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Immunogenicity
Kinds of Immunogenicity Selected AbstractsImmunogenicity of synthetic saccharide fragments of Vibrio cholerae O1 (Ogawa and Inaba) bound to Exotoxin AFEMS IMMUNOLOGY & MEDICAL MICROBIOLOGY, Issue 2 2006Terri K. Wade Abstract Recombinant exotoxin A (rEPA) from Pseudomonas aeruginosa conjugated to Vibrio cholerae O1 serotype-specific polysaccharides (mono-, di- and hexasaccharide) were immunogenic in mice. Monosaccharide conjugates boosted the humoral responses to the hexasaccharide conjugates. Prior exposure to purified Ogawa lipopolysaccharide (LPS) enabled contra -serotype hexasaccharide conjugates to boost the vibriocidal response, but Inaba LPS did not prime for an enhanced vibriocidal response by a contra -serotype conjugate. Prior exposure to the carrier, and priming B cells with the LPS of either serotype, resulted in enhanced vibriocidal titers if the Ogawa hexasaccharides were used, but a diminished response to the Inaba LPS. These studies demonstrate that the ,functional' B cell epitopes on the LPS differ from those of the neoglycoconjugates and that the order of immunization and the serotype of the boosting conjugate can influence the epitope specificity and function of the antisera. [source] Impact of prior or concomitant seasonal influenza vaccination on MF59-adjuvanted H1N1v vaccine (FocetriaÔ) in adult and elderly subjectsINTERNATIONAL JOURNAL OF CLINICAL PRACTICE, Issue 4 2010R. Gasparini Summary Background:, When H1N1v vaccines become widely available, most elderly subjects will have already received their seasonal influenza vaccination. Adults seeking H1N1v vaccination may be offered seasonal vaccine as well. We investigated prior seasonal vaccination in adult and elderly subjects, and concomitant vaccination with seasonal vaccine in adults, on the tolerability and immunogenicity of the Novartis MF59-adjuvanted H1N1v vaccine, Focetria®. Methods:, A total of 264 adult (four groups) and 154 elderly (three groups) subjects were enrolled. The licensure study cohorts for plain (Agrippal®) and MF59-adjuvanted (Fluad®) 2009,2010 seasonal vaccines were invited to receive Focetria 3 months later, with seasonal vaccine,naïve controls, and adults who received Focteria and seasonal vaccine concomitantly. Immunogenicity of all vaccines was assessed by haemagglutination inhibition on Days 1 and 22, safety and reactogenicity were monitored using patient diaries. Results:, All adult and elderly groups met all the European CHMP licensing criteria for H1N1v, as did adults receiving concomitant seasonal vaccine for the three seasonal strains. Vaccines were generally well tolerated, causing no SAEs, and profiles typical of MF59-adjuvanted vaccines. Reactions were mainly mild or moderate and transient, and unaffected by prior or concomitant seasonal vaccination except for elderly subjects previously given MF59-adjuvanted seasonal vaccine, whose reaction rates to Focetria were about half those seen in groups receiving their first MF59 vaccine. Conclusion:, One dose of MF59-adjuvanted H1N1v vaccine met the licensure criteria for adult and elderly subjects 3 months after seasonal vaccination, or concomitantly with seasonal vaccine in adults, without impacting the tolerability or immunogenicity of either vaccine, thus facilitating mass influenza immunisation campaigns. [source] Immunogenicity and effect of a virosomal influenza vaccine on viral replication and T-cell activation in HIV-infected children receiving highly active antiretroviral therapy,JOURNAL OF MEDICAL VIROLOGY, Issue 4 2006Elisabetta Tanzi Abstract In order to evaluate the immunogenicity and the effect of a virosomal influenza vaccine on viral replication and T-cell activation in HIV-infected children receiving highly active antiretroviral therapy (HAART), 29 children infected with HIV-1 vertically (19 primed with a previous influenza vaccination and 10 who were not been immunized against influenza) were immunized with an intramuscular virosome-adjuvanted influenza vaccine. According to the European Agency for Evaluation of Medical Products (EMEA) criteria, the immunogenicity of the vaccine was adequate against all three influenza strains (A H1N1, A H3N2, and B) in the primed children, and against A H1N1 and A H3N2 in the unprimed children. After in vitro stimulation with vaccine antigens, the IFN-, levels in the peripheral blood mononuclear cells cultures increased significantly from a baseline level of 103.0,±,229.8 pg/ml to a 30-day level of 390.7,±,606.3 pg/ml (P,<,0.05), with concentrations significantly higher (P,<,0.05) in the primed children than in the unprimed children. No increase in plasma HIV-1 RNA or HIV-1 proviral DNA was observed in either subgroup, and the immunophenotype analyses demonstrated that the CD4+ cell counts and percentages, the CD4/CD8 ratio and activated lymphocytes remained stable in either group from baseline to 1 month after each vaccine dose. This study showed that the virosomal influenza vaccine does seem to be immunogenic in the majority of HIV-infected children receiving HAART and does not induce viral replication or T-cell activation. Given the possible influenza-related complications in children infected with HIV, these results support the use of this influenza vaccine in such patients. J. Med. Virol. 