenic determinants.     

Extracellular Poly(α-L-guluronate)lyase from Corynebacterium sp.: Purification, Characteristics, and Conformational Properties

Extracellular alginate lyase was purified from the culture supernatant of Corynebacterium sp. isolated from the sewage of a sea tangle processing factory in order to elucidate the structure—function relationship of alginate lyase. The electrophoretically homogeneous enzyme was shown to have a molecular mass of 27 kDa by sodium dodecyl sulfate (SDS)—polyacrylamide gel electrophoresis (PAGE) and by gel filtration, with an isoelectric point of 7.3. The molecular mass from amino acid analysis was 28.644 kDa. The optimal pH and temperature for the enzyme reaction were around 7.0 and 55°C, respectively. Metal compounds such as MnCl₂ and NiCl₂ increased the enzyme activity. The enzyme was identified as the endolytic poly(α-L-guluronate)lyase, which was active on poly(α-L-1,4-guluronate) and caused a rapid decrease in the viscosity of alginate solution. Measurement of the far-UV circular dichroic spectrum of the enzyme molecule gave a spectrum with a deep trough at 215nm accompanied by a shallow one at around 237 nm, and with a high peak at 197 nm and a much lower one at 230 nm. This spectrum was most likely to be that of the β-form of the enzyme molecule and resembled poly(β-D-mannuronate)lyase from Turbo cornutus (wreath shell) and poly(α-L-guluronate)lyase from Vibrio sp. (marine bacterium). The near-UV circular dichroic spectrum was characteristic for aromatic amino acid residues. In the presence of 6 M urea, these spectra changed drastically in the near-UV and a little in the far-UV with the disappearance of the enzyme activity. Removal of the denaturant in the enzyme solution by dialysis restored both the activity and inherent circular dichroic spectra. The β-sheets observed in alginate lyases as the major ordered structure seem to be a common conformation for the lyases.     

Isolation and characterization of a bacterial dipeptidyl carboxypeptidase inhibitor from Bacillus subtilis 3-16-20

A bacterial dipeptidyl carboxypeptidase inhibitor was isolated from the culture broth of a bacterium identified as Bacillus subtilis. The inhibitor was purified 33-fold from the culture supernatant of B. subtillis 3-16-20 strain by Q-, and S-Sepharose fast flow, C₁₈ column chromatography, ethanol treatment, and ODS column chromatography. The purified inhibitor has an amino acid sequence of glycyl-prolyl-phenylalanyl-prolylisoleucine. IC₅₀ values of the inhibitor were 177 μM (rabbit lung ACE) and 35 μM (bacterial DCP).     

Identification of an amino acid residue involved in the substrate-binding site of rat liver uricase by site-directed mutagenesis.

Computer analysis has shown that a conserved amino acid sequence (Leu 160 to Lys 164) of rat liver uricase is also present in other enzymes with purine substrates. The significances of the amino acids in this sequence were studied by site-directed mutagenesis. Replacement of Lys 164 by Glu or Ile resulted in loss of uricase activity and decrease in binding of the competitive inhibitor xanthine. The far ultraviolet circular dichroic spectra of the mutant uricases were identical to that of the wild type protein, indicating that the replacement of Lys 164 by other amino acids did not result in serious modification of the conformation of uricase. These findings suggest that this amino acid is involved in the substrate-binding site of the enzyme.     

Rabbit phosphoglucose isomerase/neuroleukin/autocrine motility factor: cloning via interspecies identity

Phosphoglucose isomerase is the first committed enzyme of glycolysis. The protein also has a variety of biological activities on mammalian cells. The molecular basis of these extracellular functions is unclear, and the high resolution three-dimensional structure of a mammalian enzyme has not been described. We report here the cDNA and protein sequence for phosphoglucose isomerase from rabbit muscle. The sequence was obtained directly by PCR without the need to screen clones from a cDNA library and encoded active enzyme when expressed in bacterial cells. The 558 amino acid rabbit coding sequence is the same length as and highly similar (92% residue identity) to the sequences from human and pig and less so (88%) to the mouse enzyme. Non-conservative amino acid changes between the four mammalian sequences are concentrated in the first 35 and last five residues. The rabbit protein has an additional Cys residue and amino acid changes at five positions otherwise invariant in the mammalian enzymes.     

