Identification of potential vaccine target antigens by immunoproteomic analysis of a virulent and a non-virulent strain of the fish pathogen Flavobacterium psychrophilum

Flavobacterium psychrophilum is the etiological agent of bacterial coldwater disease (CWD) and rainbow trout fry syndrome (RTFS). To identify antigens associated with virulence or host immunity, we compared total and immunogenic proteins of cellular and extracellular products (ECP) between a virulent (CSF-259-93) and non-virulent (ATCC 49418) strain of F. psychrophilum. One-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis of total cellular proteins revealed only minor differences between the strains; however, separation of ECP showed that proteins were differentially expressed. Western blot analysis using rainbow trout (Oncorhynchus mykiss) anti-CSF-259-93 sera showed greater reactivity to proteins of the virulent strain, including many > 50 kDa. Further analysis by 2-dimensional electrophoresis (2DE) identified numerous differences between the strains. Western blot analysis combined with 2DE identified several immunogenic proteins that reacted with the antisera and were shared between the 2 strains. However, at least 15 immunogenic proteins appeared to be unique to the virulent strain, while 4 such proteins were identified in the non-virulent strain; 8 proteins unique to the virulent strain and 6 shared proteins were further analyzed for identification by liquid chromatography-mass spectrometry/mass spectrometry (LC-MS/MS) analysis. Of these, 3 immunogenic proteins (heat shock proteins HSP 60 and HSP 70) and 2 other proteins (ATP synthase and thermolysin) were conclusively identified. The 2 highly immunogenic heat shock proteins were shown to share extensive homology with heat shock proteins of related bacteria. This approach for antigen identification may provide a basis for targeted vaccine development against CWD and RTFS.     

Global landscape of structural proteins of infectious spleen and kidney necrosis virus

Infectious spleen and kidney necrosis virus (ISKNV), the type species of the genus Megalocytivirus in the family Iridoviridae, causes severe damage to mandarin fish cultures in China. Little is known about the proteins of ISKNV virions. In this study, a total of 38 ISKNV virion-associated proteins were identified by four different workflows with systematic and comprehensive proteomic approaches. Among the 38 identified proteins, 21 proteins were identified by the gel-based workflows (one-dimensional [1-D] and two-dimensional [2-D] gel electrophoresis). Fifteen proteins were identified by 1-D gel electrophoresis, and 16 proteins were identified by 2-D gel electrophoresis, with 10 proteins identified by both methods. Another 17 proteins were identified only by liquid chromatography (LC)-based workflows (LC-matrix-assisted laser desorption ionization [MALDI] and linear trap quadrupole [LTQ]-Orbitrap). Among these 17 LC-identified proteins, 5 proteins were identified uniquely by the LC-MALDI workflow, whereas another 6 proteins were identified only by the LTQ-Orbitrap workflow. These results underscore the importance of incorporation of multiple approaches in identification of viral proteins. Based on viral genomic sequence, genes encoding these 38 viral proteins were cloned and expressed in vitro. Antibodies were produced against these 38 proteins to confirm the ISKNV structural proteins by Western blotting. Of the newly identified proteins, ORF 056L and ORF 118L were identified and confirmed as two novel viral envelope proteins by Western blotting and immunoelectron microscopy (IEM). The ISKNV proteome reported here is currently the only characterized megalocytivirus proteome. The systematic and comprehensive identification of ISKNV structural proteins and their localizations in this study will facilitate future studies of the ISKNV assembly process and infection mechanism.     

