Your search keyword '"Polychaeta enzymology"' showing total 184 results

101. Sulfide : quinone oxidoreductase (SQR) from the lugworm Arenicola marina shows cyanide- and thioredoxin-dependent activity.

Author

Theissen U and Martin W

Subjects

Amino Acid Sequence, Animals, Aspartic Acid chemistry, Aspartic Acid genetics, Catalysis, DNA, Complementary genetics, Mitochondria enzymology, Mitochondrial Membranes enzymology, Molecular Sequence Data, Mutation, Quinone Reductases biosynthesis, Quinone Reductases genetics, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Saccharomyces cerevisiae genetics, Sulfides chemistry, Thiocyanates analysis, Thiosulfates metabolism, Cyanides chemistry, Polychaeta enzymology, Quinone Reductases chemistry, Thioredoxins chemistry

Abstract

The lugworm Arenicola marina inhabits marine sediments in which sulfide concentrations can reach up to 2 mM. Although sulfide is a potent toxin for humans and most animals, because it inhibits mitochondrial cytochrome c oxidase at micromolar concentrations, A. marina can use electrons from sulfide for mitochondrial ATP production. In bacteria, electron transfer from sulfide to quinone is catalyzed by the membrane-bound flavoprotein sulfide : quinone oxidoreductase (SQR). A cDNA from A. marina was isolated and expressed in Saccharomyces cerevisiae, which lacks endogenous SQR. The heterologous enzyme was active in mitochondrial membranes. After affinity purification, Arenicola SQR isolated from yeast mitochondria reduced decyl-ubiquinone (K(m) = 6.4 microm) after the addition of sulfide (K(m) = 23 microm) only in the presence of cyanide (K(m) = 2.6 mM). The end product of the reaction was thiocyanate. When cyanide was substituted by Escherichia coli thioredoxin and sulfite, SQR exhibited one-tenth of the cyanide-dependent activity. Six amino acids known to be essential for bacterial SQR were exchanged by site-directed mutagenesis. None of the mutant enzymes was active after expression in yeast, implicating these amino acids in the catalytic mechanism of the eukaryotic enzyme.

Published

2008

102. Substrate binding triggers a switch in the iron coordination in dehaloperoxidase from Amphitrite ornata: HYSCORE experiments.

Author

Smirnova TI, Weber RT, Davis MF, and Franzen S

Subjects

Animals, Electron Spin Resonance Spectroscopy, Ferric Compounds chemistry, Ferric Compounds metabolism, Heme chemistry, Heme metabolism, Hemoglobins metabolism, Iron metabolism, Models, Molecular, Peroxidases metabolism, Protein Binding, Spectrum Analysis methods, Water chemistry, Water metabolism, Hemoglobins chemistry, Iron chemistry, Peroxidases chemistry, Polychaeta enzymology

Published

2008

103. Contributions to catalysis and potential interactions of the three catalytic domains in a contiguous trimeric creatine kinase.

Author

Hoffman GG, Davulcu O, Sona S, and Ellington WR

Subjects

Amino Acid Sequence, Animals, Catalysis, Catalytic Domain genetics, Creatine Kinase chemistry, Creatine Kinase genetics, Dimerization, Kinetics, Molecular Sequence Data, Mutagenesis, Site-Directed, Mutation, Polychaeta genetics, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Sequence Homology, Amino Acid, Creatine Kinase metabolism, Polychaeta enzymology

Abstract

Three separate creatine kinase (CK) isoform families exist in animals. Two of these (cytoplasmic and mitochondrial) are obligate oligomers. A third, flagellar, is monomeric but contains the residues for three complete CK domains. It is not known whether the active sites in each of the contiguous flagellar domains are catalytically competent, and, if so, whether they are capable of acting independently. Here we have utilized site-directed mutagenesis to selectively disable individual active sites and all possible combinations thereof. Kinetic studies showed that these mutations had minimal impact on substrate binding and synergism. Interestingly, the active sites were not catalytically equivalent, and were in fact interdependent, a phenomenon that has previously been reported only in the oligomeric CK isoforms.

Published

2008

104. Antioxidant responses of Laeonereis acuta (Polychaeta) after exposure to hydrogen peroxide.

Author

Rosa CE, Bianchini A, and Monserrat JM

Subjects

Animals, Catalase drug effects, Environmental Pollutants toxicity, Lipid Peroxides analysis, Oxidative Stress drug effects, Polychaeta enzymology, Sulfhydryl Compounds analysis, Time Factors, Antioxidants metabolism, Catalase metabolism, Glutathione Peroxidase metabolism, Hydrogen Peroxide toxicity, Oxygen Consumption drug effects, Polychaeta drug effects

Abstract

The effects of H2O2 were evaluated in the estuarine worm Laeonereis acuta (Polychaeta, Nereididae) collected at the Patos Lagoon estuary (Southern Brazil) and maintained in the laboratory under controlled salinity (10 psu diluted seawater) and temperature (20 degrees C). The worms were exposed to H2O2 (10 and 50 microM) for 4, 7, and 10 days and the following variables were determined: oxygen consumption, catalase (CAT) and glutathione peroxidase activity in both the supernatant and pellet fractions of whole body homogenates. The concentrations of non-protein sulfhydryl and lipid peroxides (LPO) were also measured. The oxygen consumption response was biphasic, decreasing after 4 days and increasing after 7 and 10 days of exposure to 50 microM H2O2 (P < 0.05). At the same H2O2 concentration, CAT activity was lower (P < 0.05) in the pellet fraction of worms exposed for 10 days compared to control. Non-protein sulfhydryl concentration and glutathione peroxidase activity were not affected by H2O2 exposure. After 10 days, LPO levels were higher (P < 0.05) in worms exposed to 50 microM H2O2 compared to control. The reduction in the antioxidant defense was paralleled by oxidative stress as indicated by higher LPO values (441% compared to control). The reduction of CAT activity in the pellet fraction may be related to protein oxidation. These results, taken together with previous findings, suggest that the worms were not able to cope with this H2O2 concentration.

Published

2008

105. Epitoky in Nereis (Neanthes) virens (Polychaeta: Nereididae): a story about sex and death.

Author

Hébert Chatelain E, Breton S, Lemieux H, and Blier PU

Subjects

Animals, Female, Male, Polychaeta enzymology, Energy Metabolism physiology, Metamorphosis, Biological physiology, Polychaeta growth & development, Sex Characteristics, Sexual Maturation physiology

Abstract

The nereidid Nereis (Neanthes) virens undergoes drastic behavioural, morphological and physiological changes during its sexual maturation (epitoky). This metamorphosis prepares benthic worms for a brief pelagic existence devoted to mating although in N. virens only mature males leave their burrows to swarm. After spawning, individuals of both sexes die. Specific adjustments of energy metabolism pathway allowing higher muscular activity and swimming capacity remain to be eluded. This study compared atokous worms (immature) and epitokous (mature) swimming males and benthic females of N. virens to detect metabolic changes that could occur during epitoky. Epitokous males showed significantly higher electron transport system, citrate synthase and aspartate aminotransferase activities (p<0.01) and significantly lower lactate dehydrogenase activity (p<0.01) compared to atokous worms and epitokous females. There was no difference in antioxidant enzyme capacities between epitokes and atokes. Lipase and trypsin activities were significantly lower (p<0.01) in epitokous males. The enzymatic changes observed are likely related to the metabolic adjustments required to support higher swimming abilities. Maintenance of antioxidant capacities could be related to protection of germinal tissues more than long term survival, since N. virens die after spawning.

Published

2008

106. Influences of Cu or Cd on the neurotoxicity induced by petroleum hydrocarbons in ragworm Perinereis aibuhitensis.

Author

Zhang Q, Zhou Q, Wang J, Sun S, Hua T, and Ren L

Subjects

Acetylcholinesterase metabolism, Animals, Cadmium toxicity, China, Copper toxicity, Geography, Polychaeta enzymology, Polychaeta growth & development, Toxicity Tests, Hydrocarbons toxicity, Petroleum toxicity, Polychaeta drug effects

Abstract

The ecotoxicological effects of heavy metals and petroleum hydrocarbons (PHCs) on ragworms are still vague. The relationships between toxicological indices (mortality and acetylcholinesterase (AChE) activity) and concentrations of toxicants (Cu, Cd, and PHCs) were examined in the estuary keystone species Perinereis aibuhitensis in laboratory conditions. The results of single toxicant indicated that three toxicants had potentially physiological toxicity to P. aibuhitensis. The estimated 4-d and 10-d LC50 for Cu, Cd, and PHCs was derived from the relationships between mortality and toxicants concentrations. Notable changes in the morphological signs and symptoms of P. aibuhitensis exposed to PHCs were observed. The AChE activity of P. aibuhitensis was more sensitive to the toxicity of PHCs than the others. The results of combined toxicants implied that the combined toxicity of Cu or Cd and PHCs to P. aibuhitensis was related to the concentration combination of toxicants. Compared to single PHCs treatment, the addition of Cu or Cd significantly mitigated the neurotoxicity of PHCs to AChE activity in P. aibuhitensis, which showed an antagonistic effect.

Published

2008

107. Molecular cloning and characterization of omega class glutathione S-transferase (GST-O) from the polychaete Neanthes succinea: biochemical comparison with theta class glutathione S-transferase (GST-T).

Author

Rhee JS, Lee YM, Hwang DS, Lee KW, Kim IC, Shin KH, Raisuddin S, and Lee JS

Subjects

Amino Acid Sequence, Animals, Antioxidants physiology, Base Sequence, Biomarkers, Cloning, Molecular, Copper toxicity, Dose-Response Relationship, Drug, Glutathione Transferase classification, Hydrogen-Ion Concentration, Molecular Sequence Data, Polychaeta classification, RNA, Messenger metabolism, Recombinant Proteins, Water Pollutants, Chemical toxicity, Gene Expression Regulation, Enzymologic, Glutathione Transferase genetics, Glutathione Transferase metabolism, Polychaeta enzymology, Polychaeta genetics

Abstract

We cloned and sequenced a full-length cDNA of an omega class glutathione S-transferase (GST-O) from the polychaete Neanthes succinea (ns-GST-O). The full-length cDNA of ns-GST-O was 1562 bp in length, containing an open reading frame (OR) of 732 bp that encoded a 244 amino acid protein. The deduced amino acid sequence of ns-GST-O showed a low similarity with the theta class N. suucinea GST (ns-GST-T). As GSTs play a significant role in antioxidant defense, we checked the expression pattern of ns-GST-O in N. succinea after exposure to copper (CuCl(2) 12 to 72 mug/L), which is an oxidative stress-inducing agent. After exposure to CuCl(2), ns-GST-O gene was dramatically up-regulated and when compared with ns-GST-T the expression pattern was more pronounced at all the concentrations of copper. Even the basal transcription levels of ns-GST-O were higher than those of ns-GST-T. To further characterize the catalytic properties of ns-GST-O, we constructed a recombinant ns-GST-O plasmid with a 6x His-Tag at the N-terminal of the full-length ns-GST-O cDNA. Recombinant ns-GST-O protein was highly expressed in transformed Escherichia coli. The effect of pH, temperature and chemical inhibitors on the enzyme activity of ns-GST-O was also studied and compared with the reported effect of these factors on recombinant ns-GST-T protein. These results suggest that, like other types of GSTs, ns-GST-O protein plays a conserved antioxidant role in the polychaete N. succinea.