78:440,445, 2006. © 2006 Wiley-Liss, Inc. [source] Immunogenicity and safety of a novel liposomal influenza subunit vaccine (INFLUSOME-VAC) in young adultsJOURNAL OF MEDICAL VIROLOGY, Issue 4 2003Arie Ben-Yehuda Abstract Influenza and its complications account for substantial morbidity and mortality among young adults and especially among the elderly. In young adults, immunization provides 70,90% protection, while among the elderly the vaccine may be only 30,40% effective; hence the need for new, more immunogenic vaccines. We compared the safety and immunogenicity of a novel IL-2-supplemented liposomal influenza vaccine (designated INFLUSOME-VAC) with that of a commercial subunit vaccine and a commercial split virion vaccine in young adults (mean age 28 years) in the winter of 1999,2000. Seventy-three healthy young adults were randomly assigned to be vaccinated intramuscularly with the following: a commercial subunit vaccine (n,=,17, group A), INFLUSOME-VAC (n,=,36, group B), and a commercial split virion vaccine (n,=,20, group C). The three vaccines contained equal amounts of hemagglutinin (,15 ,g each) from the strains A/Sydney (H3N2), A/Beijing (H1N1), and B/Yamanashi. INFLUSOME-VAC induced higher geometric mean HI titers and higher-fold increases in HI titers against all three strains, compared with the two commercial vaccines. In addition, seroconversion rates for the A/Sydney and B/Yamanashi strains were significantly higher (P,<,0.05) compared with the split virion vaccine, and significantly higher for the three strains compared with the subunit vaccine (69,97% vs 35,65%, P,,,0.02). Moreover, the anti-neuraminidase response was significantly greater (P,=,0.05) in group B vs group A. INFLUSOME-VAC caused mild local pain at the injection site in a significantly higher proportion of the vaccinees (83%). Thus, INFLUSOME-VAC is an immunogenic and safe vaccine in young adults. J. Med. Virol. 69:560,567, 2003. © 2003 Wiley-Liss, Inc. [source] Immunogenicity of aggregates of recombinant human growth hormone in mouse modelsJOURNAL OF PHARMACEUTICAL SCIENCES, Issue 9 2009Amber Haynes Fradkin Abstract Aggregation of recombinant therapeutic protein products is a concern due to their potential to induce immune responses. We examined the immunogenicity of protein aggregates in commercial formulations of recombinant human growth hormone produced by freeze-thawing or agitation, two stresses commonly encountered during manufacturing, shipping and handling of therapeutic protein products. In addition, we subjected each preparation to high-pressure treatment to reduce the size and concentration of aggregates present in the samples. Aggregates existing in a commercial formulation, as well as aggregates induced by freeze-thawing and agitation stresses enhanced immunogenicity in one or more mouse models. The use of high-pressure treatment to reduce size and concentrations of aggregates within recombinant human growth hormone formulations reduced their overall immunogenicity in agreement with the "immunon" hypothesis. © 2009 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 98:3247,3264, 2009 [source] Immunological Detection of in Vitro Formed Phosphatidylethanol,An Alcohol Biomarker,With Monoclonal AntibodiesALCOHOLISM, Issue 6 2008Antti E. Nissinen Background:, Phosphatidylethanol (PEth) is a promising new marker for detecting long-term alcohol abuse with excellent sensitivity and specificity. Current methods are based on the high performance liquid chromatography,mass spectrometric method and therefore require high levels of expertise and expensive instrumentation. This study was designed to generate PEth-specific monoclonal antibodies for PEth immunoassay development. Methods:, C57/BL6 mice were immunized with PEth in 3 different carriers, mouse serum albumin, mouse high-density lipoproteins, and human low-density lipoprotein (LDL). Mouse splenocytes were fused with a mouse myeloma cell line using the hybridoma technique. Mouse IgM-producing cell lines were selected by limiting dilutions. Binding characteristics of the anti-PEth antibodies were studied using luminometric immunoassays and sequence analysis of the variable region mRNA sequences of the antibodies. Produced antibodies were purified by chromatographic methods. PEth was detected with these antibodies in fluorescence immunoassay and flow cytometric analysis. Results:, We generated monoclonal cell lines (2B1 and 2E9) that produce IgM antibodies binding specifically to PEth but not to structurally or chemically similar phospholipids, such as phosphatidylcholine, phosphatidic acid, and cardiolipin. We show here that these anti-PEth antibodies can be used to detect PEth in a fluorescent PEth