Qualitative and quantitative variability in different classes of proteins: Comparison of mouse and rat

Summary Proteins of membranes and cytosols were extracted from the livers and brains of mice (inbred strain DBA/6J) and rats (inbred strain DA/Han) and separated by two-dimensional electrophoresis (2-DE). The 2-DE patterns were compared with regard to qualitative (spot position) and quantitative (spot intensity) characteristics of the proteins of these two species.The following results were obtained: (1) Brain had more (higher percentage) conservative proteins (proteins found in both mice and rats) than liver; (2) plasma membranes had more conservative proteins than the cytosols; (3) organ-unspecific proteins contained more conservative proteins than relatively organ-specific proteins; (4) the pattern of distribution of genetic variability among different classes of proteins represented by findings 1–3 was the same for the qualitative and quantative characteristics of the proteins; and (5) some observations indicated that quantitative variability occurred more frequently among proteins than did qualitative variability. Our conclusion is that regulatory sequences in the DNA (regulatory genes) are subjected to functional constraints that differ in strength among different classes of proteins by the same ratios as the constraints acting on the structural genes. The overall effect of the selective pressure is, however, less stringent for regulatory genes than for structural genes.The results obtained here by comparing two different species are very similar to previous results we obtained by studying different subspecies (inbred strains of the mouse). From this finding arises a new concept: the study of molecular evolution on the basis of different classes of proteins.Our results were compared with data from the literature that were obtained in part from studies on cultured cells. The comparison suggested that cultured cells have lost their tissue-specific proteins, and so generate predominantly extremely conservative proteins.     

Proteomic analysis of the secretome of rice calli

The cell wall and extracellular matrix in higher plants include secreted proteins that play critical roles in a wide range of cellular processes, such as structural integrity and biogenesis. Compared with the intensive cell wall proteomic studies in Arabidopsis , the list of cell wall proteins identified in monocot species is lacking. Therefore, we conducted a large-scale proteomic analysis of secreted proteins from rice. Highly purified secreted rice proteins were obtained from the medium of a suspension of callus culture and were analyzed with multidimensional protein identification technology (MudPIT). As a result, we could detect a total of 555 rice proteins by MudPIT analysis. Based on bioinformatic analyses, 27.7% (154 proteins) of the identified proteins are considered to be secreted proteins because they possess a signal peptide for the secretory pathway. Among the 154 identified proteins, 27% were functionally categorized as stress response proteins, followed by metabolic proteins (26%) and factors involved in protein modification (24%). Comparative analysis of cell wall proteins from Arabidopsis and rice revealed that one third of the secreted rice proteins overlapped with those of Arabidopsis . Furthermore, 25 novel rice-specific secreted proteins were found. This work presents the large scale of the rice secretory proteome from culture medium, which contributes to a deeper understanding of the rice secretome.     

鼻咽癌5-8F细胞膜蛋白质组初步分析

细胞膜蛋白是细胞的重要组成部分,作为细胞的"门铃"与"门户",参与细胞内外物质交换、信息转换、细胞生长发育、细胞迁移以及免疫应答等重要生理活动.为鉴定鼻咽癌转移相关膜蛋白,运用差速离心联合双水相方法分离纯化鼻咽癌高转移细胞5-8F的细胞膜,SDS-PAGE分离膜蛋白,液相色谱/电喷雾串联质谱分析(LC-MS/MS)结合生物信息学分析鉴定出316种非冗余蛋白质,其中152种(48.5%)被注释为膜蛋白或膜相关蛋白.通过肿瘤差异蛋白质组数据库(dbDEPD)搜索,发现在114个膜蛋白中有49种膜蛋白与其它肿瘤的发生发展密切相关,其中21个膜蛋白与肿瘤转移相关.进一步分析发现膜蛋白CD104、VDAC2、CD298和SLC25A3与同属头颈部肿瘤的口腔癌转移相关,提示这4个膜蛋白也可能是鼻咽癌潜在的转移相关蛋白.研究结果提供了一个鼻咽癌细胞5-8F包含中高丰度膜蛋白的数据库,为进一步研究头颈部肿瘤鼻咽癌癌变分子机理积累了有价值的资料.     