Published

2007

108. Evolution of the cytoplasmic and mitochondrial phosphagen kinases unique to annelid groups.

Author

Tanaka K, Uda K, Shimada M, Takahashi K, Gamou S, Ellington WR, and Suzuki T

Subjects

Amino Acid Sequence, Animals, Exons genetics, Humans, Introns genetics, Molecular Sequence Data, Phosphotransferases chemistry, Phosphotransferases metabolism, Phylogeny, Sequence Alignment, Cytoplasm enzymology, Evolution, Molecular, Mitochondria enzymology, Phosphotransferases genetics, Polychaeta enzymology, Polychaeta genetics

Abstract

Creatine kinase (CK) is a member of a group of phosphoryl transfer enzymes called phosphagen kinases that play a key role in cellular energy transactions in animals. Three CK isoform gene families are known-cytoplasmic CK (CK), flagellar CK (fCK), and mitochondrial CK (MiCK). Each of the isoforms has a unique gene structure (intron/exon organization). A broad array of other phosphagen kinases is present in animals. Some of these enzymes are found only in annelids and closely related groups including glyocyamine kinase (GK), lombricine kinase (LK), taurocyamine kinase (TK), and a unique arginine kinase (AK) restricted to annelids. Phylogenetic analyses of these annelid phosphagen kinases indicate that they appear to have evolved from a CK-like ancestor. To gain a greater understanding of the relationship of the CK isoforms to the annelid enzymes, we have determined the intron/exon organization of the genes for the following phosphagen kinases: Eisenia LK, Sabellastarte AK, and Arenicola mitochondrial TK (MiTK). Analysis of genomic database for the polychaete Capitella sp. yielded two putative LK genes [cytoplasmic LK and mitochondrial LK (MiLK)]. The intron/exon organization of these genes was compared with available data for cytoplasmic and mitochondrial CKs, and an annelid GK. Surprisingly, these annelid genes, irrespective of whether they are cytoplasmic (LK, AK, and GK) or mitochondrial (MiTK and MiLK), had the same 8-intron/9-exon organization and were strikingly similar to MiCK genes sharing seven of eight splice junctions. These results support the view that the MiCK gene is basal and ancestral to the phosphagen kinases unique to annelids.

Published

2007

109. Identification, sequencing, and localization of a new carbonic anhydrase transcript from the hydrothermal vent tubeworm Riftia pachyptila.

Author

Sanchez S, Andersen AC, Hourdez S, and Lallier FH

Subjects

Amino Acid Sequence, Animals, Blotting, Western, Carbon Dioxide metabolism, Carbonic Anhydrases metabolism, Cloning, Molecular, Cytosol enzymology, DNA, Complementary chemistry, DNA, Complementary genetics, Electrophoresis, Polyacrylamide Gel, Gene Library, In Situ Hybridization, Isoenzymes chemistry, Isoenzymes genetics, Isoenzymes metabolism, Membrane Proteins chemistry, Membrane Proteins genetics, Membrane Proteins metabolism, Molecular Sequence Data, Polychaeta enzymology, Polychaeta growth & development, Protein Isoforms, RNA, Messenger genetics, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Sequence Homology, Amino Acid, Subtraction Technique, Symbiosis, Carbonic Anhydrases genetics, Polychaeta genetics, Sequence Analysis, DNA

Abstract

The vestimentiferan annelid Riftia pachyptila forms dense populations at hydrothermal vents along the East Pacific Rise at a depth of 2600 m. It harbors CO(2)-assimilating sulfide-oxidizing bacteria that provide all of its nutrition. To find specific host transcripts that could be important for the functioning of this symbiosis, we used a subtractive suppression hybridization approach to identify plume- or trophosome-specific proteins. We demonstrated the existence of carbonic anhydrase transcripts, a protein endowed with an essential role in generating the influx of CO(2) required by the symbionts. One of the transcripts was previously known and sequenced. Our quantification analyses showed a higher expression of this transcript in the trophosome compared to the branchial plume or the body wall. A second transcript, with 69.7% nucleotide identity compared to the previous one, was almost only expressed in the branchial plume. Fluorescent in situ hybridization confirmed the coexpression of the two transcripts in the branchial plume in contrast with the trophosome where only one transcript could be detected. An alignment of these translated carbonic anhydrase cDNAs with vertebrate and nonvertebrate carbonic anhydrase protein sequences revealed the conservation of most amino acids involved in the catalytic site. According to the phylogenetic analyses, the two R. pachyptila transcripts clustered together but not all nonvertebrate sequences grouped together. Complete sequencing of the new carbonic anhydrase transcript revealed the existence of two slightly divergent isoforms probably coded by two different genes.

Published

2007

110. [Toxic effects of petroleum hydrocarbons, copper and cadmium on polychaete Perinereis aibuhitensis Grube and on its responses in acetycholinesterase activity].

Author

Wang J, Zhou QX, Zhang QR, and Zhang Y

Subjects

Animals, Cadmium toxicity, Hydrocarbons, Aromatic metabolism, Petroleum toxicity, Polychaeta enzymology, Polychaeta growth & development, Toxicity Tests methods, Acetylcholinesterase metabolism, Copper toxicity, Hydrocarbons, Aromatic toxicity, Industrial Waste, Polychaeta drug effects

Abstract

Using the indoor simulating method of pollution exposure at various concentrations, the toxic effects of various concentrations of petroleum hydrocarbons (PHCs), copper (Cu2+) and cadmium (Cd2+) on the polychaete Perinereis aibuhitensis Grube and on its acetycholinesterase (AChE) activity were examined. The results indicated that petroleum hydrocarbons, Cu2+ and Cd2+ had the high toxicity to the polychaete Perinereis aibuhitensis Grube. After 4-day and 10-day exposure to petroleum hydrocarbons, Cu2+ and Cd2+, the value of LC50 were 440 and 110 microg x L(-1) for PHCs, 1 150 and 570 microg x L(-1) for Cu2+, 5 090 and 2 500 microg x L(-1) for Cd2+. In particular, PHCs had a stronger acute toxic effect than Cu and Cd. The AChE activity was inhibited, when the animal was exposed to Cd2+ and Cu2+, but the rate of inhibition was less than 50%. In particular, the AChE activity of the animal exposed to PHCs was significantly inhibited. The maximum rate of the inhibition by PHCs reached more than 90%. Moreover, the changes in the AChE activity significantly related with the concentration of PHCs. Thus, the index in the activity of AChE can sensitively reflect the toxic effects of PHCs on Perinereis aibuhitensis Grube as an important biomarker.

Published

2007

111. A novel arginine kinase with substrate specificity towards D-arginine.

Author

Uda K and Suzuki T

Subjects

Adenosine Monophosphate chemistry, Amino Acid Sequence, Animals, Arginine chemistry, Arginine Kinase chemistry, Cloning, Molecular, Guanidine chemistry, Molecular Sequence Data, Polychaeta enzymology, Recombinant Proteins chemistry, Recombinant Proteins genetics, Substrate Specificity genetics, Arginine Kinase genetics, Evolution, Molecular, Phylogeny, Polychaeta genetics

Abstract

We determined the cDNA-derived amino acid sequences of two arginine kinases (AK1, AK2) from the annelid Sabellastarte indica, cloned the cDNAs into pMAL plasmid and expressed them in E. coli. The phylogenetic analyses suggested that Sabellastarte AKs have evolved from a CK-related gene, not from the usual AK gene. The recombinant Sabellastarte AK1 showed a broad specificity towards various guanidine compounds, while the Sabellastarte AK2 mainly showed stronger activity for both D- and L-arginine, a very unique substrate specificity not seen before in usual AKs. We isolated guanidino compounds from the body wall musculature of Sabellastarte, and found that the major compound is D-arginine with a concentration of 4.85 +/- 0.51 mmol/kg. From these results, we suggest strongly that in Sabellastarte, D-arginine is the major phosphagen substrate and that the AK2 with substrate specificity towards D-arginine, catalyzes the phosphorylation of D-arginine.

Published

2007

112. Molecular cloning, expression, biochemical characteristics, and biomarker potential of theta class glutathione S-transferase (GST-T) from the polychaete Neanthes succinea.

Author

Rhee JS, Lee YM, Hwang DS, Won EJ, Raisuddin S, Shin KH, and Lee JS

Subjects

Amino Acid Sequence, Animals, Base Sequence, Biomarkers analysis, Cloning, Molecular, Copper toxicity, DNA, Complementary chemistry, Dinitrochlorobenzene metabolism, Ethylmaleimide pharmacology, Geologic Sediments analysis, Glutathione metabolism, Glutathione Transferase analysis, Glutathione Transferase metabolism, Hemin pharmacology, Hydrogen-Ion Concentration, Molecular Sequence Data, Phylogeny, Polychaeta classification, Recombinant Proteins analysis, Recombinant Proteins biosynthesis, Temperature, Triazines pharmacology, Water Pollutants, Chemical toxicity, Gene Expression Regulation, Enzymologic drug effects, Glutathione Transferase biosynthesis, Glutathione Transferase genetics, Polychaeta enzymology, Polychaeta genetics

Abstract

We cloned and sequenced the full-length cDNA of a theta class glutathione S-transferase (GST-T) from the polychaete Neanthes succinea. The open reading frame of N. succinea GST-T cDNA was 678bp and encoded 226 amino acid residues. We generated recombinant N. succinea GST-T by expression in transformed Escherichia coli and studied the kinetic properties as well as the effects of inhibitors, pH, and temperature on N. succinea GST-T. GST-T expression was studied using real-time RT-PCR in response to exposure to the model oxidative stress-inducing agent, CuCl(2). Copper induced a concentration-dependant increase in the expression of GST-T. Moreover, polychaetes collected from a heavily contaminated lake near an industrial complex showed significantly higher levels of GST-T expression. Interestingly, the site-collected polychaetes with the highest GST-T mRNA expression levels also showed the highest metallothioneins levels. These results suggest that GST-T in polychaetes may have an antioxidant role and that N. succinea GST-T expression may be a useful biomarker for exposure to environmental contaminants such as copper. Our findings provide a better understanding of the biochemical characteristics of N. succinea GST-T, and elucidate the potential role of GST-T in heavy metal-induced oxidative stress and as a biomarker for environmental contamination.

Published

2007

113. Purification, characterization, and cDNA cloning of opine dehydrogenases from the polychaete rockworm Marphysa sanguinea.

Author

Endo N, Kan-no N, and Nagahisa E

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, DNA Primers, DNA, Complementary genetics, Electrophoresis, Polyacrylamide Gel, Isoenzymes genetics, Molecular Sequence Data, Muscle, Skeletal metabolism, Polychaeta genetics, Sequence Analysis, DNA, Sequence Homology, Species Specificity, Oxidoreductases Acting on CH-NH Group Donors genetics, Polychaeta enzymology

Abstract

Alanopine dehydrogenase (AlDH) and three isoforms of strombine/alanopine dehydrogenase (St/AlDH) were purified from muscle tissue of the polychaete rockworm Marphysa sanguinea. The four enzymes, which can be distinguished by the isoelectric point, are monomeric 42 kDa proteins, possess similar pH-activity profiles, and display specificity for pyruvate and NAD(H). The three isoforms of St/AlDH show equivalent Km and Vmax for glycine and L-alanine and for D-strombine and meso-alanopine. Free amino acid levels in the muscle and D-strombine accumulation in vivo during muscle activity suggest that St/AlDHs function physiologically as StDH. AlDH shows specificity for L-alanine and meso-alanopine, but not for glycine or D-strombine. The amino acid sequences of AlDH and one of the St/AlDH isoforms were determined by a combination of amino acid sequence analysis and cDNA cloning. St/AlDH cDNA consisted of 1586 bp nucleotides that encode a 399-residue protein (43,346.70 Da), and AlDH cDNA consisted of 1587 bp nucleotides that encode a 399-residue protein (43,886.68 Da). The two amino acid sequences deduced from the cDNA displayed 67% amino acid identity, with greatest similarity to that of tauropine dehydrogenase from the polychaete Arabella iricolor.