assay and FACS analysis of human red blood cell samples spiked with PEth. Conclusions:, The present study shows that PEth-specific monoclonal antibodies can be generated using traditional hybridoma technique. Immunogenicity of PEth was enhanced using human LDL as an immunization carrier. The generated monoclonal anti-PEth antibodies, 2B1 and 2E9 bind to PEth in fluid phase and in biological membranes. [source] Immunogenicity of CIGB-230, a therapeutic DNA vaccine preparation, in HCV-chronically infected individuals in a Phase I clinical trialJOURNAL OF VIRAL HEPATITIS, Issue 3 2009L. Alvarez-Lajonchere Summary., Hepatitis C virus (HCV) is a worldwide health problem. No vaccine is available against this pathogen and therapeutic treatments currently in use are of limited efficacy. In the present study, the immunogenicity of the therapeutic vaccine candidate CIGB-230, based on the mixture of pIDKE2, a plasmid expressing HCV structural antigens, with a recombinant HCV core protein, Co.120, was evaluated. CIGB-230 was administered by intramuscular injection on weeks 0, 4, 8, 12, 16 and 20 to 15 HCV-chronically infected individuals, non-responders to previous treatment with interferon (IFN) plus ribavirin. Interestingly, following the final immunization, neutralizing antibody responses against heterologous viral pseudoparticles were modified in eight individuals, including six de novo responders. In addition, 73% of vaccinees exhibited specific T cell proliferative response and T cell IFN-gamma secretory response 24 weeks after primary immunization with CIGB-230. Furthermore, 33.3% of individuals developed de novo cellular immune response against HCV core and the number of patients (46.7% at the end of treatment) with cellular immune response against more than one HCV structural antigen increased during vaccination (P = 0.046). In addition, despite persistent detection of HCV RNA, more than 40% percent of vaccinated individuals improved or stabilized liver histology, particularly reducing fibrosis, which correlated with cellular immune response against more than one HCV antigen (P = 0.0053). In conclusion, CIGB-230 is a promising candidate for effective therapeutic interventions based on its ability for enhancing the immune response in HCV chronically infected individuals. [source] Immunogenicity of an inactivated adjuvanted whole-virion influenza A (H5N1, NIBRG-14) vaccine administered by intramuscular or subcutaneous injectionMICROBIOLOGY AND IMMUNOLOGY, Issue 2 2010Daisuke Ikeno ABSTRACT The immunogenicity and safety profile of an inactivated whole-virion influenza A (H5N1, NIBRG-14) vaccine with alum adjuvant that was administered by IM or SC injection in a phase I clinical study involving 120 healthy Japanese men aged 20,40 years is described. The serological response of the IM group was stronger than that of the SC group. Local adverse events were less severe with IM injection than with SC injection, while similar systemic adverse events were seen in both groups. These results indicate that, when administering an inactivated whole virion vaccine with alum adjuvant for pandemic influenza, IM injection may achieve better immunogenicity and safety than SC injection. [source] Isolation, Partial Purification, and Immunogenicity of Flagella from Tritrichomonas foetusTHE JOURNAL OF EUKARYOTIC MICROBIOLOGY, Issue 3 2005PHILIP F. JEMILOHUN Abstract. Tritrichomonas foetus, the agent of bovine trichomoniasis, is a flagellate protozoan responsible for substantial economic losses to the dairy and calf industries worldwide. As yet, there is no approved treatment nor is there a sensitive diagnostic method. All these problems suggest that immunization is the best control strategy. In view of this, we isolated and partially purified flagella of the parasite by vortex homogenization followed by low-speed differential centrifugation. The resulting enriched flagellar preparation termed "crude flagellar prep" was purified further by sucrose and percoll gradients. Microscopic analysis showed that the flagellar membrane was intact. Analysis by sodium dodecyl-sulfate polyacrylamide gel electrophoresis revealed three prominent protein bands of 42, 49, and >250 kDa, and several minor bands. Immunoblotting of flagellar and whole-cell extracts revealed many flagellar antigens. [source] Enhancement of Immunogenicity of Jeg3 Cells by Ectopic Expression of HLA-A*0201 and CD80AMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 3 2003Serpil Koc Problem: The choriocarcinoma cell line Jeg3 suppresses immunity in vitro by secretion of soluble factors like leukemia inhibitory factor suppressing leukocyte activation. The cells lack expression of classical human leukocyte antigen (HLA)-A and -B alleles but express some HLA-C, and non-classical HLA-G and -E. Upon binding to killing inhibitory receptor on natural killer (NK) cells, HLA-G prevents activation of cytolytic activity. We investigated whether Jeg3 cells are capable of immune stimulation after complementation with classical