Identification of SUMOylated proteins in neuroblastoma cells after treatment with hydrogen peroxide or ascorbate

The small ubiquitin-like modifier (SUMO) proteins have been implicated in the pathology of a number of diseases, including neurodegenerative diseases. The conjugation machinery for SUMOylation consists of a number of proteins which are redox sensitive. Here, under oxidative stress (100 μM hydrogen peroxide), antioxidant (100 μM ascorbate) or control conditions 169 proteins were identified by electrospray ionisation fourier transform ion cyclotron resonance mass spectrometry. The majority of these proteins (70%) were found to contain SUMOylation consensus sequences. From the remaining proteins a small number (12%) were found to contain possible SUMO interacting motifs. The proteins identified included DNA and RNA binding proteins, structural proteins and proteasomal proteins. Several of the proteins identified under oxidative stress conditions had previously been identified as SUMOylated proteins, thus validating the method presented.     

Olfactory soluble proteins of cockroaches

We have characterized antennae-specific proteins from three species of cockroaches Periplaneta americana, P. fuliginosa and Blattella germanica. Based on the N-terminal sequences, cockroach antennal proteins can be divided into three groups: (i) proteins with amino acid similarity to OS-D, a product of gene cloning from Drosophila melanogaster, (ii) proteins similar to a phasmid, Sipyloidea sipylus, olfactory protein, and (iii) cockroach specific proteins without any relevant similarity to other known proteins. Whereas most of the antennae-specific proteins were detected in extracts from male and female antennae, some proteins are sex specific.     

Isolation and characterization of the major proteins of ram seminal plasma

Mammalian seminal plasma contains among others, two major families of proteins, namely spermadhesins and those proteins that contain fibronectin type II domains. Spermadhesins are the major proteins of boar and stallion seminal plasma and homologous proteins have been identified in the bull. These proteins appear to be involved in capacitation and sperm-egg interaction. In bovine seminal plasma, proteins containing fibronectin type II domains are the major proteins and are designated BSP proteins. These proteins play a role in sperm capacitation. In this study, we present the isolation and characterization of the major proteins of ram seminal plasma. Precipitated proteins from Suffolk ram seminal plasma were loaded onto a gelatin-Agarose column. The unadsorbed (fraction A) and retarded proteins (fraction B) were removed by washing the column with phosphate buffered-saline and the adsorbed proteins (fraction C) were eluted with 5 M urea. SDS-PAGE of fraction B indicated the presence of a 15.5 kDa protein, which is the major protein of ram seminal plasma (approximately 45% of total protein by weight) and was identified as a spermadhesin by N-terminal sequencing. SDS-PAGE analysis of fraction C revealed the presence of four proteins, which represented approximately 20% of total ram seminal plasma proteins by weight, and were identified as proteins of the BSP family and named RSP proteins. These RSP proteins were designated RSP-15 kDa, RSP-16 kDa, RSP-22 kDa, and RSP-24 kDa. Only RSP-15 kDa and -16 kDa proteins cross-reacted with antibodies against BSP proteins. Ram spermadhesin and RSP proteins interact with heparin but only RSP proteins bind to hen's egg yolk low-density lipoprotein. In conclusion, spermadhesin is the major protein of ram seminal plasma and other major proteins belong to the BSP protein family.     

Identification of differentially expressed proteins during larval molting of Helicoverpa armigera

Insect molting involves many molecular processes, such as protein degradation and protein synthesis in the epidermis. Various proteins have been implicated in these processes. The differentially expressed proteins during larval molting of Helicoverpa armigera were investigated using two-dimensional electrophoresis (2-D-PAGE) and matrix-assisted laser desorption/ionization-time-of-flight-mass spectrometry (MALTI-TOF-MS). Four larval tissues sampled during molting and feeding were examined. Seventy-seven differentially expressed proteins were identified in these tissues, including 20 proteins from the fifth-molting epidermis (fifth instar molting to sixth instar), 36 proteins from the fifth-molting hemolymph, and 21 from the fifth-molting fat bodies. No obviously different spots were identified from the fifth-molting midgut under these experimental conditions. After application of MALTI-TOF-MS and similarity analysis comparing results to a Drosophila protein database, 30 proteins were identified: 10 proteins from the fifth-molting epidermis, 11 proteins from the hemolymph, and 9 proteins from fat bodies. These proteins were separated into 5 groups according to their probable functions, such as enzymes, regulators, protein hydrolases, receptors, and proteins with unknown functions. These differentially expressed proteins were proposed to be involved in the Helicoverpa molting cascade.     