Published

2007

114. Cloning and expression of the cathepsin F-like cysteine protease gene in Escherichia coli and its characterization.

Author

Joo HS, Koo KB, Park KI, Bae SH, Yun JW, Chang CS, and Choi JW

Subjects

Amino Acid Sequence, Animals, Base Sequence, Blotting, Northern, Blotting, Western, Cathepsin F, Cathepsins chemistry, Cathepsins genetics, Cathepsins metabolism, Cloning, Molecular, Cysteine Endopeptidases chemistry, Cysteine Endopeptidases genetics, DNA, Complementary chemistry, DNA, Complementary genetics, Electrophoresis, Polyacrylamide Gel, Fibrin metabolism, Gene Expression Regulation, Enzymologic, Gene Library, Humans, Hydrogen-Ion Concentration, Molecular Sequence Data, Polychaeta genetics, Recombinant Proteins chemistry, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Cysteine Endopeptidases metabolism, Escherichia coli genetics, Polychaeta enzymology, Recombinant Proteins metabolism

Abstract

In this study, we have cloned a novel cDNA encoding for a papain-family cysteine protease from the Uni-ZAP XR cDNA library of the polychaete, Periserrula leucophryna. This gene was expressed in Escherichia coli using the T7 promoter system, and the protease was characterized after partial purification. First, the partial DNA fragment (498 bp) was amplified from the total RNA via RT-PCR using degenerated primers derived from the conserved region of cysteine protease. The full-length cDNA of cysteine protease (PLCP) was prepared via the screening of the Uni-ZAP XR cDNA library using the 32P-labeled partial DNA fragment. As a result, the PLCP gene was determined to consist of a 2591 bp nucleotide sequence (CDS: 173-1024 bp) which encodes for a 283-amino acid polypeptide, which is itself composed of an 59-residue signal sequence, a 6-residue propeptide, a 218-residue mature protein, and a long 3'-noncoding region encompassing 1564 bp. The predicted molecular weights of the preproprotein and the mature protein were calculated as 31.8 kDa and 25 kDa, respectively. The results of sequence analysis and alignment revealed a significant degree of sequence similarity with other eukaryotic cysteine proteases, including the conserved catalytic triad of the Cys90, His226, and Asn250 residues which characterize the C1 family of papain-like cysteine protease. The nucleotide and amino acid sequences of the novel gene were deposited into the GenBank database under the accession numbers, AY390282 and AAR27011, respectively. The results of Northern blot analysis revealed the 2.5 kb size of the transcript and ubiquitous expression throughout the entirety of the body, head, gut, and skin, which suggested that the PLCP may be grouped within the cathepsin F-like proteases. The region encoding for the mature form of the protease was then subcloned into the pT7-7 expression vector following PCR amplification using the designed primers, including the initiation and termination codons. The recombinant cysteine proteases were generated in a range of 6.3% to 12.5% of the total cell proteins in the E. coli BL21(DE3) strain for 8 transformants. The results of SDS-PAGE and Western blot analysis indicated that a cysteine protease of approximately 25 kDa (mature form) was generated. The optimal pH and temperature of the enzyme were determined to be approximately 9.5 and 35 degrees, respectively, thereby indicating that the cysteine protease is a member of the alkaline protease group. The evaluation of substrate specificity indicated that the purified protease was more active towards Arg-X or Lys-X and did not efficiently cleave the substrates with non-polar amino acids at the P1 site. The PLCP evidenced fibrinolytic activity on the plasminogen-free fibrin plate test.

Published

2007

115. The pH dependence of the activity of dehaloperoxidase from Amphitrite ornata.

Author

Franzen S, Gilvey LB, and Belyea JL

Subjects

Animals, Crystallography, X-Ray, Hydrogen-Ion Concentration, Kinetics, Phenols metabolism, Spectrophotometry, Ultraviolet, Spectroscopy, Fourier Transform Infrared, Hemoglobins metabolism, Peroxidases metabolism, Polychaeta enzymology

Abstract

Dehaloperoxidase (DHP) from the terebellid polychaete, Amphitrite ornata, is the first hemoglobin that has peroxidase activity as part of its native function. The substrate 2,4,6-tribromophenol (TBP) is oxidatively debrominated by DHP to form 2,6-dibromoquinone (DBQ) in a two-electron process. There is a well-defined internal binding site for TBP above the heme, a feature not observed in other hemoglobins or peroxidases. A study of the pH dependence of the activity of DHP reveals a substantial difference in mechanism. From direct observation of the Soret band of the heme it is shown that the pKa for heme activation in protein DHP is 6.5. Below this pH the heme absorbance decreases in the presence of H2O2 with or without addition of substrate. The low pH data are consistent with significant heme degradation. Above pH 6.5 addition of H2O2 causes the heme to shift rapidly to a compound II spectrum and then slowly to an unidentified intermediate with an absorbance of 410 nm. However, the pKa of the substrate TBP is 6.8 and the greatest enzyme activity is observed above the pKa of TBP under conditions where the substrate is a phenolate anion (TPBO-). Although the mechanisms may differ, the data show that both neutral TBP and anionic TPBO- are converted to the quinone product. The mechanistic implications of the pH dependence are discussed by comparison other known peroxidases, which oxidize substrates at the heme edge.

Published

2007

116. A novel fibrinolytic serine protease from the polychaete Nereis (Neanthes) virens (Sars): purification and characterization.

Author

Zhang Y, Cui J, Zhang R, Wang Y, and Hong M

Subjects

Amino Acid Sequence, Animals, Electrophoresis, Gel, Two-Dimensional, Gene Library, Molecular Sequence Data, Polychaeta genetics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Polychaeta enzymology, Serine Endopeptidases genetics, Serine Endopeptidases isolation & purification, Serine Endopeptidases metabolism

Abstract

A novel fibrinolytic serine protease has been identified and purified to homogeneity from the coelomic fluid of polychaete Nereis (Neanthes) virens (Sars), and named N-V protease. N-V protease is a 29kDa single chain protein with an isoelectric point of pH 4.5. It hydrolyzes Aalpha-chain of fibrinogen with a high efficiency, and the Bbeta- and gamma-chains (Aalpha>Bbeta>gamma) with a lower efficiency. The proteolytic activity peaks at pH 7.8 is 45 degrees C. The activity is completely inhibited by serine protease inhibitors DFP (I(50)=5.8 x 10(-4)M) and PMSF (I(50)=5.5 x 10(-2)M), and almost completely by TLCK (I(50)=7.7 x 10(-1) M). But aprotinin, elastinal, SBTI, benzamidine, PCMB, EDTA, EGTA, iodoacetate, E64, and beta-mercaptoethanol have no effect on the protease activity. Therefore, N-V protease is identified as a serine protease. The primary amino acid sequence of N-V protease was determined by mass spectrometry (N-V protease, No. P83433). According to the MALDI-TOF MS analysis, there is no existing protein in the NCBI Non-redundant Protein Sequence Database that matches the N-V protease sequence. Therefore, N-V protease is a novel and special protein in N. virens. Furthermore, we have successfully established an expression cDNA library from the whole body of N. virens (data not shown).

Published

2007

117. Resonance Raman study of ferric heme adducts of dehaloperoxidase from Amphitrite ornata.

Author

Belyea J, Belyea CM, Lappi S, and Franzen S

Subjects

Animals, Hydrogen Bonding, Ligands, Models, Molecular, Molecular Conformation, Porphyrins chemistry, Spectrum Analysis, Raman, Heme chemistry, Heme metabolism, Iron chemistry, Iron metabolism, Peroxidases chemistry, Peroxidases metabolism, Polychaeta enzymology

Abstract

The study of axial ligation by anionic ligands to ferric heme iron by resonance Raman spectroscopy provides a basis for comparison of the intrinsic electron donor ability of the proximal histidine in horse heart myoglobin (HHMb), dehaloperoxidase (DHP), and horseradish peroxidase (HRP). DHP is a dimeric hemoglobin (Hb) originally isolated from the terebellid polychaete Amphitrite ornata. The monomers are structurally related to Mb and yet DHP has a peroxidase function. The core size marker modes, v2 and v3, were observed using Soret excitation, and DHP-X was compared to HHMb-X for the ligand series X = F, Cl, Br, SCN, OH, N3, and CN. Special attention was paid to the hydroxide adduct, which is also formed during the catalytic cycle of peroxidases. The Fe-OH stretching frequency was observed and confirmed by deuteration and is higher in DHP than in HHMb. The population of high-spin states of the heme iron in DHP was determined to be intermediate between HHMb and HRP. The data provide the first direct measurement of the effect of axial ligation on the heme iron in DHP. The Raman data support a modified charge relay in DHP, in which a strongly hydrogen-bonded backbone carbonyl (>C=O) polarizes the proximal histidine. The charge relay mechanism by backbone carbonyl >C=O-His-Fe is the analogue of the Asp-His-Fe of peroxidases and Glu-His-Fe of flavohemoglobins.

Published

2006

118. The role of an absolutely conserved tryptophan residue in octamer formation and stability in mitochondrial creatine kinases.

Author

Hoffman GG, Sona S, Bertin M, and Ellington WR

Subjects

Amino Acid Sequence, Animals, Base Sequence, Models, Molecular, Molecular Sequence Data, Mutagenesis, Site-Directed, Polychaeta enzymology, Porifera enzymology, Sequence Alignment, Creatine Kinase, Mitochondrial Form chemistry, Protein Structure, Quaternary, Tryptophan chemistry

Abstract

In most organisms, mitochondrial creatine kinase (MtCK) is present as dimers and octamers with the latter predominating under physiological conditions. An absolutely conserved tryptophan residue (Trp-264 in chicken sarcomeric MtCK) appears to play a key role in octamer stability. Recently, it has been shown that the sponge Tethya aurantia, a member of the most ancient group of living multi-cellular animals, expresses an obligate, dimeric MtCK that lacks this absolutely conserved tryptophan residue, instead possessing a tyrosine in this position. In the present study we confirm that the absolutely conserved tryptophan residue is lacking in other sponge MtCKs where it is instead substituted by histidine or asparagine. Site directed mutations of the Trp-264 in expression constructs of chicken sarcomeric MtCK and the octameric MtCK from the marine worm Chaetopterus destabilized the octameric quaternary structure producing only dimers. A Tyr-->Trp mutation in an expression construct of the Tethya MtCK construct failed to produce octamerization; Tyr-->His and Tyr-->Asn mutations also yielded dimers. These results, in conjunction with analysis of homology models of Chaetopterus and Tethya MtCKs, strongly support the view that while the absolutely conserved tryptophan residue is important in octamer stability, octamer formation involves a complex suite of interactions between a variety of residues.

Published

2006

119. Isolation of a cDNA encoding a protease from Perinereis aibuhitensis Grube.

Author

Li RG, Qian DM, Guo DS, Du GC, Yan ZY, and Wang B

Subjects

Amino Acid Sequence, Animals, Blotting, Northern, Blotting, Western, Caseins metabolism, Cloning, Molecular, DNA, Complementary isolation & purification, Helminth Proteins chemistry, Molecular Sequence Data, Open Reading Frames, Plasminogen Activators chemistry, Polychaeta genetics, Recombinant Fusion Proteins isolation & purification, Sequence Alignment, Serine Endopeptidases chemistry, Tylenchoidea enzymology, Plasminogen Activators genetics, Plasminogen Activators metabolism, Polychaeta enzymology, Serine Endopeptidases genetics, Serine Endopeptidases metabolism

Abstract

The cDNA encoding a protease of Perinereis aibuhitensis Grube (PPA) was cloned. The deduced amino acid sequence analysis showed that the protein had 49% identity to the C-terminal amino acid 169-246 of serine protease of Heterodera glycines. Northern blotting analysis indicated that the cDNA could hybridize with mRNA of approximately 260 bases isolated from the marine earthworm. The cDNA was amplified by polymerase chain reaction and cloned into pMAL-p2 to construct expression vector pMAL-PPA. pMAL-PPA was introduced into Escherichia coli BL21(DE3) and overexpression of PPA fused with maltose binding protein was achieved by isopropyl-beta-D-thiogalactopyranoside induction. The fusion protein was purified by affinity chromatography on an amylose resin column and ion-exchange chromatography on a diethylaminoethyl-Sepharose 4B column. Rabbits were immunized with the purified protein and antiserum was prepared. The antibody could react with a protein of approximately 9 kDa extracted from the marine earthworm as shown by Western blotting analysis. The activity analysis of the recombinant PPA suggested that it was probably a plasminogen activator.

