Identification Of Immunogenic Proteins Research Articles

Identification of potentially immunogenic proteins in porcine cholecyst extracellular matrix

Tissue engineering scaffolds of animal origin have many medical uses but the residual immunogenicity can significantly shadow their potential clinical applications as tissue grafts. Therefore, there is a continued search for non-immunogenic scaffolds of animal origin. Although the phylogenetic proximity of the donor species and the decellularization protocols are important, the native load of immunogens in the extracellular matrices of the source organ is a major determinant of residual immunogenicity. Recent observations indicate that, as a tissue graft, porcine cholecyst extracellular matrix (CEM) induces a constructive tissue remodelling reaction rather than a pro-inflammatory graft rejection reaction. The objective of the study was to identify potentially immunogenic proteins in the extractable proteins of CEM. Proteins were extracted and separated by 2D-gel electrophoresis and probed with hyper-immune serum developed against CEM in Sprague-Dawley rats. The reactive proteins were identified by Mass Spectrometry and Uniprot database search. The study detected 18 potentially immunogenic proteins in the extract but none of them was of extracellular matrix origin. There were sixteen cellular and two secretary proteins. Among the cellular immunogenic proteins, lactate dehydrogenase, vimentin, actin, ATP synthase beta chain and annexin-A2 were previously reported as xeno-antigens contributing for the graft rejection. The extract also contained Caviolin-1, a risk factor critical for renal transplant rejection. The results of the study warrant detailed study on the identification of immunogenic proteins in the context of evaluating the biomaterial properties of mammalian-derived scaffolds intended for regenerative medical applications.

Postgenomic Approaches and Bioinformatics Tools to Advance the Development of Vaccines against Bacteria of the Burkholderia cepacia Complex.

Bacteria of the Burkholderia cepacia complex (Bcc) remain an important cause of morbidity and mortality among patients suffering from cystic fibrosis. Eradication of these pathogens by antimicrobial therapy often fails, highlighting the need to develop novel strategies to eradicate infections. Vaccines are attractive since they can confer protection to particularly vulnerable patients, as is the case of cystic fibrosis patients. Several studies have identified specific virulence factors and proteins as potential subunit vaccine candidates. So far, no vaccine is available to protect from Bcc infections. In the present work, we review the most promising postgenomic approaches and selected web tools available to speed up the identification of immunogenic proteins with the potential of conferring protection against Bcc infections.

Identification of immunogenic proteins and evaluation of recombinant PDHA1 and GAPDH as potential vaccine candidates against Streptococcus iniae infection in flounder (Paralichthys olivaceus).

Streptococcus iniae is a major Gram-positive pathogen that causes invasive disease in fish worldwide. In this study, in order to identify immunogenic proteins for developing highly effective vaccine against S. iniae, whole-cell lysate proteins of S. iniae were analyzed by western blotting using flounder anti-S. iniae antibodies, and two positive protein bands of molecular weight 37 kDa and 40 kDa were screened, which were identified as pyruvate dehydrogenase E1 subunit alpha (PDHA1), BMP family ABC transporter substrate-binding protein (BMP) and L-lactate dehydrogenase (LDH), as well as ornithine carbamoyltransferase (OCT), lactate oxidas (LOx) and glyceraldehyde-3-phosphate dehydrogenase (GAPDH) by mass spectrometry. Subsequently, the six recombinant proteins were produced and used to immunize healthy flounder, and the relative percent survival (RPS) value was 72.73%, 27.27%, 36.36%, 9.09%, 36.36% and 63.64% respectively after intraperitoneal challenge with live S. iniae, revealing that rPDHA1 and rGAPDH produced higher relative percent survival than formalin-killed S. iniae (36.36%). To further investigate the protective efficacy of rPDHA1 and rGAPDH, the proliferation of surface membrane immunoglobulin-positive (sIg+) lymphocytes in peripheral blood leucocytes, the total serum IgM, specific IgM against S. iniae and RPS were detected. The results showed that rPDHA1, rGAPDH and formalin-killed S. iniae significantly induced the proliferation of sIg+ lymphocytes, the production of total serum IgM and specific IgM as compared with the control group, and rGAPDH and rPDHA1 provide higher RPS (62.5% and 75%, respectively) again. These results demonstrated that rPDHA1 and rGAPDH are promising vaccine candidates against S. iniae infection in flounder.

