Affinity purification of an interferon-induced human guanylate-binding protein and its characterization

Among the proteins that are synthesized only in interferon-treated human cells, a Mr = 67,000 protein has been previously identified by its binding to guanylate agaroses. After a 24-h treatment of human diploid fibroblasts with 200 units/ml of interferon-gamma, about 3 X 10(5) molecules of guanylate-binding protein (GBP) accumulate in each cell. We have developed a one-step purification procedures for GBP using guanylate affinity chromatography. To further elucidate the specific binding of this protein to guanylates, we have used a photoactive probe, 8-azidoguanosine [alpha 32P] triphosphate for the labeling of the GBP. Photolysis of the 8-azido-[alpha-32P]GTP in the presence of GBP results in the covalent attachment of the 32P-guanylate to the GBP. This photolabeling reaction can be inhibited only by guanylates but cannot be inhibited by other nucleotides, suggesting a specific association of GBP to guanylates. Using the purified GBP as an immunogen, we have successfully made rabbit antiserum for GBP. Both the GBP antigen and its guanylate-binding activity are detected only in the cytoplasm of interferon-treated human fibroblasts. The synthesis of the mRNA of GBP is also found in mice exposed to endogenous interferon and in interferon-treated human lymphocytes.     

Purification and characterization of an intracellular lipase from pleopods of whiteleg shrimp (Litopenaeus vannamei)

An intracellular lipase present in the whiteleg shrimp Litopenaeus vannamei was detected in pleopods. The lipase from pleopods was purified and characterized by biochemical and kinetic parameters. Purified intracellular lipase has a molecular mass of 196kDa, the polypeptide is assembled by two monomers, 95.26 and 63.36kDa. The enzyme lacks glycosylation, and it has an isoelectric point of 5.0. The enzyme showed the highest activity at a temperature range of 30-40°C at pH 8.0-10.0. Activity was completely inhibited by tetrahydrolipstatin and diethyl p-nitrophenyl phosphate, suggesting that the intracellular lipase is a serine lipase. The lipase hydrolyzes short and long-chain triacylglycerides, as well as naphthol derivatives at comparable rates in contrast to other sources of lipases. Specific activity of 930U mg(-1) and 416.56U mg(-1) was measured using triolein and tristearin at pH 8.0 at 30°C as substrates, respectively. The lipase showed a K(M,app) of 41.03mM and k(cat)/K(M,app) ratio of 4.88 using MUF-butyrate as the substrate. The intracellular lipase described for shrimp has a potential role in hydrolysis of triacylglycerides stored as fat body, as has been shown in humans.     

Adaptation of proteomic techniques for the identification and characterization of protein species from murine heart

Disturbed energy metabolism with impaired fatty acid oxidation, ATP synthesis and changing levels of contractile proteins has been observed during the development and manifestation of cardiovascular diseases, with the latter showing sexual differences in terms of onset, manifestation and progress. Estrogenic compounds, such as estrogens and phytoestrogens, are known to exert beneficial effects on several cardiovascular parameters. However, global studies implying the normal, non-failing myocardium are rare. Thus, identifying and characterizing protein patterns involved in the maintenance of normal heart physiology at the protein species level will help understanding disease conditions. In this study, we performed an adapted 2-DE/MS approach in order to identify and characterize post-translational modified and truncated protein species from murine heart. Female and male animals of different age were receiving the phytoestrogen genistein and comparative analyses were performed to identify sex and genistein treatment-related effects. Selected 2-DE spots that exposed varying abundance between animal groups and identified as identical proteins were subject to multi-protease cleavage to generate an elevated sequence coverage enabling characterization of post-translational modifications and truncation loci via high-resolution MS. Several truncated, phosphorylated and acetylated species were identified for mitochondrial ATP synthase, malate dehydrogenase and trifunctional enzyme subunit alpha. However, confirmation of several of these modifications by manual spectra interpretation failed. Thus, our results warrant caution for the blind trust in software output. For the regulatory light chain of myosin, we identified an N-terminal processed species, which so far has been related to ischemic conditions only. We tried to unravel the information content of protein species separated by high-resolution 2-DE as an alternative to high-throughput proteomics, which mainly is interested in lists of protein names, ignoring the protein species identity.     