HLA and T cell costimulatory signal CD80. Method of study: Jeg3 cells were transduced to express HLA-A*0201 and/or CD80. Parental Jeg3 or transfectants Jeg3-A2, Jeg3-CD80 or Jeg3-CD80-A2 were used to stimulate allogeneic resting and activated peripheral blood lymphocytes (PBL). The different cell lines were loaded with a HLA-A2-restricted Epstein-Barr virus (EBV) recall antigen peptide epitope and antigen presenting ability was examined. T cell lines specific for Jeg3 and transfectants were generated from HLA-A2 matched and nonmatched donors and compared for expansion, phenotypes and cytolytic activity. Results: While all Jeg3 cell lines induced only marginal proliferation of resting T cells, phytohemagglutinin (PHA)-activated T cells were stimulated by CD80 or CD80-A2 expressing Jeg3. Only the transfectant Jeg3-CD80-A2 was capable of specific T cell stimulation by EBV recall antigen presentation. T cell lines of HLA-A2 non-matched donors stimulated with the Jeg3 transfectants showed significant expansion only when HLA-A2 and the costimulus CD80 were present. T cells from HLA-A2 positive donors did not expand significantly or differentially. No NK cells grew under any condition. In Jeg3-CD80-A2 stimulated T cells lines CD8+ cells expanded preferentially. These T cells exerted cytolytic activity toward all Jeg3 cell lines. Conclusion: Our data suggest that, in spite of immunosuppressive mechanisms, proliferative and cytolytic T cell responses are induced by Jeg3 cells when classical HLA- and/or costimulatory signals are present on the cells. [source] Immunogenicity of Pneumococcal Vaccine in Renal Transplant Recipients,Three Year Follow-up of a Randomized TrialAMERICAN JOURNAL OF TRANSPLANTATION, Issue 3 2007D. Kumar Routine pneumococcal vaccination is recommended at regular intervals posttransplant. However, there is limited data on durability of vaccine response and the impact of vaccine type on antibody persistence. We determined the durability of response for patients enrolled in a randomized trial of conjugate (PCV7) versus polysaccharide (PPV23) pneumococcal vaccination. Response was defined as a twofold increase from baseline and a titer ,0.35 ,g/mL using a pneumococcal ELISA for seven serotypes (measured at 8 weeks and 3 years). Forty-seven patients were evaluated and had received either PPV23 (n = 24) or PCV7 (n = 23). Response rates and geometric mean titers varied by serotype but declined significantly at 3-years for 6 of 7 serotypes (p < 0.001). No significant difference in durability was found in patients that had received PPV23 versus PCV7. Compared to the 8-week response, 20.6% fewer patients had a response to at least one serotype by 3 years. The largest relative declines were seen for serotype 4 (response dropped from 40.4% at 8 weeks to 17.0% at 3 years) and serotype 9V (44.7% dropping to 21.3%). The only factor predictive of response durability was a strong multiserotype initial response (p < 0.001). In conclusion, vaccine responses decline significantly by 3 years and conjugate vaccine does not improve the durability of response. [source] Safety and Immunogenicity of Varicella-Zoster Virus Vaccine in Pediatric Liver and Intestine Transplant RecipientsAMERICAN JOURNAL OF TRANSPLANTATION, Issue 3 2006A. Weinberg Primary varicella-zoster virus (VZV) infections following organ transplantation may cause significant morbidity. We examined the safety and immunogenicity of Varivax® after transplantation as a potential prophylactic tool. Pediatric liver and intestine transplant recipients without history of chickenpox received one dose of Varivax®. VZV humoral and cellular immunity were assessed before and ,12 weeks after vaccination. Adverse events (AE) and management of exposure to wild type VZV were monitored. Sixteen VZV-naïve subjects, 13,76 months of age, at 257,2045 days after transplantation were immunized. Five children developed mild local AE of short duration. Four subjects developed fever and four developed non-injection site rashes, three of whom received acyclovir. Liver enzymes did not increase during the month after vaccination. Eighty-seven percent and 86% of children developed humoral and cellular immunity, respectively. There were five reported exposures to varicella in four children, none of which resulted in chickenpox. One subject received VZV-immunoglobulin and another subject with liver enzyme elevations after exposure received acyclovir; all remained asymptomatic. Varivax® was safe and immunogenic in pediatric liver and intestine transplant recipients. Larger studies are needed to establish the efficacy and role of varicella vaccination after transplantation. [source] Phase 1/2 dose-escalation study of a GM-CSF-secreting, allogeneic, cellular immunotherapy for metastatic hormone-refractory prostate cancer,CANCER, Issue 5 2008Celestia S. Higano MD Abstract BACKGROUND This open-label, multicenter, dose-escalation study evaluated multiple dose levels of immunotherapy in patients with metastatic hormone-refractory prostate