Turnover studies on proteins of rat liver lysosomes.

The turnover of rat liver lysosomal proteins was studied by a double isotope-labeling technique. The cellular fractions investigated included soluble lysosomal proteins, lysosomal membrane proteins, highly purified lysosomal beta-glucuronidase, and for comparison, microsomal proteins and soluble cytoplasmic proteins. Both "normal" lysosomes and Triton WR-1339-filled lysosomes (tritosomes) were studied, with similar results. It was found that (a) the turnover rate of lysosomal proteins, of both the soluble and membranous compartments, was very similar to that of the proteins of the microsomal and soluble cytoplasmic fractions, and (b) the turnover rate of lysosomal proteins was asynchronous. The latter conclusion was based on two lines of evidence: (a) lysosomal beta-glucuronidase had a distinctly slower turnover rate than the average rate of the soluble lysosomal proteins, and (b) subunits of the proteins of the soluble lysosomal fraction as separated by sodium dodecyl sulfate. Sephadex G-200 gel filtration showed different rates of degradation.     

LC-MS/MS analysis of apical and basolateral plasma membranes of rat renal collecting duct cells

We used biotinylation and streptavidin affinity chromatography to label and enrich proteins from apical and basolateral membranes of rat kidney inner medullary collecting ducts (IMCDs) prior to LC-MS/MS protein identification. To enrich apical membrane proteins and bound peripheral membrane proteins, IMCDs were perfusion-labeled with primary amine-reactive biotinylation reagents at 2 degrees C using a double barreled pipette. The perfusion-biotinylated proteins and proteins bound to them were isolated with CaptAvidin-agarose beads, separated with SDS-PAGE, and sliced into continuous gel pieces for LC-MS/MS protein identification (LTQ, Thermo Electron Corp.). 17 integral and glycosylphosphatidylinositol (GPI)-linked membrane proteins and 44 non-integral membrane proteins were identified. Immunofluorescence confocal microscopy confirmed ACVRL1, H(+)/K(+)-ATPase alpha1, NHE2, and TauT expression in the IMCDs. Basement membrane and basolateral membrane proteins were biotinylated via incubation of IMCD suspensions with biotinylation reagents on ice. 23 integral and GPI-linked membrane proteins and 134 non-integral membrane proteins were identified. Analyses of non-integral membrane proteins preferentially identified in the perfusion-biotinylated and not in the incubation-biotinylated IMCDs revealed protein kinases, scaffold proteins, SNARE proteins, motor proteins, small GTP-binding proteins, and related proteins that may be involved in vasopressin-stimulated AQP2, UT-A1, and ENaC regulation. A World Wide Web-accessible database was constructed of 222 membrane proteins (integral and GPI-linked) from this study and prior studies.     

RNA binding strategies of ribosomal proteins.

Structures of a number of ribosomal proteins have now been determined by crystallography and NMR, though the complete structure of a ribosomal protein-rRNA complex has yet to be solved. However, some ribosomal protein structures show strong similarity to well-known families of DNA or RNA binding proteins for which structures in complex with cognate nucleic acids are available. Comparison of the known nucleic acid binding mechanisms of these non-ribosomal proteins with the most highly conserved surfaces of similar ribosomal proteins suggests ways in which the ribosomal proteins may be binding RNA. Three binding motifs, found in four ribosomal proteins so far, are considered here: homeodomain-like alpha-helical proteins (L11), OB fold proteins (S1 and S17) and RNP consensus proteins (S6). These comparisons suggest that ribosomal proteins combine a small number of fundamental strategies to develop highly specific RNA recognition sites.     

Identification of a family of human F-box proteins.