A proteomic approach to the identification and characterisation of protein composition in wheat germ

Proteome analyses were carried out on commercial wheat germ of mature grain from the biscuit-making wheat cultivar, Rosella. Wheat germ protein extracts were fractionated by two-dimensional gel electrophoresis across two different immobilised pH gradients: pH 4.0–7.0 and 6.0–9.0. A total of 612 individual protein spots were excised from the gels and characterised by peptide mass fingerprinting. From these analyses, 347 individual proteins were identified from protein sequence database interrogation, and 301 different types of protein were catalogued according to protein function. The remaining 265 protein spots gave poor or no matches to proteins in the databases and were not identified in this study. Six different classes of enzymes were identified in the germ, many of them having roles in the mobilisation of energy reserves for germination. Abundantly expressed enzyme classes include the oxidoreductases, transferases and hydrolases. A comparison was also made between the major protein classes expressed in the germ and protein classes expressed in the endosperm from previous proteomic work. This study contributes significantly to our knowledge of protein expression and heterogeneity in the germ of wheat grain and forms the basis for future studies in regard to the characterisation of proteins during the initial stages of germination.     

Affinity modification in a proteomic study of DNA repair ensembles

The review concerns the use of the affinity modification method as an integral part of the modern proteomic analysis to search for and identification of proteins belonging to protein ensembles of DNA repair. Affinity modification is based on the preliminary formation of specific non-covalent complex between the target biopolymer and a reagent (chemically reactive analog of biopolymer or low molecular weight ligand) followed by formation of covalent bond between the reagent and the site of the target, to which the reagent is bound, that ensures the method specificity. This method is most widely and effectively used in the study of structural and functional aspects of protein-nucleic acids interactions. Upon construction of DNA probes, in addition to chemically reactive groups and structural elements involved in specific recognition of DNA by proteins, additional groups that facilitate the subsequent affinity isolation of DNA-protein cross-links, can be introduced into the reagent. The review covers recent examples affinity DNA-reactive probe in combination with mass spectrometric and immunological methods to search for and identification in cell extracts, proteins interacting with apurinic/apyrimidinic sites and the proteins recognizing the cross-links in DNA induced by cisplatin.     

Isolation and characterization of two pigment-dispersing hormones from the whiteleg shrimp, Litopenaeus vannamei

In crustaceans, the pigment-dispersing hormone (PDH) is released from the X-organ/sinus gland complex located in the eyestalks, and controls pigment dispersion in the chromatophores. Knowledge concerning the structure and activity of PDH in penaeid shrimps is remains limited, since natural PDH has been purified from only the Kuruma prawn, Marsupenaeus japonicus. In this study, two PDHs (Liv-PDH-A and -B) were purified from the sinus gland extracts of another penaeid species, the whiteleg shrimp, Litopenaeus vannamei, by two steps of reversed-phase HPLC, and their amino acid sequences were determined. They both consist of 18 amino acid residues, with a free N-terminus and an amidated C-terminus, the sequences of Liv-PDH-A and -B being NSELINSLLGIPKVMNDAamide and NSELINSLLGLPKVMNDAamide, respectively. These sequences are identical to those of mature PDHs deduced from cDNAs encoding L. vannamei PDH precursors cloned previously by other workers. Liv-PDH-A and -B showed significant pigment-dispersing activity in melanophores by in vivo bioassay.     

A proteomic approach for the identification of bismuth-binding proteins in Helicobacter pylori

Helicobacter pylori is a major human pathogen that can cause peptic ulcers and chronic gastritis. Bismuth-based triple or quadruple therapies are commonly recommended for the treatment of H. pylori infections. However, the molecular mechanisms underlying treatment with bismuth are currently not fully understood. We have conducted a detailed comparative proteomic analysis of H. pylori cells both before and after treatment with colloidal bismuth subcitrate (CBS). Eight proteins were found to be significantly upregulated or downregulated in the presence of CBS (20 μg mL⁻¹). Bismuth-induced oxidative stress was confirmed by detecting higher levels of lipid hydroperoxide (approximately 1.8 times) and hemin (approximately 3.4 times), in whole cell extracts of bismuth-treated H. pylori cells, compared with those from untreated cells. The presence of bismuth also led to an approximately eightfold decrease in cellular protease activities. Using immobilized-bismuth affinity chromatography, we isolated and subsequently identified seven bismuth-binding proteins from H. pylori cell extracts. The intracellular levels of four of these proteins (HspA, HspB, NapA and TsaA) were influenced by the addition of CBS, which strongly suggests that they interact directly with bismuth. The other bismuth-interacting proteins identified were two enzymes (fumarase and the urease subunit UreB), and a translational factor (Ef-Tu). Our data suggest that the inhibition of proteases, modulation of cellular oxidative stress and interference with nickel homeostasis may be key processes underlying the molecular mechanism of bismuth’s actions against H. pylori. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Isolation and characterization of microsatellite markers from Pacific white shrimp (Litopenaeus vannamei)