Identification of immunogenic proteins of the cysticercoid of Hymenolepis diminuta

BackgroundA wide range of molecules are used by tapeworm metacestodes to establish successful infection in the hostile environment of the host. Reports indicating the proteins in the cestode-host interactions are limited predominantly to taeniids, with no previous data available for non-taeniid species. A non-taeniid, Hymenolepis diminuta, represents one of the most important model species in cestode biology and exhibits an exceptional developmental plasticity in its life-cycle, which involves two phylogenetically distant hosts, arthropod and vertebrate.ResultsWe identified H. diminuta cysticercoid proteins that were recognized by sera of H. diminuta-infected rats using two-dimensional gel electrophoresis (2DE), 2D-immunoblotting, and LC-MS/MS mass spectrometry. Proteomic analysis of 42 antigenic spots revealed 70 proteins. The largest number belonged to structural proteins and to the heat-shock protein (HSP) family. These results show a number of the antigenic proteins of the cysticercoid stage, which were present already in the insect host prior to contact with the mammal host. These are the first parasite antigens that the mammal host encounters after the infection, therefore they may represent some of the molecules important in host-parasite interactions at the early stage of infection.ConclusionsThese results could help in understanding how H. diminuta and other cestodes adapt to their diverse and complex parasitic life-cycles and show universal molecules used among diverse groups of cestodes to escape the host response to infection.

ORFeome Phage Display.

ORFeome phage display allows the efficient functional screening of entire proteomes or even metaproteomes to identify immunogenic proteins. For this purpose, randomly fragmented, whole genomes or metagenomes are cloned into a phage-display vector allowing positive selection for open reading frames (ORF) to improve the library quality. These libraries display all possible proteins encoded by a pathogen or a microbiome on the phage surface. Consequently, immunogenic proteins can be selected from these libraries using disease-related immunoglobulins from patient serum. ORFeome phage display in particular allows the identification of immunogenic proteins that are only expressed in the host-pathogen interaction but not in cultivation, as well as the detection of very low expressed and very small immunogens and immunogenic proteins of non-cultivable organisms. The identified immunogenic proteins are potential biomarkers for the development of diagnostic assays or vaccines. These articles will give an introduction to ORFeome phage-display technology and give detailed protocols to identify immunogenic proteins by phage display.

Identification of Immmunogenic Salivary Proteins of Anopheles vagus based on Mass Spectrometry Analysis

Malaria has been prevalent for a long time in tropical developing regions causing great morbidity and mortality. Among the malaria vectors, Anopheles vagus has been known as secondary malaria vector in East Java. Salivary glands of mosquitoes perform various functions for survival of the vectors and also conducive for blood feeding, harbouring of malaria parasites, and eventual parasite transmission. The salivary gland proteomes of An. vagus have not been carried out yet. The aim of our study was to identify and characterize the immunogenic proteins of salivary glands proteins of An. vagus. A proteomic approach combining one-dimensional electrophoresis (1DE) followed by western blot analysis using human sera from healthy people living in an endemic area (Kendal); liquid chromatography mass spectrometry (LC-MS/MS) and bioinformatic analysis was adopted to provide the first direct insight into identification and characterization of salivary proteins of An. vagus. Identification of immunogenic proteins using western blot analysis has revealed three immunogenic bands which had molecular weights of 69, 75 and 232 kDa. Among those proteins analysed by LC-MS/MS, there were alpha,1-4 glucan phosphorylase, putative myosin class I heavy chain which have the highest number of total spectrum count peptide. Other proteins like vitellogenin and heat shock protein 82 (Hsp82) were also identified. The majority of proteins were scrutinized marked for their role in metabolism, cytoskeleton protein and stress response.
 Keywords: Anopheles vagus, salivary gland, immunogenic, proteomics

Identification of immunogenic proteins and evaluation of four recombinant proteins as potential vaccine antigens from Vibrio anguillarum in flounder (Paralichthys olivaceus)