F-box proteins are an expanding family of eukaryotic proteins characterized by an approximately 40 aminoacid motif, the F box (so named because cyclin F was one of the first proteins in which this motif was identified) [1]. Some F-box proteins have been shown to be critical for the controlled degradation of cellular regulatory proteins [2] [3]. In fact, F-box proteins are one of the four subunits of ubiquitin protein ligases called SCFs. The other three subunits are the Skp1 protein; one of the cullin proteins (Cul1 in metazoans and Cdc53 or Cul A in the yeast Saccharomyces cerevisiae); and the recently identified Roc1 protein (also called Rbx1 or Hrt1). SCF ligases bring ubiquitin conjugating enzymes (either Ubc3 or Ubc4) to substrates that are specifically recruited by the different F-box proteins. The need for high substrate specificity and the large number of known F-box proteins in yeast and worms [2] [4] suggest the existence of a large family of mammalian F-box proteins. Using Skp1 as a bait in a yeast two-hybrid screen and by searching DNA databases, we identified a family of 26 human F-box proteins, 25 of which were novel. Some of these proteins contained WD-40 domains or leucine-rich repeats; others contained either different protein-protein interaction modules or no recognizable motifs. We have named the F-box proteins that contain WD-40 domains Fbws, those containing leucine-rich repeats, Fbls, and the remaining ones Fbxs. We have further characterized representative members of these three classes of F-box proteins.     

Genetic variability of proteins from plasma membranes and cytosols of mouse organs

The genetic variability of membrane proteins (structure-bound proteins) and cytosol proteins (water-soluble proteins) was investigated in two inbred strains of the mouse, C57BL/6J and DBA/2J. Membrane proteins and cytosol were isolated from the brain and liver of the mouse. The proteins were separated by two-dimensional electrophoresis. A high number of genetic variant proteins (brain, 30; liver, 72) was found in the cytosol. Most of these variants represented changes in the amount of proteins. Electrophoretic mobility changes occurred only in about 1% (brain, 6; liver, 9) of all protein spots of a two-dimensional pattern. In contrast to the cytosol proteins, no genetic variation was detected among the membrane proteins, not even for the quantitative characteristics of the protein spots. The results obtained for the two classes of proteins suggest that the degree of variability in the amount of proteins is related to the degree of variability in the structure of proteins.     

Proteomic characterization of herbicide safener-induced proteins in the coleoptile of Triticum tauschii seedlings

Proteomic methods such as two-dimensional gel electrophoresis and liquid chromatography tandem mass spectrometry, as well as immunoblotting, were used to identify herbicide safener-induced proteins in the coleoptile of Triticum tauschii, a diploid wheat containing the D genome also found in the cultivated, hexaploid wheat Triticum aestivum. The herbicide safener fluxofenim dramatically increased protein abundance in the molecular weight (M(r)) range of 24 to 30 kDa, as well as a few higher M(r) proteins, in the coleoptile of T. tauschii seedlings. In total, twenty proteins were identified in this study. Eleven proteins were highly safener induced and only weakly expressed in the control; seven proteins were new safener induced proteins that were not detected in the control. Two other proteins were constitutively expressed in both the control and safener-treated coleoptiles. Among the eighteen inducible proteins, fifteen were glutathione S-transferase (GST) subunits that fall into three subclasses: eight proteins were from the tau subclass, six proteins were from the phi subclass, and one protein was from the lambda class. Another three safener inducible proteins showed homology to the aldo/keto reductase family and with proteins that have roles in glycolysis and the Krebs cycle. Two constitutively expressed proteins were identified, one having highest homology to the dehydroascorbate reductase subclass of GSTs and one with an ascorbate peroxidase. Immunoblot analyses, using two different antisera raised against the same GST protein but differing in their specificity, were used to further characterize the GST proteins expressed in response to safener treatment. Results from immunoblotting, combined with mass spectral analysis, showed that post-translational modification of GST proteins in control and safener-treated coleoptiles may occur.     