Calmodulin from neurospora crassa. General properties and conformational changes

Calmodulin from Neurospora crassa has been purified to electrophoretic homogeneity. Equilibrium gel filtration experiments suggest that its Ca-binding properties are indistinguishable from those of vertebrate calmodulins. The isoelectric point of 4.04 and electrophoretic behavior under nondenaturing conditions indicate that N. crassa calmodulin is slightly less acidic than its vertebrate counterpart. The amino acid composition is typical of plant calmodulins with the exception that trimethyllysine is absent and that the content of Ser is unusually high. The tryptic peptide map of N. crassa calmodulin reveals an important number of point mutations as compared to vertebrate calmodulin. Differences in primary structure may explain why N. crassa calmodulin is less potent in the activation of myosin light chain kinase than calmodulins from higher organisms. The far UV circular dichroic spectra of the Ca-, Mg-, and metal-free forms of N. crassa calmodulin are similar to those of vertebrate calmodulin; in contrast, the near UV circular dichroic spectra are very different, apparently due to the differences in Tyr content. The single Tyr residue of N. crassa calmodulin, presumably located in position 138, undergoes an inversion of optical chirality upon addition of Ca2+, but not of Mg2+, to the metal-free protein.     

Properties of ACE inhibitory peptide prepared from protein in green tea residue and evaluation of its anti-hypertensive activity

Green tea contains active ingredients which are beneficial for health. While numerous studies have been conducted on the components extracted from green tea, few studies have investigated the active ingredients in tea residue. In this study, proteins were extracted from green tea residue via an optimised alkaline extraction combined with enzymatic hydrolysis, of which, an acidic protease was selected to prepare an enzymatic hydrolysate because of its high angiotensin converting enzyme (ACE) inhibitory activity. The composition characteristics of extracted green tea proteolysis products were elucidated, including amino acid composition, molecular weight distribution and possible amino acid sequences. In addition, the protein hydrolysate had anti-digestive properties, maintained its activity of inhibiting ACE enzyme at different temperatures, pH and metal ions, and exhibited antihypertensive activity in animals. In conclusion, the optimised alkaline extraction and enzymatic hydrolysis conditions of a ACE inhibitory peptide from green tea residue is an optimal extraction method to maintain its antihypertensive activity, providing the basis for the clinical application of green tea for blood pressure reduction.     

Characterization of new antihypertensive angiotensin I-converting enzyme inhibitory peptides from Korean traditional rice wine

This study describes the characterization of a new angiotensin I-converting enzyme (ACE) inhibitory peptide from a Korean traditional rice wine. After purification of the ACE inhibitor peptides with ultrafiltration, Sephadex G-25 column chromatography, and successively C?? and SCX solid-phase extraction, reverse-phase HPLC, and size exculsion chromatography, two types of the purified ACE inhibitors with IC?? values of 0.34 mg/ml and 1.23 mg/ml were finally obtained. The two purified ACE inhibitors (F-1 and F-2) were found to have two kinds of novel oligopeptides, showing very little similarity to other ACE inhibitory peptide sequences. The amino acid sequences of the two purified oligopeptides were found to be Gln- Phe-Tyr-Ala-Val (F-1) and Ala-Gly-Pro-Val-Leu-Leu (F-2), and their molecular masses were estimated to be 468.7 Da (F-1) and 357.7 Da (F-2), respectively. They all showed a clear antihypertensive effect on spontaneously hypertensive rats at a dosage of 500 mg/kg.     

Isolation of angiotensin-converting enzyme inhibitor from tuna muscle

A novel inhibitor of angiotensin-converting enzyme (ACE) has been discovered and isolated in a pure form from acid extract of tuna muscle by successive column chromatographies and HPLC. The final preparation showed IC50 values of 1 microM and 2 microM for ACEs from bovine and rabbit lungs, respectively. The amino acid sequence of the inhibitor has been established as Pro-Thr-His-Ile-Lys-Trp-Gly-Asp by the Edman procedure and carboxypeptidase digestion.     