Vibrio anguillarum is a severe bacterial pathogen that can infect a wide range of fish species. Identification of immunogenic proteins and development of vaccine are essential for disease prevention. In this study, immunogenic proteins were screened and identified from V. anguillarum, and then protective efficacy of the immunogenic proteins was evaluated. Immunogenic proteins in V. anguillarum whole cell were detected by Western blotting (WB) using immunized flounder (Paralichthys olivaceus) serum, and then identified by Mass spectrometry (MS). The recombinant proteins of four identified immunogenic proteins were produced and immunized to fish, and then percentages of surface membrane immunoglobulin-positive (sIg+) cells in peripheral blood lymphocytes (PBL), total antibodies, antibodies against V. anguillarum, antibodies against recombinant proteins and relative percent survival (RPS) were measured, respectively. The results showed that five immunogenic proteins, VAA, Groel, OmpU, PteF and SpK, were identified; their recombinant proteins, rOmpU, rGroel, rSpK and rVAA, could induce the proliferation of sIg+ cells in PBL and production of total antibodies, antibodies against V. anguillarum and antibodies against the recombinant proteins; their protection against V. anguillarum showed 64.86%, 72.97%, 21.62% and 78.38% RPS, respectively. The results revealed that the immunoproteomic technique using fish anti-V. anguillarum serum provided an efficient way to screen the immunogenic protein for vaccine antigen. Moreover, the rVAA, rGroel and rOmpU had potential to be vaccine candidates against V. anguillarum infection.

Identification of immunogenic proteins from ovarian tissue and recognized in larval extracts of Rhipicephalus (Boophilus) microplus, through an immunoproteomic approach

Rhipicephalus (Boophilus) microplus ticks are obligatory hematophagous ectoparasites of cattle and act as vectors for disease-causing microorganisms. Conventional tick control is based on the use of chemical acaricides; however, their uncontrolled use has increased tSresistant tick populations, as well as food and environmental contamination. Alternative immunological tick control has shown to be partially effective. The only anti-tick vaccine commercially available at present in the world is based on intestinal Bm86 protein, and shows a variable effectiveness depending on tick strains or geographic isolates. Therefore, there is a need to characterize new antigens in order to improve immunological protection. The aim of this work was to identify immunogenic proteins from ovarian tissue extracts of R. microplus, after cattle immunization. Results showed that ovarian proteins complexed with the adjuvant Montanide ISA 50 V generated a strong humoral response on vaccinated cattle. IgG levels peaked at fourth post-immunization week and remained high until the end of the experiment. 1D and 2D SDS-PAGE-Western blot assays with sera from immunized cattle recognized several ovarian proteins. Reactive bands were cut and analyzed by LC-MS/MS. They were identified as Vitellogenin, Vitellogenin-2 precursor and Yolk Cathepsin. Our findings along with bioinformatic analysis indicate that R. microplus has several Vitellogenin members, which are proteolytically processed to generate multiple polypeptide fragments. This apparent complexity of vitellogenic tick molecular targets gives the opportunity to explore their potential usefulness as vaccine candidates but, at the same time, imposes a challenge on the selection of the appropriate set of antigens.

Funktionales Proteom-Display zur Identifikation von Biomarkern

Proteome display allows the functional display of positive selected open reading frames (ORF) of randomly fragmented whole genomes or even metagenomes, thus covering all possible proteins encoded by a pathogen or an entire microbiome. Immunogenic proteins can then be selected from these libraries using patient-derived immunoglobulins (serum). Hence, proteome display allows the identification of immunogenic proteins even if they are only expressed in the host but not in cultivation, as well as the detection of very low expressed and very small immunogens.