cancer (HRPC). The immunotherapy, based on the GVAX platform, consisted of 2 allogeneic prostate-carcinoma cell lines modified to secrete granulocyte-macrophage-colony-stimulating factor (GM-CSF). METHODS Dose levels ranged from 100 × 106 cells q28d × 6 to 500 × 106 cells prime/300 × 106 cells boost q14d × 11. Endpoints included safety, immunogenicity, overall survival, radiologic response, prostate-specific antigen (PSA) kinetics, and serum GM-CSF pharmacokinetics. RESULTS Eighty men, median age 69 years (range, 49-90 years), were treated. The most common adverse effect was injection-site erythema. Overall, the immunotherapy was well tolerated. A maximal tolerated dose was not established. The median survival time was 35.0 months in the high-dose group, 20.0 months in the mid-dose, group, and 23.1 months in the low-dose group. PSA stabilization occurred in 15 (19%) patients, and a >50% decline in PSA was seen in 1 patient. The proportion of patients who generated an antibody response to 1 or both cell lines increased with dose and included 10 of 23 (43%) in the low-dose group, 13 of 18 (72%) in the mid-dose group, and 16 of 18 (89%) in the high-dose group (P = .002; Cochran-Armitage trend test). CONCLUSIONS This immunotherapy was well tolerated. Immunogenicity and overall survival varied by dose. Two phase 3 trials in patients with metastatic HRPC are underway. Cancer 2008. © 2008 American Cancer Society. [source] Immunogenicity and reactogenicity of DTPa-HBV-IPV/Hib vaccine as primary and booster vaccination in low-birth-weight premature infantsACTA PAEDIATRICA, Issue 9 2008Liliana Vázquez Abstract Aim: To assess suitability of a combined DTPa-HBV-IPV/Hib vaccine (Infanrix hexaÔ) for immunization of low-birth-weight (<2.0 kg) preterm infants, with particular focus on the hepatitis B response. Methods: Open-label study in 170 preterm infants receiving primary vaccination at 2, 4 and 6 months of age and booster vaccination at 18,24 months. Enrolment and analysis were stratified in two groups: infants with birth weight between 1.5 kg and 2.0 kg (low birth weight: LBW), infants with BW <1.5 kg (very low birth weight: VLBW). Results: One month after the three dose primary vaccination, 93.7% and 94.9% of infants in VLBW and LBW groups, respectively, had anti-HBs antibody concentrations , 10 mIU/mL. High seroprotection and response rates (92.4,100%) to all vaccine antigens were observed. Those were reinforced (>98%) by booster vaccination for all antigens except for HBs in VLBW children: only 88.7% of those had anti-HBs antibody concentrations , 10 mIU/mL, compared with 96.5% of LBW children (difference statistically not significant). The vaccine was well tolerated in both groups of infants. Conclusion: Preterm infants will benefit by the administration of a primary and booster vaccination with DTPa-HBV-IPV/Hib vaccine. [source] Immunogenicity and safety of a virosomal influenza vaccine in HIV-infected childrenACTA PAEDIATRICA, Issue 4 2002GV Zuccotti No abstract is available for this article. [source] Novel conjugate vaccine for the prevention of Pseudomonas aeruginosa infection in cystic fibrosis patientsDRUG DEVELOPMENT RESEARCH, Issue 8 2007Kelly L. Matson Abstract The published literature evaluating the safety and immunogenicity of the polyvalent O-polysaccharide-toxin A conjugate vaccine is reviewed. Primary immunization followed by annual booster significantly reduced the incidence of chronic Pseudomonas aeruginosa lung infections (particularly mucoid phenotype strains) and extended time to infection. The findings reflected lower frequency of P. aeruginosa in sputum/throat cultures and preservation of lung function. Additionally, studies indicated higher binding affinity of vaccine-induced anti-lipopolysaccharide (LPS) compared with infection-induced anti-LPS serum immunoglobulin G antibodies, suggesting protective capacity. P. aeruginosa prophylaxis with the conjugate vaccine in cystic fibrosis patients has proved safe and useful in preventing and delaying chronic lung infection. Drug Dev Res 68:512,521, 2007. © 2008 Wiley-Liss, Inc. [source] The clinical pharmacology of therapeutic monoclonal antibodiesDRUG DEVELOPMENT RESEARCH, Issue 3 2004Lorin K. Roskos Abstract Seventeen monoclonal antibodies are currently approved in the United States for therapeutic use in organ transplantation, percutaneous coronary intervention, prophylaxis of respiratory syncytial virus disease, rheumatoid arthritis, Crohn's disease, asthma, chronic lymphocytic leukemia, acute myeloid leukemia, non-Hodgkin's lymphoma, breast cancer, and colorectal cancer. All approved antibodies are of the IgG class. Thirteen are unconjugated intact antibodies, three are intact immunoconjugates, and one is a Fab fragment. Three of the antibodies are murine, five are chimeric, eight are humanized, and one is a fully human antibody generated by phage display technology. The antigen target and the structural and binding characteristics of the antibody determine the antibody's mechanism of