Published

2006

120. Proximal cavity, distal histidine, and substrate hydrogen-bonding mutations modulate the activity of Amphitrite ornata dehaloperoxidase.

Author

Franzen S, Belyea J, Gilvey LB, Davis MF, Chaudhary CE, Sit TL, and Lommel SA

Subjects

Animals, Binding Sites genetics, Hemoglobins, Hydrogen Bonding, Peroxidases metabolism, Phenylalanine genetics, Polychaeta genetics, Substrate Specificity genetics, Tyrosine genetics, Valine genetics, Histidine chemistry, Histidine genetics, Mutagenesis, Site-Directed, Peroxidases chemistry, Peroxidases genetics, Polychaeta enzymology

Abstract

Dehaloperoxidase (DHP) from Amphitrite ornata is the first globin that has peroxidase activity that approaches that of heme peroxidases. The substrates 2,4,6-tribromophenol (TBP) and 2,4,6-trichlorophenol are oxidatively dehalogenated by DHP to form 2,6-dibromo-1,4-benzoquinone and 2,6-dichloro-1,4-benzoquinone, respectively. There is a well-defined internal substrate-binding site above the heme, a feature not observed in other globins or peroxidases. Given that other known heme peroxidases act on the substrate at the heme edge there is great interest in understanding the possible modes of substrate binding in DHP. Stopped-flow studies (Belyea, J., Gilvey, L. B., Davis, M. F., Godek, M., Sit, T. L., Lommel, S. A., and Franzen, S. (2005) Biochemistry 44, 15637-15644) show that substrate binding must precede the addition of H2O2. This observation suggests that the mechanism of DHP relies on H2O2 activation steps unlike those of other known peroxidases. In this study, the roles of the distal histidine (H55) and proximal histidine (H89) were probed by the creation of site-specific mutations H55R, H55V, H55V/V59H, and H89G. Of these mutants, only H55R shows significant enzymatic activity. H55R is 1 order of magnitude less active than wild-type DHP and has comparable activity to sperm whale myoglobin. The role of tyrosine 38 (Y38), which hydrogen bonds to the hydroxyl group of the substrate, was probed by the mutation Y38F. Surprisingly, abolishing this hydrogen bond increases the activity of the enzyme for the substrate TBP. However, it may open a pathway for the escape of the one-electron product, the phenoxy radical leading to polymeric products.

Published

2006

121. Hydrophobic distal pocket affects NO-heme geminate recombination dynamics in dehaloperoxidase and H64V myoglobin.

Author

Franzen S, Jasaitis A, Belyea J, Brewer SH, Casey R, MacFarlane AW 4th, Stanley RJ, Vos MH, and Martin JL

Subjects

Amino Acid Substitution, Animals, Hydrogen Bonding, Hydrophobic and Hydrophilic Interactions, Kinetics, Models, Chemical, Polychaeta enzymology, Protein Conformation, Time Factors, Heme chemistry, Hemoglobins chemistry, Myoglobin chemistry, Nitric Oxide chemistry, Peroxidases chemistry

Abstract

The recombination dynamics of NO with dehaloperoxidase (DHP) from Amphitrite ornata following photolysis were measured by femtosecond time-resolved absorption spectroscopy. Singular value decomposition (SVD) analysis reveals two important basis spectra. The first SVD basis spectrum reports on the population of photolyzed NO molecules and has the appearance of the equilibrium difference spectrum between the deoxy and NO forms of DHP. The first basis time course has two kinetic components with time constants of tau(11) approximately 9 ps and tau(12) approximately 50 ps that correspond to geminate recombination. The fast geminate process tau(11) arises from a contact pair with the heme iron in a bound state with S = 3/2 spin. The slow geminate process tau(12) corresponds to the recombination from a more remote docking site >3 A from the heme iron with the greater barrier corresponding to a S = 5/2 spin state. The second SVD basis spectrum represents a time-dependent Soret band shift indicative of heme photophysical processes and protein relaxation with time constants of tau(21) approximately 3 ps and tau(22) approximately 17 ps, respectively. A comparison between the more rapid rate constant of the slow geminate phase in DHP-NO and horse heart myoglobin (HHMbNO) or sperm whale myoglobin (SWMbNO) suggests that protein interactions with photolyzed NO are weaker in DHP than in the wild-type MbNOs, consistent with the hydrophobic distal pocket of DHP. The slower protein relaxation rate tau(22) in DHP-NO relative to HHMbNO implies less effective trapping in the docking site of the distal pocket and is consistent with a greater yield for the fast geminate process. The trends observed for DHP-NO also hold for the H64V mutant of SWMb (H64V MbNO), consistent with a more hydrophobic distal pocket for that protein as well. We examine the influence of solution viscosity on NO recombination by varying the glycerol content in the range from 0% to 90% (v/v). The dominant effect of increasing viscosity is the increase of the rate of the slow geminate process, tau(12), coupled with a population decrease of the slow geminate component. Both phenomena are similar to the effect of viscosity on wild-type Mb due to slowing of protein relaxation resulting from an increased solution viscosity and protein surface dehydration.

Published

2006

122. Spectroscopic study of substrate binding to the carbonmonoxy form of dehaloperoxidase from Amphitrite ornata.

Author

Nienhaus K, Deng P, Belyea J, Franzen S, and Nienhaus GU

Subjects

Animals, Models, Molecular, Peroxidases chemistry, Spectrophotometry, Ultraviolet, Spectroscopy, Fourier Transform Infrared, Substrate Specificity, Peroxidases metabolism, Polychaeta enzymology

Abstract

Dehaloperoxidase (DHP) is a globular heme enzyme found in the marine worm Amphitrite ornata that can catalyze the dehalogenation of halophenols to the corresponding quinones by using hydrogen peroxide as a cosubstrate. Its three-dimensional fold is surprisingly similar to that of the oxygen storage protein myoglobin (Mb). A key structural feature common to both DHP and Mb is the existence of multiple conformations of the distal histidine. In DHP, the conformational flexibility may be involved in promotion of substrate and cosubstrate entry and exit. Here we have explored the dynamics of substrate binding in DHP using Fourier transform infrared spectroscopy and flash photolysis. A number of discrete conformations at the active site were identified from the appearance of multiple CO absorbance bands in the infrared region of the spectrum. Upon photolysis at cryogenic temperatures, the CO molecules are trapped at docking sites within the protein matrix, as inferred from the appearance of several photoproduct bands characteristic of each site. Substrate binding stabilizes the protein by approximately 20 kJ/mol. The low yield of substrate-bound DHP at ambient temperature points toward a steric inhibition of substrate binding by carbon monoxide.

Published

2006

123. [Toxic effects of petroleum hydrocarbons and copper on polychaete Nereis diversicolor and on its antioxidant enzyme systems].

Author

Sun FH, Zhou QX, and Zhang QR

Subjects

Animals, Lethal Dose 50, Peroxidase metabolism, Polychaeta enzymology, Polychaeta growth & development, Copper toxicity, Hydrocarbons toxicity, Petroleum toxicity, Polychaeta drug effects, Superoxide Dismutase metabolism

Abstract

Under the condition of the laboratory simulation, the toxic effects of petroleum hydrocarbons and various concentrations of copper (Cu2+) on the polychaete Nereis diversicolor and on its antioxidant enzyme defense systems were examined. The results indicate that both petroleum hydrocarbons and CU2+ have high toxicity to the polychaete. After a 3-day exposure to petroleum hydrocarbons and Cu2+, the value of LD50 was 117.5 microL x L(-1) and 864.0 microg x L(-1), respectively. The activities of peroxidase (POD) and superoxide dismutase (SOD) were influenced significantly through a 5-day exposure to single pollution of Cu2+. The activity of POD was inhibited at first and then enhanced gradually; on the contrary, the activity of SOD showed a tendency of induction firstly and then inhibition. After exposed to petroleum hydrocarbons at the concentration of the value of LD50 for 5 days, POD activity of the polychaete was not significantly induced, and the activity of SOD was lower than that of control. A 5-day exposure to the joint-pollution of petroleum hydrocarbons and Cu2+ could bring out a decrease in the activities of POD and SOD firstly and then an increase. The changes in the activity of SOD can better reflect the toxic effects of pollutants on the polychaete.

Published

2006

124. Tolerance and biomarkers as useful tools for assessing environmental quality in the Oued Souss estuary (Bay of Agadir, Morocco).

Author

Ait Alla A, Mouneyrac C, Durou C, Moukrim A, and Pellerin J

Subjects

Animals, Biomarkers analysis, Mediterranean Sea, Metals, Heavy analysis, Morocco, Seawater analysis, Adaptation, Physiological, Environmental Monitoring methods, Polychaeta enzymology, Polychaeta physiology, Water Pollutants, Chemical analysis

Abstract

The aim of this study was to assess aquatic environmental quality of Oued Souss (Agadir, Morocco). This estuary has been subjected for a long time to large amounts of sewage discharges and industrial effluents. Since November 2002, no waste outlets have been discharged in this site due to their connection to a wastewater purification plant. Firstly, we have compared metal tolerance of the annelid polychaete (Nereis diversicolor) originating from Oued Souss and a relatively clean site (Oualidia, Morocco). Secondly, we have evaluated with a multi-marker approach (acetylcholinesterase [AChE], glutathione-S-transferases [GSTs], catalase, thiobarbituric acid reactive substances [TBARs]) responses of worms to the pollution gradient. Results have shown that worms from Oued Souss have acquired tolerance to copper and zinc due to a long-term sub-lethal metal exposure and this metal tolerance was maintained in spite of the end of wastewater discharges in this site. Higher catalase, GSTs and TBARs values have been observed in worms from Oued Souss sampled before implantation of wastewater treatment. The multi-marker approach confirms that these worms have been submitted to various contaminants. In contrast, high inhibition in AChE activities measured in worms from Oued Souss could be explained by the continuous agricultural influence of nearest areas. The level of contamination was probably maintained since biomarker values were generally higher in worms from Oued Souss when compared to Oualidia.

Published

2006

125. Spectroscopic characterization of the ferric states of Amphitrite ornata dehaloperoxidase and Notomastus lobatus chloroperoxidase: His-ligated peroxidases with globin-like proximal and distal properties.