Physalaemin-like immunoreactive peptides from rabbit stomach

Two physalaemin (PHY)-like immunoreactive peptides, designated PHLIPs, have been purified from extracts of rabbit stomach tissue. Fast atom bombardment/mass spectrometry (FAB/MS) indicated that the m/z values for the PHLIP protonated molecular ions were 867.419 and 796.4. FAB/tandem MS spectra, coupled with a knowledge of the amino acid composition and the aid of a computerized fragment-matching program, indicated the amino acid sequences to be: (formula; see text) The sequences of PHLIPs-7 and -8 were confirmed with synthetic peptides. The PHY-antiserum cross-reactivity of the PHLIPs reflects homology at amino acid residues 1, 3, 4 and 5 for the mammalian and amphibian residues.     

Activity and function of rabbit muscle-specific creatine kinase at low temperature by mutation at gly268 to asn268

Carp muscle-specific creatine kinase M1 isoenzyme (M1-CK) seems to have evolved to adapt to synchronized changes in body temperature and intracellular pH. When gly(268) in rabbit muscle-specific creatine kinase was substituted with asn(268) as found in carp M1-CK, the rabbit muscle-specific CK G286N mutant specific activity at pH 8.0 and 10°C was more than 2-fold higher than that in the wild-type rabbit enzyme. Kinetic studies showed that K(m) values of the rabbit CK G268N mutant were similar to those of the wild-type rabbit enzyme, yet circular dichroism spectra showed that the overall secondary structures of the mutant enzyme, at pH 8.0 and 5°C, were almost identical to the carp M1-CK enzyme. The X-ray diffraction pattern of the mutant enzyme crystal revealed that amino acid residues involved in substrate binding are closer to one another than in the rabbit enzyme, and the cysteine283 active site of the mutant enzyme points away from the ADP binding site. At pH 7.4-8.0 and 35-10°C, with a smaller substrate, dADP, specific activities of the mutant enzyme were consistently higher than the wild-type rabbit enzyme and more similar to the carp M1-CK enzyme. Thus, the smaller active site of the RM-CK G268N mutant may be one of the reasons for its improved activity at low temperature.     

Occurrence of Δ1(10) Gibberellin A1 Counterpart,GA1, GA4 and GA7 in Somatic Cell Embryo Cultures of Carrot and Anise

Amine oxidase of Aspergillus niger was inactivated by ethylenediamine under aerobic conditions, but not under anaerobic conditions. In the presence of ethylenediamine, the oxidized form of the enzyme did not react with phenylhydrazine under anaerobic conditions, but reacted slowly under aerobic conditions. These findings and previous study [Suzuki et al., J. Biochem. 69, 1065 (1971)] suggest that the oxidized form of the enzyme develops an inactive Schiff base between the carbonyl group of the enzyme and the amino group of ethylenediamine under aerobic conditions. The circular dichroic (CD) spectra in the near-ultraviolet region indicated that the structure around the inactive Schiff base was slightly different from that of the reduced form of the enzyme.     

Spectral studies of human erythrocyte catalase.

The optical absorption and circular dichroic spectra of human erythrocyte catalase (EC 1.11.1.6) and its cyanide, azide, and fluoride derivatives over the wavelength range of 210 to 700 nm are reported. Treatment with acid or alkaline solutions causes spectral changes which may be due to dissociation of the enzyme into subunits and removal of the heme group from the protein. The fractions of the protein structure present as alpha helix, beta pleated sheet, and unordered structure have been estimated from the CD spectrum in the far-ultraviolet region. The CD spectra also indicate that the protein conformation does not change appreciably after cyanide binding. The epr spectroscopy of the native enzyme and its cyanide complex are reported. The spectral results are compared with catalase obtained from other mammalian and bacterial sources.     

Purification and properties of an anti-B hemagglutinin produced by Streptomyces sp.