Whole-Genome Sequencing of Theileria parva Strains Provides Insight into Parasite Migration and Diversification in the African Continent

The disease caused by the apicomplexan protozoan parasite Theileria parva, known as East Coast fever or Corridor disease, is one of the most serious cattle diseases in Eastern, Central, and Southern Africa. We performed whole-genome sequencing of nine T. parva strains, including one of the vaccine strains (Kiambu 5), field isolates from Zambia, Uganda, Tanzania, or Rwanda, and two buffalo-derived strains. Comparison with the reference Muguga genome sequence revealed 34 814–121 545 single nucleotide polymorphisms (SNPs) that were more abundant in buffalo-derived strains. High-resolution phylogenetic trees were constructed with selected informative SNPs that allowed the investigation of possible complex recombination events among ancestors of the extant strains. We further analysed the dN/dS ratio (non-synonymous substitutions per non-synonymous site divided by synonymous substitutions per synonymous site) for 4011 coding genes to estimate potential selective pressure. Genes under possible positive selection were identified that may, in turn, assist in the identification of immunogenic proteins or vaccine candidates. This study elucidated the phylogeny of T. parva strains based on genome-wide SNPs analysis with prediction of possible past recombination events, providing insight into the migration, diversification, and evolution of this parasite species in the African continent.

Immunoproteomic identification of immunogenic proteins in Cronobacter sakazakii strain BAA-894

Cronobacter spp. are emerging opportunistic pathogens. Cronobacter sakazakii is considered as the predominant species in all infections. So far, our understanding of the species' immunogens and potential virulence factors of Cronobacter spp. remains limited. In this study, an immunoproteomic approach was used to investigate soluble and insoluble proteins from the genome-sequenced strain C. sakazakii ATCC BAA-894. Proteins were separated using two-dimensional electrophoresis, detected by Western blotting with polyclonal antibodies of C. sakazakii BAA-894, and identified using tandem mass spectrometry (MALDI-MS and MALDI-MS/MS, MS/MSMS). A total of 11 immunoreactive proteins were initially identified in C. sakazakii BAA-894, including two outer membrane proteins, four periplasmic proteins, and five cytoplasmic proteins. In silico functional analysis of the 11 identified proteins indicated three proteins that were initially described as immunogens of pathogenic bacteria. For the remaining eight proteins, one protein was categorized as a potential virulence factor involved in protection against reactive oxygen species, and seven proteins were considered to play potential roles in adhesion, invasion, and biofilm formation. To our knowledge, this is the first time that immunogenic proteins of C. sakazakii BAA-894 have been identified as immunogens and potential virulence factors by an immunoproteomics approach. Future studies should investigate the roles of these proteins in bacterial pathogenesis and modulation of host immune responses during infection to identify their potential as molecular therapeutic targets.

Highlights of Recent Articles on Data Mining in Genomics and Proteomics

Advancements in ‘Omics’ technologies continue to enhance research to solve the world’s medical and agricultural problems. The 2012 issues of Data Mining in Genomics & Proteomics solicited contributions from leading authors covering various aspects of data mining technologies for genomics and proteomics, and the application of these technologies to biological sciences. Zhou et al. [1] developed a computational platform called OmicsMiner to facilitate the design of customized pipelines to process multiple biological datasets. The platform is adaptable and can easily be expanded by integrating new algorithms and protocols. OmicsMiner has a well-designed graphical interface for data processing that utilizes Java protocols, which do not require additional sub-protocol installations. Gomase and Chitlange [2] describe a microbial proteomic approach to predict the binding ability of antigen protein for selecting nonamers for use in rational vaccine design and increase understanding of the roles of the immune system in infectious diseases. They demonstrated the utility of this approach in a project to examine the tapeworm parasite of sheep, Taenia ovis, which causes Sheep Measles. The authors used position specific scoring matrices (PSSM) for antigen design. Prediction of antigen binding ability is important in vaccine development for Sheep Measles and was obtained by using the support vector machine (SVM) based method. A proteomic approach employing 2-dimensional polyacrylamide gel electrophoresis (2D-PAGE) was used by Yang et al. [3] to separate the membrane proteins of the Chinese Brucella melitensis M5 strain that causes livestock and human disease. Characterization and identification of immunogenic proteins were accomplished using protein blots, mass spectrometry and bioinformatics. Using this approach, they were able to identify immune reactive proteins that show promise as vaccine candidates. In another protein related article, Sharma and Bhalla [4] reported on the computational analysis of nitrilase enzymes to define unique motifs, and correlated physiochemical and phylogenetic analyses. The results can be applied to the prediction and differentiation of these enzymes based on their substrate specificity and to find new sources of nitrilase across various databases. Several approaches to disease control and prevention were discussed in articles addressing the association of increased B-cell activating factor (BAFF) expression with disease markers in patients with Lupus Nephritis (LN), the potential advantages of retinoids treatment in LN, and the role of glycoprotein M64 (GPM6A) in human thyroid cancer. Eilertsen et al. [5] utilized quantitative RT-PCR to analyze gene expression in systemic lupus erythematosus patients and further investigated their reaction with clinical, histological and acute phase protein. They found increased BAFF mRNA expression and concluded that the increase is not reflective of histological disease severity. A review article by Khalid et al. [6] presents an overview of therapeutic use of retinoids, a group of natural and synthetic derivatives of vitamin A for LN. The review discusses the details of LN pathogenesis and severity in humans, and current and new agents for the treatment.