Author

Osborne RL, Sumithran S, Coggins MK, Chen YP, Lincoln DE, and Dawson JH

Subjects

Animals, Circular Dichroism, Spectrophotometry, Ultraviolet, Globins chemistry, Histidine chemistry, Peroxidases chemistry, Polychaeta enzymology

Abstract

Amphitrite ornata dehaloperoxidase (DHP) and Notomastus lobatus chloroperoxidase (NCPO) catalyze the peroxide-dependent dehalogenation of halophenols and halogenation of phenols, respectively. Both enzymes have histidine (His) as their proximal heme iron ligand. Crystallographic examination of DHP revealed that it has a globin fold [M.W. LaCount, E. Zhang, Y.-P. Chen, K. Han, M.M. Whitton, D.E. Lincoln, S.A. Woodin, L. Lebioda, J. Biol. Chem. 275 (2000) 18712-18716] and kinetics studies established that ferric DHP is the active state [R.L. Osborne, L.O. Taylor, K. Han, B. Ely, J.H. Dawson, Biochem. Biophys. Res. Commun. 324 (2004) 1194-1198]. NCPO likely has these same properties. Previous work with His-ligated heme proteins has revealed characteristic spectral distinctions between dioxygen binding globins and peroxide-activating peroxidases. Since DHP, and likely NCPO, is a peroxide-activating globin, we have sought to determine in the present investigation whether the ferric resting states of these two novel heme-containing enzymes are myoglobin-like or peroxidase-like. To do so, we have examined their exogenous ligand-free ferric states as well as their azide, imidazole and NO bound ferric adducts (and ferrous-NO complexes) with UV-Visible absorption and magnetic circular dichroism spectroscopy. We have also compared each derivative to the analogous states of horse heart myoglobin (Mb) and horseradish peroxidase (HRP). The spectra observed for parallel forms of DHP and NCPO are virtually identical to each other as well as to the spectra of the same Mb states, while being less similar to the spectra of corresponding HRP derivatives. From these data, we conclude that exogenous ligand-free ferric DHP and NCPO are six-coordinate with water and neutral His as ligands. This coordination structure is distinctly different from the ferric resting state of His-ligated peroxidases and indicates that DHP and NCPO do not activate bound peroxide through a mechanism dependent on a push effect imparted by a partially ionized proximal His as proposed for typical heme peroxidases.

Published

2006

126. Antioxidant properties of the mucus secreted by Laeonereis acuta (Polychaeta, Nereididae): a defense against environmental pro-oxidants?

Author

Moraes TB, Ribas Ferreira JL, da Rosa CE, Sandrini JZ, Votto AP, Trindade GS, Geracitano LA, Abreu PC, and Monserrat JM

Subjects

Animals, Catalase metabolism, Cell Line, Tumor, Cell Survival drug effects, Colony Count, Microbial, DNA Damage, Environmental Pollutants toxicity, Glutathione Peroxidase metabolism, Glutathione Transferase metabolism, Hydrogen Peroxide toxicity, Hydroxyl Radical metabolism, Mucus enzymology, Mucus microbiology, Peroxides metabolism, Polychaeta enzymology, Rats, Reactive Oxygen Species toxicity, Superoxide Dismutase metabolism, Antioxidants metabolism, Mucus metabolism, Polychaeta metabolism

Abstract

Polychaeta species like Laeonereis acuta (Nereididae) usually secrete great amounts of mucus that wrap the animal inside. Taking into account that fungi action in the sediment and UV radiation acting on dissolved organic matter in the water produces reactive oxygen species (ROS) like hydrogen peroxide (H(2)O(2)), it was considered that the mucus secretion could represent an antioxidant defense against environmental ROS. Antioxidant enzymes (catalase-CAT; superoxide dismutase-SOD; glutathione peroxidase-GPx and glutathione-S-transferase-GST) and total antioxidant capacity (TOSC) were determined in worms and mucus secretion. Higher (p<0.05) CAT, GPx and TOSC values were registered in mucus samples respect worms, SOD activity was similar (p>0.05) in both kind of samples, and absence of GST activity was observed in mucus samples, suggesting absence of catalyzed phase II reactions. In assays conducted with hepatoma cell lines exposed to H(2)O(2), it was verified that: (1) mucus co-exposure significantly (p<0.05) lowered DNA damage induced by H(2)O(2); (2) ROS production was significantly (p<0.05) reduced when cells were exposed simultaneously with mucus samples and H(2)O(2) respect H(2)O(2) alone. It can be concluded that the mucus production contributes substantially to the antioxidant defense system of the worm against environmental ROS through the interception or degradation of H(2)O(2), peroxyl and hydroxyl radicals.

Published

2006

127. Enzyme function of the globin dehaloperoxidase from Amphitrite ornata is activated by substrate binding.

Author

Belyea J, Gilvey LB, Davis MF, Godek M, Sit TL, Lommel SA, and Franzen S

Subjects

Animals, Cloning, Molecular, Enzyme Activation, Escherichia coli enzymology, Escherichia coli genetics, Globins metabolism, Hemoglobins, Hydrogen Peroxide metabolism, Peroxidases antagonists & inhibitors, Peroxidases genetics, Phenols metabolism, Polychaeta enzymology, Protein Binding, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Peroxidases metabolism

Abstract

Amphitrite ornata dehaloperoxidase (DHP) is a heme enzyme with a globin structure, which is capable of oxidizing para-halogenated phenols to the corresponding quinones. Cloning, high-level expression, and purification of recombinant DHP are described. Recombinant DHP was assayed by stopped-flow experiments for its ability to oxidatively debrominate 2,4,6-tribromophenol (TBP). The enzymatic activity of the ferric form of recombinant DHP is intermediate between that of a typical peroxidase (horseradish peroxidase) and a typical globin (horse heart myoglobin). The present study shows that, unlike other known peroxidases, DHP activity requires the addition of substrate, TBP, prior to the cosubstrate, peroxide. The presence of a substrate-binding site in DHP is consistent with a two-electron oxidation mechanism and an obligatory order for activation of the enzyme by addition of the substrate prior to the cosubstrate.

Published

2005

128. Characterisation of two novel CYP4 genes from the marine polychaete Nereis virens and their involvement in pyrene hydroxylase activity.

Author

Jørgensen A, Rasmussen LJ, and Andersen O

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cytochrome P-450 Enzyme System isolation & purification, Molecular Sequence Data, Polychaeta genetics, Pyrenes chemistry, Sequence Alignment, Cytochrome P-450 Enzyme System genetics, Cytochrome P-450 Enzyme System metabolism, Polychaeta enzymology, Pyrenes metabolism

Abstract

Cytochrome P450 enzymes (CYP enzymes) catalyse the initial step in biotransformation of xenobiotics like polycyclic aromatic hydrocarbons (PAHs). The marine polychaete Nereis virens has a high capacity for biotransformation of PAHs. In the present study, the complete cDNA sequences of two novel CYP genes isolated from N. virens gut tissue are reported. One named CYP342A1, the first member of a new family and the other named CYP4BB1, the first member of a new subfamily. This is the first investigation of specific CYP enzymes from marine polychaetes in which catalytic activity has been determined. Both CYP enzymes had monooxygenase activity and catalysed hydroxylation of pyrene to 1-hydroxypyrene. Based on the present results it is likely that both CYP4BB1 and CYP342A1 are involved in xenobiotic biotransformation. Furthermore, site-directed mutagenesis of the conserved cysteine residue of the heme binding domain resulted in complete loss of monooxygenase activity of both CYP enzymes, indicating that this cysteine residue is indispensable for monooxygenase activity of invertebrate CYP enzymes, as has been well documented in vertebrates. Considering the important role of CYP enzymes in biotransformation of xenobiotics and the presence of N. virens in estuarine environments that accumulates organic xenobiotics, our results are important in understanding the molecular mechanism of biotransformation in marine polychaetes.

Published

2005

129. Over-expression, purification and characterization of the oligomerization dynamics of an invertebrate mitochondrial creatine kinase.

Author

Hoffman GG and Ellington WR

Subjects

Adenosine Diphosphate chemistry, Animals, Chickens, Chromatography, Gel, Creatine Kinase biosynthesis, Creatine Kinase chemistry, Creatine Kinase, MB Form, Creatine Kinase, Mitochondrial Form, Electrophoresis, Polyacrylamide Gel, Enzyme Stability genetics, Escherichia coli genetics, Gene Expression genetics, Isoenzymes biosynthesis, Isoenzymes chemistry, Isoenzymes genetics, Kinetics, Light, Magnesium Chloride chemistry, Molecular Weight, Nitrates chemistry, Particle Size, Polychaeta genetics, Protein Isoforms chemistry, Protein Isoforms genetics, Protein Structure, Quaternary, Protein Subunits chemistry, Protein Subunits genetics, Recombinant Proteins chemistry, Recombinant Proteins isolation & purification, Sarcomeres enzymology, Scattering, Radiation, Temperature, Creatine Kinase genetics, Polychaeta enzymology, Recombinant Proteins biosynthesis

Abstract

Mitochondrial creatine kinase (MtCK) plays a central role in energy homeostasis within cells that display high and variable rates of ATP turnover. Vertebrate MtCKs exist primarily as octamers but readily dissociate into constituent dimers under a variety of circumstances. MtCK is an ancient protein that is also found in invertebrates including sponges, the most primitive of all multi-cellular animals. We have cloned, expressed, and purified one of these invertebrate MtCKs from a marine polychaete worm, Chaetopterus variopedatus (CVMtCK). Size exclusion chromatography and dynamic light scattering (DLS) were used to characterize oligomeric state in comparison with that of octameric chicken sarcomeric isoform (SarMtCK). At protein concentrations >1 mg/ml, CVMtCK was predominantly octameric (>90%). When diluted to 0.1 mg/ml, CVMtCK dissociated into dimers much more rapidly than SarMtCK when observed under identical conditions. The rate of dissociation for both MtCKs increased as temperature rose from 2 to 28 degrees C, and in CVMtCK, fell at higher incubation temperatures. The fraction of octameric CVMtCK at equilibrium increased with temperature and then fell. Temperature transition studies showed that octamers and dimers were rapidly interconvertible on a similar time scale. Importantly, when CVMtCK was converted to the transition state analog complex (TSAC), both size exclusion chromatography and DLS showed that there was minimal dissociation of octamers into dimers while SarMtCK octamers were highly unstable as the TSAC. These results clearly show distinct differences in octamer stability between CVMtCK and SarMtCK, which could impact function under physiological circumstances. Furthermore, the large yield of recombinant protein and high stability of CVMtCK in the TSAC suggest that this protein might be a good target for crystallization efforts.

Published

2005

130. Antioxidant mechanisms of the Nereidid Laeonereis acuta (Anelida: Polychaeta) to cope with environmental hydrogen peroxide.

Author

da Rosa CE, Iurman MG, Abreu PC, Geracitano LA, and Monserrat JM

Subjects

Analysis of Variance, Animals, Catalase metabolism, Comet Assay, DNA Damage physiology, Glutathione Peroxidase metabolism, Glutathione Transferase metabolism, Mucus metabolism, Polychaeta physiology, Superoxide Dismutase metabolism, Time Factors, Adaptation, Physiological physiology, Hydrogen Peroxide metabolism, Oxidative Stress physiology, Polychaeta enzymology

Abstract

Hydrogen peroxide (H(2)O(2)) is a naturally occurring prooxidant molecule, and its effects in the macroinvertebrate infauna were previously observed. The existence of a gradient of antioxidant enzymes activity (catalase [CAT], glutathione peroxidase [GPx], superoxide dismutase [SOD], and glutathione-S-transferase [GST]) and/or oxidative damage along the body of the estuarine polychaeta Laeonereis acuta (Polychaeta, Nereididae) was analyzed after exposure to H(2)O(2). Because this species secretes conspicuous amounts of mucus, its capability in degrading H(2)O(2) was studied. The results suggest that L. acuta deal with the generation of oxidative stress with different strategies along the body. In the posterior region, higher CAT and SOD activities ensure the degradation of inductors of lipid peroxidation such as H(2)O(2) and superoxide anion (O(2)(.-)). The higher GST activity in anterior region aids to conjugate lipid peroxides products. In the middle region, the lack of high CAT, SOD, or GST activities correlates with the higher lipid hydroperoxide levels found after H(2)O(2) exposure. Ten days of exposure to H(2)O(2) also induced oxidative stress (lipid peroxidation and DNA damage) in the whole animal paralleled by a lack of CAT induction. The mucus production contributes substantially to H(2)O(2) degradation, suggesting that bacteria that grow in this secretion provide this capability.