Proteomics of ionically bound and soluble extracellular proteins in Medicago truncatula leaves

A large proportion of the apoplast proteome resides in the intercellular fluid (IF) or is ionically bound (IB) to the wall matrix. A combined analysis of IF and IB proteins of the Medicago truncatula leaf apoplast was performed. 2-DE analyses demonstrated the reproducible presence of 220 IF and 84 IB proteins in the apoplast. These two protein populations were largely distinct; 22 proteins could be spatially matched, but MALDI-TOF/TOF analyses suggested a considerably smaller number had common identities. MALDI-TOF/TOF characterisation identified 81 distinct proteins. Analyses of selected IF proteins (45) indicated 17 distinct proteins with mainly defence-related functions, whereas analyses of IB proteins (70) identified 63 distinct proteins of diverse natures, including proteins of non-canonical natures. The presence of non-canonical proteins in IB extracts is discussed in the light of evidence supporting a low level of contamination of purified walls from symplastic proteins. This work indicates that IB and IF proteins are functionally distinct fractions of the apoplast. The data obtained complements earlier studies of the Medicago proteome and therefore will be useful in future studies investigating the role of apoplastic proteins in plant processes.     

Synthesis, modification and structural binding of heat-shock proteins in tomato cell cultures

Synthesis of about 30 acidic and 18 basic heat-shock proteins (hsps) is induced in suspension cultures of tomato (Lycopersicon peruvianum) if subjected to supraoptimal temperature conditions (35-40 degrees C). A characteristic aspect of the plant heat-shock response is the formation of cytoplasmic granular aggregates, heat-shock granules, containing distinct heat-shock proteins as major structural components and, in addition, several hitherto undetected minor acidic and basic heat-shock proteins. Structural binding of heat-shock proteins, i.e. assembly of heat-shock granules, is dependent on the persistance of supraoptimal temperature conditions. Despite the ongoing synthesis also at 25 degrees C, e.g. in pulse heat-shocked cultures, these proteins are accumulated exclusively in soluble form. Individual heat-shock proteins are characterized by their kinetics of synthesis and are classified by their compartmentation behaviour into class A proteins (exclusively found in soluble form, e.g. hsps 95 and 80), class B proteins (5-10% bound to heat-shock granules, e.g. hsps 70, 68), class C proteins (30-80% bound to heat-shock granules, e.g. hsps 21, 17, 15) and class D proteins, which are minor heat-shock proteins only detected in structure-bound form. Major representatives are modified proteins, i.e. hsps 95, 80, 70 and 68 are phosphorylated and hsps 80, 74, 70 and 17 are methylated proteins (numbers 70, 80 etc. refer to 10(-3) Mr). Under heat-shock conditions synthesis of the proteins detected in control cells (25 degrees C proteins) exhibits two patterns. There are proteins with continued and proteins with discontinued synthesis. Synthesis of most of the latter proteins is resumed very rapidly after shift-down to 25 degrees C, even in the presence of actinomycin D. We conclude that reversible segregation of distinct mRNA species from the translation apparatus contributes to the heat-shock-specific pattern of protein synthesis in plants also.     

Changes in the reactivity of proteins of rat liver ribosomes against [C]iodoacetamide depending on their organization in ribosomal subparticles, 80S ribosomes and on the attachment of poly-(U)

(1) The isolated mixtures of ribosomal proteins can be substituted by [¹⁴C]-iodoacetamide up to an average of about 2 equivalents per 20 000 dalton. The extent of substitution of single proteins measured after two-dimensional polyacrylamide gel electrophoresis shows that all proteins are reactive.

(2) Also in the subunits, all proteins are accessible to substitution. Compared with isolated proteins, however, the reactivity is decreased and the amount of labelling for most proteins ranges as low as 5 to 20%.

(3) Reassociation of ribosomal subunits decreases the reactivity of 12 proteins of the small subunit and that of 20 proteins of the large subunit.

(4) The presence of messenger inhibits the substitution of 10 proteins of the small subunit and of 6 proteins of the large one.

(5) Seven proteins of the small subunit and 3 proteins of the large one are influenced both by the other subunit and by messenger-RNA.