Identification of immunogenic proteins and generation of antibodies against Salmonella Typhimurium using phage display.

BackgroundSolely in Europoe, Salmonella Typhimurium causes more than 100,000 infections per year. Improved detection of livestock colonised with S. Typhimurium is necessary to prevent foodborne diseases. Currently, commercially available ELISA assays are based on a mixture of O-antigens (LPS) or total cell lysate of Salmonella and are hampered by cross-reaction. The identification of novel immunogenic proteins would be useful to develop ELISA based diagnostic assays with a higher specificity.ResultsA phage display library of the entire Salmonella Typhimurium genome was constructed and 47 immunogenic oligopeptides were identified using a pool of convalescent sera from pigs infected with Salmonella Typhimurium. The corresponding complete genes of seven of the identified oligopeptids were cloned. Five of them were produced in E. coli. The immunogenic character of these antigens was validated with sera from pigs infeced with S. Tyhimurium and control sera from non-infected animals. Finally, human antibody fragments (scFv) against these five antigens were selected using antibody phage display and characterised.ConclusionIn this work, we identified novel immunogenic proteins of Salmonella Typhimurium and generated antibody fragments against these antigens completely based on phage display. Five immunogenic proteins were validated using a panel of positive and negative sera for prospective applications in diagnostics of Salmonela Typhimurium.

Identification of immunogenic proteins within distinct molecular mass fractions of Flavobacterium psychrophilum

Flavobacterium psychrophilum is the aetiological agent of bacterial coldwater disease (CWD), and this pathogen has large economic impacts on salmonid aquaculture worldwide. Previously, it was demonstrated that high levels of protection against F. psychrophilum challenge were conferred to rainbow trout, Oncorhynchus mykiss (Walbaum), by immunization with distinct molecular mass fractions of the bacterium, and specific antibodies were correlated with protection. In this study, an immunoproteomic analysis of F. psychrophilum was performed using two-dimensional polyacrylamide gel electrophoresis and Western blotting with serum from fish immunized with high- and mid-molecular mass fractions of the bacterium. Mass spectrometry was used to determine the protein identity, and 15 immunogenic proteins were positively identified following Mascot searches of the F. psychrophilum genome. Based on known function and immunogenicity of homologous proteins in other bacterial pathogens, antibodies specific for several of the identified proteins may be important for protective immunity from CWD. These include outer membrane protein OmpA (P60), trigger factor, ClpB, elongation factor G, gliding motility protein GldN and a conserved hypothetical protein. This work increases the understanding of the protective humoral immune response of rainbow trout against these distinct molecular mass fractions of F. psychrophilum and provides new potential targets for recombinant protein vaccine development.