Published

2005

131. Origin and properties of cytoplasmic and mitochondrial isoforms of taurocyamine kinase.

Author

Uda K, Saishoji N, Ichinari S, Ellington WR, and Suzuki T

Subjects

Amino Acid Sequence, Animals, Catalysis, Creatine Kinase chemistry, Creatine Kinase metabolism, Evolution, Molecular, Humans, Models, Molecular, Molecular Sequence Data, Phosphotransferases (Nitrogenous Group Acceptor) chemistry, Phosphotransferases (Nitrogenous Group Acceptor) genetics, Phylogeny, Polychaeta genetics, Protein Isoforms chemistry, Protein Isoforms genetics, Protein Isoforms metabolism, Protein Structure, Tertiary, Sequence Alignment, Cytoplasm enzymology, Mitochondria enzymology, Phosphotransferases (Nitrogenous Group Acceptor) metabolism, Polychaeta enzymology

Abstract

Taurocyamine kinase (TK) is a member of the highly conserved family of phosphagen kinases that includes creatine kinase (CK) and arginine kinase. TK is found only in certain marine annelids. In this study we used PCR to amplify two cDNAs coding for TKs from the polychaete Arenicola brasiliensis, cloned these cDNAs into the pMAL plasmid and expressed the TKs as fusion proteins with the maltose-binding protein. These are the first TK cDNA and deduced amino acid sequences to be reported. One of the two cDNA-derived amino acid sequences of TKs shows a high amino acid identity to lombricine kinase, another phosphagen kinase unique to annelids, and appears to be a cytoplasmic isoform. The other sequence appears to be a mitochondrial isoform; it has a long N-terminal extension that was judged to be a mitochondrial targeting peptide by several on-line programs and shows a higher similarity in amino acid sequence to mitochondrial creatine kinases from both vertebrates and invertebrates. The recombinant cytoplasmic TK showed activity for the substrates taurocyamine and lombricine (9% of that of taurocyamine). However, the mitochondrial TK showed activity for taurocyamine, lombricine (30% of that of taurocyamine) and glycocyamine (7% of that of taurocyamine). Neither TK catalyzed the phosphorylation of creatine. Comparison of the deduced amino acid sequences of mitochondrial CK and TK indicated that several key residues required for CK activity are lacking in the mitochondrial TK sequence. Homology models for both cytoplasmic and mitochondrial TK, constructed using CK templates, provided some insight into the structural correlation of differences in substrate specificity between the two TKs. A phylogenetic analysis using amino acid sequences from a broad spectrum of phosphagen kinases showed that annelid-specific phosphagen kinases (lombricine kinase, glycocyamine kinase and cytoplasmic and mitochondrial TKs) are grouped in one cluster, and form a sister-group with CK sequences from vertebrate and invertebrate groups. It appears that the annelid-specific phosphagen kinases, including cytoplasmic and mitochondrial TKs, evolved from a CK-like ancestor(s) early in the divergence of the protostome metazoans. Furthermore, our results suggest that the cytoplasmic and mitochondrial isoforms of TK evolved independently.

Published

2005

132. Antioxidant enzymes and tissue regeneration in Eurythoe complanata (Polychaeta: Amphinomidae) exposed to used vehicle crankcase oil.

Author

Nusetti O, Zapata-Vívenes E, Esclapés MM, and Rojas A

Subjects

Animals, Catalase biosynthesis, Glutathione Peroxidase metabolism, Glutathione Reductase biosynthesis, Glutathione Transferase biosynthesis, Petroleum analysis, Polychaeta enzymology, Regeneration, Solubility, Motor Vehicles, Petroleum toxicity, Polychaeta physiology

Abstract

Polychaetes, Eurythoe complanata, from the Gulf of Cariaco,Venezuela, were exposed to 0.3, 1.6, and 3.3% water-soluble fraction (WSF) of used crankcase oil during 15 and 21 days. The antioxidant enzymes glutathione peroxidase (GPX), glutathione reductase (GR), catalase (CAT), and glutathione-S-transferase (GST) were assayed in the body wall tissue. Furthermore, after chemical exposure, the polychaetes were cut into equal halves; then wound healing and the number of regenerated body segments were recorded periodically. GST activity was affected by all the experimental treatments, with activity increasing with WSF concentrations. GPx activity was altered for the contamination period. GR and CAT activities rose in response to increasing WSF concentrations, and were higher for long-term than for short-term exposures. The wound healing of the transected body regions was retarded by WSF exposure. WSF affected the tissue regeneration, which was almost abolished at 3.3% WSF. The exposure period did not affect the tissue-repairing responses. Alteration of GST in contaminated organisms suggested equivalent changes in detoxication of bioaccumulated organic contaminants. The variation of GR and CAT suggests induction of oxidative stress that could reduce the ability of WSF-exposed worms to repair damaged tissue.

Published

2005

133. The amino acid sequence of tauropine dehydrogenase from the polychaete Arabella iricolor.

Author

Kan-no N, Endo N, Moriyama S, Nagahisa E, and Sato M

Subjects

Amino Acid Sequence, Animals, Isoenzymes chemistry, Molecular Sequence Data, Peptides chemistry, Sequence Analysis, Protein, Sequence Homology, Amino Acid, Amino Acid Oxidoreductases chemistry, Polychaeta enzymology

Abstract

The amino acid sequence of tauropine dehydrogenase (EC 1.5.1.23) from the polychaete Arabella iricolor was determined by automated sequencing of fragments obtained by cleavage with lysyl endopeptidase, endoproteinase Glu-C, and cyanogen bromide. The purified enzyme contained two isoforms that differ only in the 41st amino acid residue (Thr or Ile). Although the sequence contained eight Cys residues, intrachain disulfide bonds were not found. Two possible N-linked glycosylation sites occur in the sequences, but the enzyme does not appear to contain bound carbohydrates. Based on these data, the two isoforms of Arabella tauropine dehydrogenase are simple proteins consisted of 396 amino acid residues with calculated molecular masses of 43,085.7 Da (Thr41 isoform) and 43,097.8 Da (Ile41 isoform).

Published

2005

134. Isolation, characterization, and cDNA-derived amino acid sequence of glycocyamine kinase from the tropical marine worm Namalycastis sp.

Author

Mizuta C, Tanaka K, and Suzuki T

Subjects

Amino Acid Sequence, Animals, Cloning, Molecular, Creatine Kinase chemistry, Creatine Kinase genetics, Creatine Kinase isolation & purification, DNA, Complementary genetics, Escherichia coli enzymology, Escherichia coli genetics, Molecular Sequence Data, Phosphotransferases (Nitrogenous Group Acceptor) genetics, Phosphotransferases (Nitrogenous Group Acceptor) isolation & purification, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Phosphotransferases (Nitrogenous Group Acceptor) chemistry, Polychaeta enzymology

Abstract

We isolated cytoplasmic glycocyamine kinase (GK) and creatine kinase (CK) from the tropical marine worm Namalycastis sp. by ammonium sulfate fractionation, gel filtration on Sephacryl S-200, and DEAE-5PW chromatography. Sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) showed that the isolated GK is highly purified and appears to be a heterodimer of two distinct subunits, alpha and beta, with molecular masses of approximately 40 kDa. The complete nucleotide sequences of the cDNAs for Namalycastis GKalpha and GKbeta were 1527 (encoding 374 amino acids) and 1579 bp (encoding 390 amino acids), respectively. The predicted amino acid sequences differ only in the N-terminal 50 residues. This is consistent with the characteristics of Neanthes GKalpha and GKbeta chains, which we have previously shown to be generated by alternative splicing. The recombinant enzymes GKalpha, GKbeta, and CK from Namalycastis were successfully expressed in Escherichia coli as maltose-binding protein fusion proteins. In contrast to the stable GKbeta enzyme, GKalpha was quite unstable, and its activity decreased remarkably with time. Thus, the N-terminal 50 residues appear to play a key role in enzyme stability. The kinetic parameters for the native GK heterodimer were similar to GKbeta, suggesting that GKalpha would have an activity similar to GKbeta if part of a heterodimer. This is the first report of precise kinetic parameters for GK. Finally, based on our results, we present a model for pluriphosphagen function in Namalycastis wherein cytoplasmic GK and CK and mitochondrial CK function together with phosphocreatine and phosphoglycocyamine to enable cells to respond quickly to a sudden large energy requirement.

Published

2005

135. Identification and expression of two novel cytochrome P450 genes, belonging to CYP4 and a new CYP331 family, in the polychaete Capitella capitata sp.I.

Author

Li B, Bisgaard HC, and Forbes VE

Subjects

Amino Acid Sequence, Animals, Base Sequence, Conserved Sequence, Cytochrome P-450 Enzyme System chemistry, Cytochrome P-450 Enzyme System metabolism, DNA, Complementary genetics, Gene Expression drug effects, Heme metabolism, Isoenzymes, Molecular Sequence Data, Phylogeny, Polychaeta genetics, Polychaeta metabolism, Polycyclic Aromatic Hydrocarbons metabolism, Polycyclic Aromatic Hydrocarbons pharmacology, Protein Binding, Protein Structure, Tertiary, RNA, Messenger biosynthesis, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sequence Alignment, Cytochrome P-450 Enzyme System biosynthesis, Cytochrome P-450 Enzyme System genetics, Polychaeta enzymology

Abstract

The polychaete Capitella capitata sp.I has a high capacity to metabolize polycyclic aromatic hydrocarbons (PAHs) which are among the most hazardous environmental pollutants with significant biological effects. In the present study, two novel cytochrome P450 (CYP) genes were identified in this species. One was named CYP331A1, the first member of a new family of CYP331, and the other CYP4AT1 is the first member of a new subfamily CYP4AT. Both of these genes are constitutively expressed in the worms and detectable by RT-PCR. The expression of CYP331A1 mRNA was observed to be more sensitive to PAH exposure than CYP4AT1, which indicated that CYP331A1 should play a more important role than CYP4AT1 in PAH metabolism in this species. Considering the importance of C. capitata sp.I in taking up PAH and other organic pollutants from contaminated marine sediments with the potential for subsequent food-chain transfer, our results are important for understanding the molecular basis of biotransformation and detoxification in this invertebrate, and also have evolutionary significance for understanding the diversity and history of the CYP superfamily.

Published

2004

136. Amphitrite ornata dehaloperoxidase: enhanced activity for the catalytically active globin using MCPBA.

Author

Osborne RL, Taylor LO, Han KP, Ely B, and Dawson JH

Subjects

Animals, Catalysis, Peroxidases chemistry, Spectrophotometry, Ultraviolet, Chlorobenzoates chemistry, Globins metabolism, Peroxidases metabolism, Polychaeta enzymology

Abstract

Dehaloperoxidase (DHP) from Amphitrite ornata is the only heme-containing, hydrogen peroxide-dependent globin capable of oxidatively dehalogenating halophenols to yield the corresponding quinones. To ascertain that this enzymatic activity is intrinsic to DHP, we have cloned and expressed the enzyme in Escherichia coli. We also find that an alternate oxygen atom donor, meta-chloroperbenzoic acid, gives appreciably higher activity than hydrogen peroxide. Under optimal turnover conditions (large peroxide/peracid excess), after an initial burst of activity, DHP appears to become trapped in a non-catalytic state (possibly Compound II) and is unable to fully convert all halophenol to product. However, full substrate conversion can be achieved under more physiological conditions involving a much smaller excess of oxygen atom donor. Parallel studies have been carried out using horseradish peroxidase and myoglobin to calibrate the activity of DHP versus typical peroxidase and globin proteins, respectively.

Published

2004

137. Thermal selection of PGM allozymes in newly founded populations of the thermotolerant vent polychaete Alvinella pompejana.