action, pharmacokinetics, safety, and immunogenicity. Antibodies act through multiple mechanisms that include functional modulation of the antigen, recruitment of ADCC and CDC, and delivery of radionuclide or toxin payloads to target cells. Antibody half-life is usually governed by interaction with the FcRn receptor. In some cases, the antigen may act as a sink for antibody elimination. Safety profiles are determined by the pharmacology and tissue distribution of the target antigen, antibody isotype, the antibody payload, cytokine release, hypersensitivity reactions to xenogeneic protein, and immunogenicity. Fully human antibody technology may allow development of antibodies that have reduced risks of hypersensitivity reactions and immunogenicity, thereby enhancing safety and efficacy. The exquisite target specificity of antibodies, improvements in antibody engineering technology, and the wide availability of novel and validated therapeutic targets provide many current and future opportunities for the clinical development of therapeutic antibodies. Drug Dev. Res. 61:108,120, 2004. © 2004 Wiley-Liss, Inc. [source] Design and engineering human forms of monoclonal antibodiesDRUG DEVELOPMENT RESEARCH, Issue 3 2004Manuel L. Penichet Abstract The antibody molecule has multiple properties that make it a key component of the immune response. These include its ability to recognize a vast array of different foreign substrates and to interact with and activate the host effector systems. Antibodies with defined specificities may serve as "magic bullets" for the diagnosis and therapy of multiple diseases. With the development of the hybridoma technology, it was possible to produce rodent (mouse or rat) monoclonal antibodies that are the product of a single clone of antibody producing cells and have only one antigen binding specificity. However, the therapeutic use of rodent monoclonals antibodies in humans is limited by their immunogenicity, short circulating half-life, and inability to efficiently trigger human effector mechanisms. However, it proved difficult to produce human monoclonal antibodies using the same methods. To address these problems genetic engineering and expression systems have instead been used to produce chimeric, humanized, and totally human antibodies as well as antibodies with novel structures and functional properties. In addition, the use of yeast and human artificial chromosome vectors for animal transgenesis has allowed the development of animal models that produce antigen specific antibodies that are totally human. As a consequence, recombinant antibody-based therapies are now used to treat a variety of clinical conditions including infectious diseases, inflammatory disorders, and cancer. This article summarizes and compares different strategies for designing and engineering human antibodies and their derivatives. Drug Dev. Res. 61:121,136, 2004. © 2004 Wiley-Liss, Inc. [source] Commercial manufacturing scale formulation and analytical characterization of therapeutic recombinant antibodiesDRUG DEVELOPMENT RESEARCH, Issue 3 2004Reed J. Harris Abstract Stable therapeutic antibody dosage forms present production technology challenges, particularly when high-concentration formulations are needed to meet the elevated dose requirements that are generally required for successful antibody therapy. Solid dosage forms, such as lyophilized powders, are generally more stable than liquid formulations. High-concentration drug products can be achieved by reconstitution of the lyophilisate in a smaller volume than its initial (pre-lyophilization) volume, but requires a significant vial overfill. High-concentration liquid formulations are becoming feasible as new techniques and technologies become available. Analytical methods to detect subtle molecular variations have been developed to demonstrate manufacturing consistency. Some molecular heterogeneity is contributed by conserved sites, such as Asn297 glycosylation and the loss of heavy chain C-terminal Lys residues. Characteristics that affect potency, stability, or immunogenicity must be elucidated for each therapeutic antibody. Drug Dev. Res. 61:137,154, 2004. © 2004 Wiley-Liss, Inc. [source] Quantitative assessment of human serum high-abundance protein depletionELECTROPHORESIS, Issue 21 2008Rene Stempfer Abstract The aim of this study is to quantify the effectivity of the depletion of human high-abundance serum and plasma proteins for improved protein identification and disease marker candidate discovery and to assess the risk of concomitant removal of relevant marker proteins. 