We report the development of 11 polymorphic microsatellite loci in pacific white shrimp (Litopenaeus vannamei) using an unenriched genomic library. The number of the alleles ranged from two to 18 and observed hererozygosity ranged from 0.0286 to 0.9429, indicating that these markers will be useful for population studies and mapping in pacific white shrimp. Seven loci were detected deviated from Hardy–Weinberg, caused by deficiency of heterozygote, suggesting population genetic structure across the sampled population. No evidence for linkage disequilibrium was found.     

A proteomic approach for identification and localization of the pericellular components of chondrocytes

Although the pericellular matrix (PCM) plays a central role in the communication between chondrocytes and extracellular matrix, its composition is largely unknown. In this study, the PCM was investigated with a proteomic approach using chondrons, which are enzymatically isolated constructs including the chondrocyte and its surrounding PCM. Chondrons and chondrocytes alone were isolated from human articular cartilage. Proteins extracted from chondrons and chondrocytes were used for two-dimensional electrophoresis. Protein spots were quantitatively compared between chondron and chondrocyte gels. Cellular proteins, which had similar density between chondron and chondrocyte gels, did not proceed for analysis. Since chondrons only differ from chondrocytes in association of the PCM, protein spots in the chondron gels that had higher quantity than that in the chondrocyte gels were selected as candidates of the PCM components and processed for mass spectrometry. Among 15 identified peptides, several were fragments of the three type VI collagen chains (α-1, α-2, and α-3). Other identified PCM proteins included triosephosphate isomerase, transforming growth factor-β induced protein, peroxiredoxin-4, ADAM (A disintegrin and metalloproteinases) 28, and latent-transforming growth factor beta-binding protein-2. These PCM components were verified with immunohisto(cyto)chemistry for localization in the PCM region of articular cartilage. The abundance of type VI collagen in the PCM emphasizes its importance to the microenvironment of chondrocytes. Several proteins were localized in the PCM of chondrocytes for the first time and that warrants further investigation for their functions in cartilage biology.     

Activation of an immune response in Litopenaeus vannamei by oral immunization with phagocytosis activating protein (PAP) DNA

The phagocytosis activating protein (PAP) gene has been reported to stimulate the phagocytic activity of shrimp hemocytes and to protect shrimp from several pathogens. In this study oral administration of the chitosan-PAP gene to shrimp was investigated for its ability to induce immunity. The PAP gene was cooperated into a phMGFP plasmid, named PAP-phMGFP. Chitosan-PAP-phMGFP nanoparticles were formed by mixing a low molecular weight chitosan (50 kDa) and a high molecular weight chitosan (150 kDa) with various ratios of PAP-phMGFP. The optimal ratio of chitosan PAP-phMGFP nanoparticles was first determined by transfection into Chinese Hamster Ovary (CHO) cells before being used for oral immunization in shrimp. The chitosan-PAP-phMGFP nanoparticles at a ratio of 2:1 with the low molecular weight chitosan were optimum for transfecting the CHO cells. The shrimp were then fed with 25, 50, 100 and 150 μg/shrimp/day of chitosan-PAP-phMGFP (2:1) nanoparticles then challenged by the white spot syndrome virus (WSSV). Shrimp fed with 50 μg of chitosan-PAP-phMGFP nanoparticles per day for 7 consecutive days, produced the highest relative percent survival (RPS) (94.45 ± 9.86%). The presence of PAP-phMGFP was detected in every shrimp tissue including the hemolymph, lymphoid organ, heart, hepatopancreas, intestine and muscle. The folds increase of the PAP gene expression increased significantly together with an increase of the phagocytic activity in the immunized shrimp. The stability of the PAP-phMGFP in the immunized shrimp hemolymph was detected by determination of the expression of the GFP at various days after immunization ceased. GFP expression was detected until the 15th day but not at the 30th day after immunization ceased. A quantitative analysis of the WSSV copies in shrimp heart tissue was significantly reduced in the immunized shrimp. In addition, chitosan-PAP-phMGFP nanoparticles protected shrimp against WSSV, Yellow head virus (YHV) and Vibrio harveyi with RPS values of 83.34 ± 7.86%, 55.56 ± 15.72% and 53.91 ± 5.52%, respectively. This study therefore confirms the role of the PAP gene in shrimp immunity and may lead to the development of a way to prevent microbial diseases of shrimp at an industrial level by appropriate feeding of a chitosan/DNA complex.     