Identification of immunogenic proteins in Treponema phagedenis-like strain V1 from digital dermatitis lesions by phage display

Digital dermatitis (DD) is a contagious claw disease causing lameness in cattle, affecting both animal welfare and economics. In this study, shotgun phage display was used to identify immunogenic proteins in a strain (V1) of the Treponema phylotype closely related to Treponema phagedenis, indicated as a key agent in the pathogenesis of DD. A genomic phage library was constructed and selected against antibodies from a rabbit immunized with live strain V1 bacteria. A homolog to the immunogenic protein TmpA of Treponema pallidum subsp. pallidum was identified, as well as a putative phage tail tape measure protein (Ttm), and a putative proline-rich repeat lipoprotein (PrrA). The complete amino acid sequences of these proteins were predicted from a genomic sequence of strain V1 generated by 454 Sequencing™. The presence of these genes in ten Treponema spp. field isolates was investigated by PCR. The tmpA and ttm genes were detected in all T. phagedenis-like isolates while prrA was detected in four out of seven. None of the genes were detected in the three Treponema pedis isolates investigated. Recombinant proteins were produced and used in indirect ELISAs. For all three proteins, a majority of serum samples from cattle with DD ( n = 8) showed higher optical density values than samples from cattle without DD ( n = 7).

Bacillus anthracis secretome time course under host-simulated conditions and identification of immunogenic proteins

BackgroundThe secretion time course of Bacillus anthracis strain RA3R (pXO1+/pXO2-) during early, mid, and late log phase were investigated under conditions that simulate those encountered in the host. All of the identified proteins were analyzed by different software algorithms to characterize their predicted mode of secretion and cellular localization. In addition, immunogenic proteins were identified using sera from humans with cutaneous anthrax.ResultsA total of 275 extracellular proteins were identified by a combination of LC MS/MS and MALDI-TOF MS. All of the identified proteins were analyzed by SignalP, SecretomeP, PSORT, LipoP, TMHMM, and PROSITE to characterize their predicted mode of secretion, cellular localization, and protein domains. Fifty-three proteins were predicted by SignalP to harbor the cleavable N-terminal signal peptides and were therefore secreted via the classical Sec pathway. Twenty-three proteins were predicted by SecretomeP for secretion by the alternative Sec pathway characterized by the lack of typical export signal. In contrast to SignalP and SecretomeP predictions, PSORT predicted 171 extracellular proteins, 7 cell wall-associated proteins, and 6 cytoplasmic proteins. Moreover, 51 proteins were predicted by LipoP to contain putative Sec signal peptides (38 have SpI sites), lipoprotein signal peptides (13 have SpII sites), and N-terminal membrane helices (9 have transmembrane helices). The TMHMM algorithm predicted 25 membrane-associated proteins with one to ten transmembrane helices.Immunogenic proteins were also identified using sera from patients who have recovered from anthrax. The charge variants (83 and 63 kDa) of protective antigen (PA) were the most immunodominant secreted antigens, followed by charge variants of enolase and transketolase.ConclusionThis is the first description of the time course of protein secretion for the pathogen Bacillus anthracis. Time course studies of protein secretion and accumulation may be relevant in elucidation of the progression of pathogenicity, identification of therapeutics and diagnostic markers, and vaccine development. This study also adds to the continuously growing list of identified Bacillus anthracis secretome proteins.

Proteomics of bacterial pathogens.

The rapid growth of proteomics that has been built upon the available bacterial genome sequences has opened provided new approaches to the analysis of bacterial functional genomics. In the study of pathogenic bacteria the combined technologies of genomics, proteomics and bioinformatics has provided valuable tools for the study of complex phenomena determined by the action of multiple gene sets. The review considers some of the recent developments in the establishment of proteomic databases as well as attempts to define pathogenic determinants at the level of the proteome for some of the major human pathogens. Proteomics can also provide practical applications through the identification of immunogenic proteins that may be potential vaccine targets as well as in extending our understanding of antibiotic action. There is little doubt that proteomics has provided us with new and valuable information on bacterial pathogens and will continue to be an important source of information in the coming years.

Screening of expression libraries using ELISA: identification of immunogenic proteins from Tityus bahiensis andTityus serrulatus venom

The present report describes the use of ELISA with cDNA expression libraries in the identification of immunogenic proteins. The methodology described was applied using libraries constructed with mRNA isolated from Tityus serrulatus and Tityus bahiensis venom glands. In addition we describe for the first time the sequence of a neurotoxin from Tityus bahiensis venom gland named TbTx5 whose amino acid sequencing showed 93% similarity with the Tityus bahiensis TbTx IV-5 neurotoxin. The methodology described can be used for the generation of an immunogenic bank in order to contribute to genome and proteome projects.