2-DE and bottom-up shotgun MS combining 2-D capillary chromatography with MS/MS were applied in parallel for the analysis of fractions resulting from the depletion procedure. For many proteins the factors of enrichment by the depletion were obvious allowing their enhanced detection and identification upon high-abundance protein depletion. Nano-liquid chromatography linked MS allowed the efficient identification of several low-abundant proteins that were not identified on the 2-DE gels. Resolving the fractions that were eluted from the matrix upon depletion indicated unspecific binding of disease relevant proteins in plasma samples from acute myocardial infarction patients. The unspecific binding to the depletion matrix of inflammatory markers spiked into the serum was found to depend on the type of capturing agent used. Polyclonal avian antibodies (IgY) displayed the least unspecific binding due to the high immunogenicity of mammalian proteins in avian hosts. [source] Computer-assisted 2-D agarose electrophoresis of Haemophilus influenzae type B meningitis vaccines and analysis of polydisperse particle populations in the size range of viruses: A reviewELECTROPHORESIS, Issue 4 2007Dietmar Tietz Dr. Abstract When protein,polysaccharide conjugated vaccines were first developed for the immunization of small children against meningitis caused by infection with Haemophilus influenzae type b (Hib), the vaccine preparations varied in immunogenicity. Testing for immunogenicity was time-consuming and alternative analytical procedures for determining vaccine quality were unsatisfactory. For example, due to the very high molecular weight of the vaccine particles, immunogens could only be physically characterized as a fraction in the void volume of Sepharose gel filtration. In search of better analytical methods, a computer-assisted electrophoretic technique for analyzing such vaccines was developed in the period from 1983 to 1995. This new approach made it possible to analyze highly negatively charged particles as large as or larger than intact viruses. 2-D gel patterns were generated that varied depending on the conditions of the particular vaccine preparation and were therefore characteristic of each vaccine sample. Thus, vaccine particle populations with a continuous size variation over a wide range (polydisperse) could be characterized according to size and free mobility (related to particle surface net charge density). These advances are reviewed in this article, since the developed methods are still a promising tool for vaccine quality control and for predicting immunogen effectiveness in the production of vaccines. The technique is potentially beneficial for Hib immunogens and other high-molecular-mass vaccines. Additional biomedical applications for this nondenaturing electrophoretic technique are briefly discussed and detailed information about computational and mathematical procedures and theoretical aspects is provided in the Appendices. [source] Biosimilar therapeutic agents: issues with bioequivalence and immunogenicityEUROPEAN JOURNAL OF CLINICAL INVESTIGATION, Issue 12 2004H. Schellekens No abstract is available for this article. [source] Tumour cell,dendritic cell fusion for cancer immunotherapy: comparison of therapeutic efficiency of polyethylen-glycol versus electro-fusion protocolsEUROPEAN JOURNAL OF CLINICAL INVESTIGATION, Issue 3 2002M. Lindner Abstract Background ,Fusion of tumour cells with dendritic cells (DC) is a powerful new technology to increase tumour vaccine immunogenicity. The aim of this study was to compare fusion protocols with syngenic DCs with respect to the efficiency of polyethylen-glycol-(PEG) and electric pulse-mediated fusions for induction of protective anti-tumour immune responses. As a model we chose a low immunogenic and metastatic murine mammary carcinoma cell line, which mimics clinically relevant tumour features. Methods FACS-staining, chromium release assay, therapeutic immunization, adoptive transfer. Results ,We show that the parental line with low cell surface expression of MHC molecules as well as a lacZ transfectant becomes highly immunogenic upon fusion with DCs. This was true for PEG- as well as for electro-fused cells. Immunization with products of DCs and tumour cells cocultivated for 16 h without the fusing agent PEG also caused induction of profound anti-tumour immunity, while this was not the case when using parental tumour cells or their lacZ transfectants as vaccines. Immune protection against the parental tumour cells after vaccination with fused cells was long-lasting and could be transferred via immune spleen cells into immuno-incompetent nude (nu/nu) mice. Conclusion ,Fusion products of DA3hi mammary carcinoma cells and DCs produced by an electric pulse were similar to those produced by PEG fusion with regard to vaccine potency in prophylactic antitumour immunization assays in vivo. Therefore, both techniques seem to be promising for clinical application. [source] Fine antigenic variation within H5N1 influenza virus hemagglutinin's antigenic sites defined by yeast cell surface displayEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 12 2009Jian Li Abstract Fifteen strains of mAb specific for HA of the A/Hong Kong/482/97 (H5N1) influenza virus were generated. The HA antigenic sites of the human A/Hong Kong/482/97 (H5N1) influenza virus were defined by using yeast cell surface-displaying system and anti-H5 HA