A proteomic approach for the identification of cell-surface proteins shed by metalloproteases

Proteolytic cleavage (shedding) of extracellular domains of many membrane proteins by metalloproteases is an important regulatory mechanism used by mammalian cells in response to environmental and physiological changes. Here we describe a proteomic system for analyzing cell surface shedding. The method utilized short-term culture supernatants from induced cells as starting material, followed by lectin-affinity purification, deglycosylation, and polyacrylamide gel electrophoresis separation. Relative quantitation of proteins was achieved via isotope dilution. In this study, a number of proteins already known to be shed were identified from activated monocytes and endothelial cells, thereby validating the method. In addition, a group of proteins were newly identified as being shed. The method provides an unbiased means to screen for shed proteins.     

A proteomic approach to identification of plutonium-binding proteins in mammalian cells

Plutonium can enter the body through different routes and remains there for decades; however its specific biochemical interactions are poorly defined. We, for the first time, have studied plutonium-binding proteins using a metalloproteomic approach with rat PC12 cells. A combination of immobilized metal ion chromatography, 2D gel electrophoresis, and mass spectrometry was employed to analyze potential plutonium-binding proteins. Our results show that several proteins from PC12 cells show affinity towards Pu⁴⁺-NTA (plutonium bound to nitrilotriacetic acid). Proteins from seven different spots in the 2D gel were identified. In contrast to the previously known plutonium-binding proteins transferrin and ferritin, which bind ferric ions, most identified proteins in our experiment are known to bind calcium, magnesium, or divalent transition metal ions. The identified plutonium interacting proteins also have functional roles in downregulation of apoptosis and other pro-proliferative processes. MetaCore™ analysis based on this group of proteins produced a pathway with a statistically significant association with development of neoplastic diseases.     

Isolation,identification, and synthesis of a disulfated sulfakinin from the central nervous system of an arthropods the white shrimp Litopenaeus vannamei

Two myotropic peptides displaying tyrosyl sulfation have been isolated from an extract of central nervous systems (brain, suboesophageal ganglion, thoracic ganglia, and ventral nerve cord) of the white shrimp Litopenaeus vannamei. Both peptides were identified by mass spectrometry and belong to the sulfakinin family of neuropeptides, which are characterized by the C-terminal hexapeptide Y(SO(3)H)GHMRF-NH(2) preceded by two acidic amino acid residues. Pev-SK 1 (AGGSGGVGGEY(SO(3)H)DDY(SO(3)H)GH(L/I) RF-NH(2)) has two sulfated tyrosyl residues and a unique (L/I) for M substitution in the C-terminal sequence. Pev-SK 2 (pQFDEY(SO(3)H)GHMRF-NH(2)) fully complies with the typical sulfakinin core sequence and is blocked by a pyroglutamyl residue. Synthetic analogs (sulfated and unsulfated) were synthesized and the tyrosyl sulfations were confirmed by myotropic activity studies and co-elution with the native fractions. Pev-SK 1 is the first disulfated neuropeptide elucidated in the phylum of the arthropoda, with the only other reported disulfated neuropeptide, called cionin, found in a protochordate. The similarities in amino acid sequence and posttranslational modifications of the crustacean sulfakinins and protochordate cionin provide further evidence for the hypothesis stating that gastrin/CCK, cionin, and sulfakinins originate from a common ancestral gastrin/CCK-like peptide.     

凡纳滨对虾TCP-1-eta基因的克隆及与耐寒性状的相关性

为研究凡纳滨对虾耐寒性状的分子机理,文章克隆了凡纳滨对虾的耐寒相关基因TCP-1-eta并对其与耐寒性状的关系进行了研究。首先,根据电子克隆所得序列设计引物,采用RT-PCR方法克隆得到长1 705 bp的TCP-1-eta基因序列,其中包括1 629 bp的完整开放阅读框,编码542个氨基酸残基。然后,运用荧光定量PCR对TCP-1-eta基因进行时空表达谱的分析:(1)组织表达分析结果显示,该基因在凡纳滨对虾肌肉组织中表达量最高;(2)不同低温处理下的表达结果显示,该基因在15℃开始呈上调表达,13℃时表达量最高;(3)13℃低温处理的表达结果显示,该基因在36 h内呈小幅上调表达,但36 h后表达量显著升高,48 h表达量达到0 h的150倍。进一步采用PCR-RFLP方法对216只凡纳滨对虾TCP-1-eta基因进行了SNP多态性检测,并将其与耐寒性状进行了关联分析。在该基因编码区第731碱基上发现C/T突变,方差分析结果表明该位点的不同基因型与耐寒力指标CDH(Cooling-degree hours)值相关(P<0.05),其中CC基因型的耐寒能力比TT基因型强。     