Author

Piccino P, Viard F, Sarradin PM, Le Bris N, Le Guen D, and Jollivet D

Subjects

Animals, Electrophoresis, Starch Gel, Gene Frequency, Genetics, Population, Genotype, Geography, Isoenzymes, Kinetics, Models, Biological, Pacific Ocean, Species Specificity, Biological Evolution, Hot Temperature, Phosphoglucomutase metabolism, Polychaeta enzymology, Selection, Genetic

Abstract

Alvinella pompejana lives on the top of chimneys at deep-sea hydrothermal vents of the East Pacific Rise. It is thought to be one of the most thermotolerant and eurythermal metazoans. Our experimental approach combines methods of population genetics and biochemistry, considering temperature as a potential selective factor. Phosphoglucomutase (Pgm-1 locus) is one of the most polymorphic loci of A. pompejana and exhibits four alleles, from which alleles 90 and 100 dominate with frequencies of approximately 0.5 in populations. Results from previous studies suggested that allele 90 might be more thermostable than allele 100. Significant genetic differentiation was found by comparing contrasted microhabitats, especially the young, still hot, versus older and colder chimneys, with allele 90 being at highest frequency on young chimneys. Moreover the frequency of allele 90 was positively correlated with mean temperature at the opening of Alvinella tubes. In parallel, thermostability and thermal optimum experiments demonstrated that allele 90 is more thermostable and more active at higher temperatures than allele 100. This dataset supports an additive model of diversifying selection in which allele 90 is favoured on young hot chimneys but counterbalanced over the whole metapopulation by the dynamics of the vent ecosystem.

Published

2004

138. Regulation of cleavage by protein kinase C in Chaetopterus.

Author

Yang D, Hinton SD, and Eckberg WR

Subjects

Animals, Cell Division physiology, Immunoblotting, Isoenzymes metabolism, Polychaeta enzymology, Protein Kinase C analysis, Protein Transport physiology, Time Factors, Cleavage Stage, Ovum enzymology, Polychaeta embryology, Protein Kinase C physiology

Abstract

We report that protein kinase C (PKC) plays a regulatory role in early cleavage in Chaetopterus eggs. Using Western blotting, we assayed the expression patterns of conventional PKCs (cPKC), novel PKCs (nPKC), and atypical PKCs (aPKC). During early development after fertilization, PKC protein levels varied independently by isoform. PKC protein expression during differentiation, without cleavage and after parthenogenetic activation, was very similar to that during normal development indicating that PKC gene expression does not require cellularization. Since PKC has been shown to regulate meiosis in this organism, we also assayed the membrane association of these isoforms as an indicator of their activation during meiosis and early cleavage. PKC-gamma transiently associated with membranes and therefore became activated before meiotic division and cleavage, whereas PKC-alpha and -beta transiently dissociated from membranes and therefore became inactivated at these times. Inhibition of these PKC isoforms by bisindolylmaleimide I had no effect on cleavage or early development to the trochophore larva, indicating that PKC-gamma activation is not essential for cleavage or early development. However, their persistent activation by thymeleatoxin blocked cleavage. The results indicate that the dissociation of PKC-alpha and/or -beta from the membrane fraction, and therefore their inactivation, is essential for normal cleavage. Elevated PKC activity is essential for nuclear envelope breakdown and spindle formation at meiosis I. By contrast, down-regulation of this activity is essential for cleavage after fertilization.

Published

2004

139. Oxidative stress in Laeonereis acuta (Polychaeta, Nereididae): environmental and seasonal effects.

Author

Geracitano LA, Monserrat JM, and Bianchini A

Subjects

Analysis of Variance, Animals, Biomarkers, Brazil, Catalase biosynthesis, Enzyme Induction drug effects, Glutathione Transferase biosynthesis, Lipid Peroxidation drug effects, Metallothionein biosynthesis, Seawater, Spectrophotometry, Superoxide Dismutase biosynthesis, Environmental Exposure, Oxidative Stress drug effects, Polychaeta enzymology, Seasons, Water Pollutants, Chemical toxicity

Abstract

Laeonereis acuta was seasonally collected in an industrially polluted site (P) and in an unpolluted site (UP) at the Patos Lagoon estuary (southern Brazil). Glutathione S-transferase (GST), superoxide dismutase (SOD) and catalase (CAT) activity (U/mg protein) was determined in five groups of worms from each site. Metallothionein (MT - mol GSH/g ww) and lipid peroxides content (LPO - nmoles of cumene hydroperoxide/g ww) were also measured. Annual mean values for CAT (UP=3.7+/-0.3; P=5.7+/-0.6), GST (UP=0.034+/-0.003; P=0.045+/-0.004) and MT (UP=0.15+/-0.02; P=0.23+/-0.03) were higher (p<0.05) in worms from the P site. In autumn, CAT activity was higher (p<0.05) in worms from the P site (7.6 +/- 1.3) than in those from the UP site (3.6 +/- 0.4). In summer, MT concentration was higher in worms from the P site (0.37 +/- 0.03) than in those from the UP site (0.19 +/- 0.01). No significant difference (p>0.05) in the LPO content was observed in worms from the different sites or collected in different seasons. These results indicate that worms from the polluted site showed higher antioxidant responses than those from the unpolluted site, sufficient to prevent oxidative damage in terms of LPO.

Published

2004

140. Biomarker responses to pollution in two invertebrate species: Scrobicularia plana and Nereis diversicolor from the Cádiz bay (SW Spain).

Author

Pérez E, Blasco J, and Solé M

Subjects

Acetylcholinesterase metabolism, Animals, Biomarkers chemistry, Catalase metabolism, Cytochrome P-450 CYP1A1 metabolism, Geography, Glutathione Peroxidase metabolism, Glutathione Transferase metabolism, Metallothionein metabolism, NAD(P)H Dehydrogenase (Quinone) metabolism, Seawater, Spain, Bivalvia enzymology, Environmental Exposure, Environmental Monitoring, Polychaeta enzymology

Abstract

The clam Scrobicularia plana and the polychaete worm Nereis diversicolor were collected in several sites from a littoral enclosure in SW Spain. The aim of our study was to relate various biomarker responses in these species to a pollution gradient caused by untreated domestic discharges and to verify the adequacy of the selected species as sentinels in this habitat. The biomarkers selected were the antioxidant enzymes catalase (CAT), glutathione peroxidase (GPX) and DT-diaphorase (DT-D). In addition, the activities of cytochrome P450-dependent ethoxyresorufin O-deethylase (EROD) activity, the phase II detoxifying enzyme glutathione S-transferase (GST) and the neurotoxicity marker acetylcholinesterase (AChE) were measured. Metallothionein levels were selected as biomarkers of heavy metals exposure in both species. The results suggest a different response in the water filtering organism (clam) and the sediment eater (polychaete), probably as a consequent of different pollution exposure and that samples from the "Caño Sancti-Petri" were exposed to biologically active compounds that altered some of their biochemical responses. AChE was the most sensitive biomarker in both species and N. diversicolor proved to be a more robust sentinel in this ecosystem.

Published

2004

141. Alternative splicing produces transcripts coding for alpha and beta chains of a hetero-dimeric phosphagen kinase.

Author

Ellington WR, Yamashita D, and Suzuki T

Subjects

Animals, Base Sequence, DNA chemistry, DNA genetics, DNA, Complementary chemistry, DNA, Complementary genetics, Dimerization, Escherichia coli genetics, Gene Expression Regulation, Enzymologic, Isoenzymes chemistry, Isoenzymes genetics, Isoenzymes isolation & purification, Molecular Sequence Data, Phosphotransferases (Nitrogenous Group Acceptor) chemistry, Phosphotransferases (Nitrogenous Group Acceptor) isolation & purification, Polychaeta enzymology, Protein Subunits chemistry, Protein Subunits genetics, Sequence Alignment, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Sequence Homology, Nucleic Acid, Transcription, Genetic genetics, Alternative Splicing, Phosphotransferases (Nitrogenous Group Acceptor) genetics, Polychaeta genetics

Abstract

Glycocyamine kinase (GK) catalyzes the reversible phosphorylation of glycocyamine (guanidinoacetate), a reaction central to cellular energy homeostasis in certain animals. GK is a member of the phosphagen kinase enzyme family and appears to have evolved from creatine kinase (CK) early in the evolution of multi-cellular animals. Prior work has shown that GK from the polychaete Neanthes (Nereis) diversicolor exits as a hetero-dimer in vivo and that the two polypeptide chains (termed alpha and beta) are coded for by unique transcripts. In the present study, we demonstrate that the GK from a congener Nereis virens is also hetero-dimeric and is coded for by alpha and beta transcripts, which are virtually identical to the corresponding forms in N. diversicolor. The GK gene from N. diversicolor was amplified by PCR. Sequencing of the PCR products showed that the alpha and beta chains are the result of alternative splicing of the GK primary mRNA transcript. These results also strongly suggest that this gene underwent an early tandem exon duplication event. Full-length cDNAs for N. virens GKalpha and GKbeta were individually ligated into expression vectors and the resulting constructs used to transform Escherichia coli expression hosts. Regardless of expression conditions, minimal GK activity was observed in both GKalpha and GKbeta constructs. Inclusion bodies for both were harvested, unfolded in urea and alpha chains, beta chains and mixtures of alpha and beta chains were refolded by sequential dialysis. Only modest amounts of GK activity were observed when alpha and beta were refolded individually. In contrast, when refolded the alpha and beta mixture yielded highly active hetero-dimers, as validated by size exclusion chromatography, electrophoresis and mass spectrometry, with a specific activity comparable to that of natural GK. The above evidence suggests that there is a preference for hetero-dimer formation in the GKs from these two polychaetes. The evolution of the alternate splicing and an additional exon in these GKs, producing alpha and beta transcripts, can be viewed as a possible compensation for a mutation(s) in the original gene, which most likely coded for a homo-dimeric protein.

Published

2004

142. Cloning and expression of mitochondrial and protoflagellar creatine kinases from a marine sponge: implications for the origin of intracellular energy transport systems.

Author

Sona S, Suzuki T, and Ellington WR

Subjects

Amino Acid Sequence, Animals, Biological Transport, Ciona intestinalis enzymology, Cloning, Molecular, Creatine Kinase chemistry, Dimerization, Energy Metabolism, Escherichia coli metabolism, Isoenzymes, Mice, Molecular Sequence Data, Phylogeny, Polychaeta enzymology, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Recombinant Proteins genetics, Sequence Alignment, Sequence Homology, Amino Acid, Creatine Kinase biosynthesis, Creatine Kinase genetics, Cytoplasm enzymology, Mitochondria enzymology, Porifera enzymology

Abstract

Creatine kinase (CK) plays a central role in energy transactions in cells displaying high and variable rates of ATP turnover. Cytoplasmic and mitochondrial CK genes code for isoforms which are targeted to distinct intracellular compartments often in close physical proximity to sites of ATP hydrolysis or synthesis. In certain lower groups a third CK gene is present which codes for a flagellar CK isoform consisting of three complete, fused CK domains. Recent work has shown that cytoplasmic, mitochondrial, and flagellar CKs are present in protochordates and in deuterostome and protostome invertebrates. We report here that the marine sponge Tethya aurantia, a representative of the oldest of all multi-cellular animal groups, expresses three unique CK transcripts. One of these CK transcripts codes for protein that has a mitochondrial targeting sequence and in a phylogenetic analysis is positioned at the base of the cluster containing mitochondrial CK sequences from invertebrates, protochordates, and vertebrates; it is clearly a mitochondrial CK. When expressed in Escherichia coli the mitochondrial form from T. aurantia was found to be dimeric unlike all other mitochondrial CKs which are typically octameric. The other two T. aurantia transcripts code for proteins that appear to be more closely related to flagellar CKs. These protoflagellar CKs were found to be dimers when expressed in Escherichia coli. Sponges last shared a common ancestor with higher animals as long as one billion years ago. The antiquity of intracellular localization, as evidenced by the presence of a true mitochondrial CK and protoflagellar CKs in the sponge T. aurantia, indicates that physical constraints on cellular energy transport were key, early driving forces in the evolution of this key enzyme system.