An anti-B hemagglutinin was purified to homogeneity from the culture filtrate of a strain of Streptomyces sp. by affinity chromatography. The Streptomyces hemagglutinin was adsorbed to insolubilized gum arabic and eluted with 1 M NaCl containing 1 M D-galactose. The purified hemagglutinin is thought to be homogeneous judging from sodium dodecyl sulfate-polyacrylamide gel electrophoresis at pH 7.2, disc gel electrophoresis at pH 4.3, isoelectric focusing, and ultracentrifugation. The molecular weight was estimated to be 11,000 from results of gel filtration in 6 M guanidine hydrochloride (Gdn-HCl), sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and sedimentation equilibrium analysis. The amino acid analyses revealed that the hemagglutinin contained large amounts of alanine, glycine, and valine, 47% of the total amino acid residues, and no phenylalanine. Carbohydrate analysis demonstrated that the hemagglutinin might not be a glycoprotein. The circular dichroic (CD) spectrum of the protein is quite different from those of usual proteins in having a large positive peak at 226 nm (theta = 10,000) and a negative band at 212 nm (theta =-2600). The hemagglutinin showed a typical precipitation curve with gum arabic, and agglutinated human blood group B erythrocytes 256 times as strongly as A or O erythrocytes. These activities were not affected by pH (from 4 to 12). The anti-B activity was further confirmed by serological tests. The hemagglutination-inhibition studies indicated that D-galactose was inhibitory, but alpha-D-galactosides were not necessarily better inhibitors than beta-D-galactosides. L-Rhamnose was the best inhibitor among the monosaccharides tested, and L-arabinose and D-fucose were also inhibitory.     

Extracellular Poly(α-L-guluronate)lyase from Corynebacterium sp.: Purification, Characteristics, and Conformational Properties

Extracellular alginate lyase was purified from the culture supernatant of Corynebacterium sp. isolated from the sewage of a sea tangle processing factory in order to elucidate the structure—function relationship of alginate lyase. The electrophoretically homogeneous enzyme was shown to have a molecular mass of 27 kDa by sodium dodecyl sulfate (SDS)—polyacrylamide gel electrophoresis (PAGE) and by gel filtration, with an isoelectric point of 7.3. The molecular mass from amino acid analysis was 28.644 kDa. The optimal pH and temperature for the enzyme reaction were around 7.0 and 55°C, respectively. Metal compounds such as MnCl₂ and NiCl₂ increased the enzyme activity. The enzyme was identified as the endolytic poly(-L-guluronate)lyase, which was active on poly(-L-1,4-guluronate) and caused a rapid decrease in the viscosity of alginate solution. Measurement of the far-UV circular dichroic spectrum of the enzyme molecule gave a spectrum with a deep trough at 215nm accompanied by a shallow one at around 237 nm, and with a high peak at 197 nm and a much lower one at 230 nm. This spectrum was most likely to be that of the -form of the enzyme molecule and resembled poly(-D-mannuronate)lyase from Turbo cornutus (wreath shell) and poly(-L-guluronate)lyase from Vibrio sp. (marine bacterium). The near-UV circular dichroic spectrum was characteristic for aromatic amino acid residues. In the presence of 6 M urea, these spectra changed drastically in the near-UV and a little in the far-UV with the disappearance of the enzyme activity. Removal of the denaturant in the enzyme solution by dialysis restored both the activity and inherent circular dichroic spectra. The -sheets observed in alginate lyases as the major ordered structure seem to be a common conformation for the lyases.     

Steady-state kinetics and spectral properties of Corynebacterium sarcosine oxidase

The overall reaction kinetics of Corynebacterium sarcosine oxidase were investigated and the reaction was shown to follow a ping-pong, bi-bi mechanism with two substrates, sarcosine and molecular oxygen. Sarcosine analogs, such as acetate, propionate and methoxyacetate, were competitive inhibitors of the reaction. Acetate caused characteristic alterations in optical and circular dichroic spectra, indicating that the microenvironment of the substrate-binding region of the enzyme increased in hydrophobicity on binding with the substrate analog. The dissociation constants of the analogs calculated from the spectral changes were in agreement with the kinetic inhibition constants. Inorganic metallic ions were also inhibitory. Of interest was the finding that the inhibition by Hg2+ was proportional to the square of its concentration, which suggests that at least two sulfhydryl groups are related to the catalytic activity of the enzyme.