Affinity electrophoresis for the identification and characterization of soluble sugar binding by carbohydrate-binding modules

Affinity electrophoresis was used to identify and quantify the interaction of carbohydrate-binding modules (CBMs) with soluble polysaccharides. Association constants determined by AE were in excellent agreement with values obtained by isothermal titration calorimetry and fluorescence titration. The method was adapted to the identification, study and characterization of mutant carbohydrate-binding modules with altered affinities and specificities. Competition affinity electrophoresis was used to monitor binding of small, soluble mono- and disaccharides to one of the modules.     

The cytochrome c oxidase and its mitochondrial function in the whiteleg shrimp Litopenaeus vannamei during hypoxia

Cytochrome c oxidase (COX), which is located in the inner membrane of mitochondria, is a key constituent of the electron transport chain that catalyzes the reduction of oxygen. The Pacific whiteleg shrimp Litopenaeus vannamei is constantly exposed to hypoxic conditions, which affects both the central metabolism and the mitochondrial function. The purpose of this study was to isolate shrimp mitochondria, identify the COX complex and to evaluate the effect of hypoxia on the shrimp mitochondrial function and in the COX activity. A 190 kDa protein was identified as COX by immunodetection techniques. The effect of hypoxia was confirmed by an increase in the shrimp plasma L-lactate concentration. COX activity, mitochondrial oxygen uptake and protein content were reduced under hypoxic conditions, and gradually restored as hypoxia continued, this suggests an adaptive mitochondrial response and a highly effective COX enzyme. Both mitochondrial oxygen uptake and COX activity were completely inhibited by KCN and sodium azide, suggesting that COX is the unique oxidase in L. vannamei mitochondria.     

Effect of ammonia on the immune response of white shrimp Litopenaeus vannamei and its susceptibility to Vibrio alginolyticus

Growth of Vibrio alginolyticus was not affected by TSB medium containing ammonia-N concentration in the range of 0-20 mg l(-1). White shrimp Litopenaeus vannamei (7-12 g in the intermolt stage) were challenged with V. alginolyticus, which had been incubated for 24 h in the TSB medium containing different concentrations of ammonia-N (0, 1, 5. 10 and 20 mg l(-1)). There was no significant difference in cumulative mortality for shrimp incubated in the TSB medium containing 0, 1, 5, 10 and 20 mg l(-1)ammonia-N after 120 h of challenge. The shrimps were challenged with V. alginolyticus previously incubated in the TSB medium for 24 h, then placed in water containing concentrations of ammonia-N at 0.01 mg l(-1)(control), 1.10, 5.24, 11.10 and 21.60 mg l(-1). Mortality of shrimp in 5.24, 11.10 and 21.60 mg l(-1)was significantly higher than those in the control solution (0.01 mg l(-1)) after 48-168 h. Shrimps which had been exposed to control, 1.10, 5.24, 11.10 and 21.60 mg l(-1)ammonia-N for 7 days were examined for THC (total haemocyte count), granular cells, hyaline cells, phenoloxidase activity, release of superoxide anion, superoxide dismutase (SOD) activity, phagocytic activity and clearance efficiency to V. alginolyticus. No significant difference in THC, hyaline cells and granular cells were observed among shrimps at different ammonia-N concentrations. Phenoloxidase activity however, decreased when the shrimps were exposed to 5.24 mg l(-1)ammonia-N and greater after 7 days. The release of superoxide anion increased significantly, whereas SOD activity decreased significantly at 21.60 mg l(-1)ammonia-N. With shrimps exposed to 11.21 and 21.22 mg l(-1)ammonia-N for 7 days, phagocytic activity and clearance efficiency to V. alginolyticus significantly decreased. It is therefore suggested that ammonia in water caused a depression in the immune response and an increase in mortality of L. vannamei from the V. alginolyticus infection.