Published

2004

143. Identification of two Nereis virens (Annelida: Polychaeta) cytochromes P450 and induction by xenobiotics.

Author

Rewitz KF, Kjellerup C, Jørgensen A, Petersen C, and Andersen O

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cytochrome P-450 Enzyme System biosynthesis, Cytochrome P-450 Enzyme System genetics, DNA, Complementary chemistry, Enzyme Induction, Molecular Sequence Data, Phylogeny, Cytochrome P-450 Enzyme System isolation & purification, Polychaeta enzymology, Xenobiotics pharmacology

Abstract

Cytochrome P450 (CYP) enzyme catalysed metabolism of xenobiotics such as polycyclic aromatic hydrocarbons (PAHs) are known to occur in polychaetes. Yet specific polychaete CYP enzymes have so far not been identified. Here, we report two partial CYP cDNA sequences, both of 453 bp, characterised from Nereis virens. These are the first CYP sequences reported in annelids. The deduced amino acid sequences both share highest identities to mammalian CYP4F enzymes (61% and 58%), indicating membership of the CYP4 family (accordingly, referred to as CYP41 and CYP42, respectively). The CYP42 gene expression was significantly higher in vehicle controls (corn oil) compared to untreated controls. Clofibrate increased the expression of the CYP42 genes. The induction by clofibrate and corn oil indicates regulatory similarities to vertebrate CYP4 enzymes, which are primarily involved in the metabolism of endogenous compounds such as fatty acids. Crude oil and benz(a)anthracene significantly induced CYP42 gene expression 2.6-fold, and because CYP enzymes often are induced by their own substrates, this induction may indicate involvement of N. virens CYP4 enzymes in the detoxification of environmental contaminants such as PAHs. The present study demonstrates that these N. virens CYP genes are transcriptionally inducible, and suggests that N. virens CYP4 enzymes may be involved in the metabolism of both exogenous and endogenous compounds.

Published

2004

144. Unusual isozyme patterns of glucose-6-phosphate isomerase in Polydora brevipalpa (Polychaeta: Spionidae).

Author

Manchenko GP

Subjects

Animals, Female, Male, Glucose-6-Phosphate Isomerase analysis, Isoenzymes analysis, Polychaeta enzymology

Published

2001

145. Metabolism of the polycyclic aromatic hydrocarbon fluoranthene by the polychaete Capitella capitata species I.

Author

Forbes VE, Andreassen MS, and Christensen L

Subjects

Animals, Cytochrome P-450 Enzyme System metabolism, Polychaeta enzymology, Fluorenes metabolism, Polychaeta metabolism

Abstract

Previous studies have shown that infaunal deposit feeders may enhance the loss of organic contaminants from sediments. However, the extent to which this occurs as a result of sediment microbial stimulation, porewater flushing, or biotransformation by infauna remains unclear. The purpose of this study was to determine whether the infaunal polychaete Capitella sp. I is able to metabolize the polycyclic aromatic hydrocarbon (PAH) fluoranthene and to provide an initial characterization of the metabolites produced. Our results showed that Capitella sp. I is able to metabolize fluoranthene to more hydrophilic products and that, after 24 h in clean sediment, fluoranthene could no longer be detected in worm tissues whereas a number of fluoranthene-derived metabolites were present. None of the metabolites released or retained by worms resembled known bacterial metabolites, suggesting that Capitella, and not bacteria associated with its gut or body surface, were responsible for the biotransformation of fluoranthene in our system. On the basis of ultraviolet maxima, peak shape, relative height, and order of elution, tentative identities of two metabolites (i.e., 3- and 8-hydroxyfluoranthene) are proposed. The results demonstrate that, in addition to their effects on sediment geochemical properties, infaunal polychaetes such as Capitella can enhance the degradation of sediment-associated contaminants by directly metabolizing them.

Published

2001

146. Organization of the gene for an invertebrate mitochondrial creatine kinase: comparisons with genes of higher forms and correlation of exon boundaries with functional domains.

Author

Pineda AO Jr and Ellington WR

Subjects

Amino Acid Sequence, Animals, Base Sequence, DNA chemistry, DNA genetics, Exons, Introns, Molecular Sequence Data, Polychaeta enzymology, Sequence Analysis, DNA, Creatine Kinase genetics, Genes genetics, Mitochondria enzymology, Polychaeta genetics

Abstract

Two major gene duplication events are thought to have taken place in the evolution of creatine kinases (CK) in the vertebrates - (1) the formation of distinct mitochondrial (MiCK) and cytoplasmic forms from the primordial gene and (2) subsequent formation of the sarcomeric (sar-) and ubiquitous (ubi-) isoforms of octameric MiCK and muscle (M) and brain (B) isoforms of dimeric, cytoplasmic CK. The genes of these two CK clades reflect a distant divergence as sar- and ubiMiCK genes consistently have nine protein-coding exons while M- and B-CK genes have seven protein-coding exons; these genes share only one common exon. CKs are also widely distributed in the invertebrates and it has recently been shown that MiCKs evolved well before the divergence of the major metazoan groups. In the present communication, we report the structure and topology of the gene for MiCK from the protostome marine worm Chaetopterus variopedatus. The protein-coding region of the gene for this primitive MiCK spans over 10 kb and consists of eight exons, the last five (E4-E8) have identical boundaries to the corresponding exons of sar- and ubiMiCK genes. Exon-3 of the C. variopedatus MiCK gene consists of the corresponding E3 and E4 of the vertebrate MiCKs with no intervening intron. E1 is longer and E2 is shorter in the polychaete MiCK gene than the counterpart sarcomeric and ubiquitous genes. The insertion of the intron in C. variopedatus E3 creating the two exons as well as the rearrangement of the intron between E1 and E2 must have occurred prior to or coincident with the duplication event creating the two vertebrate mitochondrial isoforms. Sarcomeric and ubiMiCKs display substantial differences from their invertebrate MiCK counterparts in properties relating to octamer stability and membrane binding. The evolutionary changes in gene topology may be a component of this functional progression.

Published

2001

147. Some molecular and inhibitory specifications of a dipeptidyl carboxypeptidase from the polychaete Neanthes virens resembling angiotensin I converting enzyme.

Author

Kawamura T, Kikuno K, Oda T, and Muramatsu T

Subjects

Amino Acid Sequence, Animals, Circular Dichroism, Molecular Sequence Data, Peptide Mapping, Protease Inhibitors pharmacology, Sequence Homology, Amino Acid, Spectrophotometry, Ultraviolet, Endopeptidases metabolism, Peptidyl-Dipeptidase A chemistry, Polychaeta enzymology

Abstract

Dipeptidyl carboxypeptidase (DCP) from the polychaete Neanthes virens, resembling mammalian angiotensin I converting enzyme (ACE), was studied to discover some of its molecular and inhibitory properties, as the first evidence of these in a marine invertebrate. Amino acid and carbohydrate contents were analyzed. The N-terminal amino acid sequence of N. virens DCP was (NH2)D-E-E-A-G-R-Q-W-L-A-E-Y-D-L-R-N-Q-T-V-L-. Peptide maps of N. virens DCP from lysyl endopeptidase digestion were different from rabbit p-ACE. The far-ultraviolet circular dichroic spectra of N. virens DCP indicated that the secondary structure of this enzyme seemed to be an alpha-helical structure and was similar to that of rabbit p-ACE, but the near-ultraviolet circular dichroic spectra of N. virens DCP indicated that the aromatic amino acid residue circumambience of this enzyme was different from rabbit p-ACE. The effects of several reagents for chemical modification of amino acids on the activity of N. virens DCP were tested. Arg, Tyr, Glu, and/or Asp, His, Trp, and Met caused loss of the activity. In addition, the IC50 and Ki values for a well-known ACE inhibitor, Val-Tyr, which was a competitive inhibitor of N. virens DCP, were 263 and 20 microM, respectively. These results suggested that N. virens DCP is different from mammalian ACE in the molecular and inhibitory properties, although the same substrate specificity was demonstrated in a previous paper.

Published

2000

148. The crystal structure and amino acid sequence of dehaloperoxidase from Amphitrite ornata indicate common ancestry with globins.

Author

LaCount MW, Zhang E, Chen YP, Han K, Whitton MM, Lincoln DE, Woodin SA, and Lebioda L

Subjects

Amino Acid Sequence, Animals, Cloning, Molecular, Crystallography, X-Ray, Hemoglobins, Molecular Sequence Data, Peroxidases genetics, Protein Conformation, Sequence Homology, Amino Acid, Peroxidases chemistry, Polychaeta enzymology

Abstract

The full-length, protein coding sequence for dehaloperoxidase was obtained using a reverse genetic approach and a cDNA library from marine worm Amphitrite ornata. The crystal structure of the dehaloperoxidase (DHP) was determined by the multiple isomorphous replacement method and was refined at 1.8-A resolution. The enzyme fold is that of the globin family and, together with the amino acid sequence information, indicates that the enzyme evolved from an ancient oxygen carrier. The peroxidase activity of DHP arose mainly through changes in the positions of the proximal and distal histidines relative to those seen in globins. The structure of a complex of DHP with 4-iodophenol is also reported, and it shows that in contrast to larger heme peroxidases DHP binds organic substrates in the distal cavity. The binding is facilitated by the histidine swinging in and out of the cavity. The modeled position of the oxygen atom bound to the heme suggests that the enzymatic reaction proceeds via direct attack of the oxygen atom on the carbon atom bound to the halogen atom.

Published

2000

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

Author

Kawamura T, Oda T, and Muramatsu T

Subjects

Animals, Catalysis, Cations, Divalent, Endopeptidases classification, Endopeptidases isolation & purification, Hydrogen-Ion Concentration, Indicators and Reagents, Isoelectric Point, Metals, Molecular Weight, Peptidyl-Dipeptidase A classification, Peptidyl-Dipeptidase A isolation & purification, Substrate Specificity, Temperature, Endopeptidases metabolism, Peptidyl-Dipeptidase A metabolism, Polychaeta enzymology

Abstract

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.

Published

2000

150. Acetylcholinesterase activity of the polychaete Nereis diversicolor: effects of temperature and salinity.

Author

Scaps P and Borot O

Subjects

Animals, Ecosystem, Hydrogen-Ion Concentration, Time Factors, Acetylcholinesterase metabolism, Polychaeta enzymology, Sodium Chloride pharmacology, Temperature

Abstract

In order to estimate the potential use of the mean wholebody acetylcholinesterase (AChE) activity from the ragworm Nereis diversicolor for the biological assessment of pollution by anticholinesterase agents in estuarine areas, we measured the effects of the main abiotic factors (i.e. temperature and salinity) on AChE activity. We report here that AChE activity tends to decrease in individuals sampled in tanks at a salinity of 30 per thousand as temperature increases. No tendencies in the evolution of AChE activity were observed in individuals sampled in tanks at a salinity of 15 per thousand. In contrast, salinity seems to have a greater effect on AChE activity than temperature. At a temperature of 12 degrees C, a salinity of 30 per thousand provokes a significant transient increase of AChE 2 days after the beginning of the maintenance period compared with a salinity of 15 per thousand. The effects are short-term stress effects. We noticed only a transient increase of AChE activity between 2 days for individuals maintained in tanks at temperature of 20 degrees C and salinity of 15 and 30 per thousand, respectively, and 8 days for individuals maintained in tanks at salinity of 30 per thousand and at a temperature of 12 degrees C after the beginning of the maintenance period, confirming the more pronounced effect of salinity over temperature.

Published

2000