mAb. Evolution analysis of H5 HA identified residues that exhibit diversifying selection in the antigenic sites and demonstrated surprising differences between residue variation of H5 HA and H3 HA. A conserved neutralizing epitope in the H5 HA protein recognized by mAb H5M9 was found using viruses isolated from 1997,2006. Seven single amino acid substitutions were introduced into the HA antigenic sites, respectively, and the alteration of antigenicity was assessed. The structure obtained by homology-modeling and molecular dynamic methods showed that a subtle substitution at residue 124 propagates throughout its nearby loop (152,159). We discuss how the structural changes caused by point mutation might explain the altered antigenicity of the HA protein. The results demonstrate the existence of immunodominant positions in the H5 HA protein, alteration of these residues might improve the immunogenicity of vaccine strains. [source] Low cross-reactivity of T-cell responses against lipids from Mycobacterium bovis and M. avium paratuberculosis during natural infectionEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 11 2009Ildiko Van Rhijn Abstract Although CD1 proteins are known to present mycobacterial lipid antigens to T cells, there is little understanding of the in vivo behavior of T cells restricted by CD1a, CD1b and CD1c, and the relative immunogenicity and immunodominance of individual lipids within the total array of lipids that comprise a bacterium. Because bovines express multiple CD1 proteins and are natural hosts of Mycobacterium bovis and Mycobacterium avium paratuberculosis (MAP), we used them as a new animal model of CD1 function. Here, we report the surprisingly divergent responses against lipids produced by these two pathogens during infection. Despite considerable overlap in lipid content, only three out of 69 animals cross-react with M. bovis and MAP total lipid preparations. The unidentified immunodominant compound of M. bovis is a hydrophilic compound, whereas the immunodominant lipid of MAP is presented by CD1b and was identified as glucose monomycolate (GMM). The preferential recognition of GMM antigen by MAP-infected cattle may be explained by the higher expression of GMM by MAP than by M. bovis. The bacterial species-specific nature of the CD1-restricted, adaptive T-cell response affects the approach to development of lipid based immunodiagnostic tests. [source] Update on animal models for HIV researchEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 8 2009Nancy L. Haigwood Abstract Animal models for HIV research have been indispensible in fulfilling Koch's postulate and in exploring issues of viral infectivity and pathogenesis, sequence divergence, route(s) of acquisition, tissue distribution and tropism, immunogenicity and protection capacity of vaccine candidates, escape from adaptive immunity, and more. Did they fail to predict the efficacy of T-cell vaccines in humans? This article summarizes progress and status of models to inform and complement clinical work. [source] Dendritic cells: Understanding immunogenicityEUROPEAN JOURNAL OF IMMUNOLOGY, Issue S1 2007Ralph Abstract The impetus for the discovery of dendritic cells in 1972 was to understand immunogenicity, the capacity of an antigenic substance to provoke immunity. During experiments to characterize "accessory" cells that enhanced immunity, we spotted unusual stellate cells in mouse spleen. They had a distinct capacity to form and retract processes or dendrites and were named dendritic cells (DC). DC proved to be different from other cell types and to be peculiarly immunogenic when loaded with antigens. When Langerhans cells were studied, immunogenicity was found to involve two steps: antigen presentation by immature DC and maturation to elicit immunity. Antigen-bearing DC were also immunogenic in vivo and were therefore termed "nature's adjuvants". Several labs then learned to generate large numbers of DC from progenitors, which accelerated DC research. Tolerogenicity via DC, including the control of foxp3+ suppressor T cells, was recently discovered. Two areas of current research that I find intriguing are to identify mechanisms for antigen uptake and processing, and for the control of different types of immunity and tolerance. These subjects should be studied in vivo with clinically relevant antigens, so that the activities of DC can be better integrated into the prevention and treatment of disease in patients. [source] Antigen co-encapsulated with adjuvants efficiently drive protective T cell immunityEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 8 2007Antje Heit Abstract Compared to "live" vaccines, the immunogenicity of "subunit" vaccines based on recombinant antigen (Ag) is poor, presumably because exogenous Ag fails to effectively access the endosomal Ag-processing pathways of Ag-presenting cells (APC). To overcome this limitation, we exploited biodegradable poly(lactic-co-glycolic) microspheres (MP) co-entrapping Ag and Toll-like receptor (TLR) 9 or 7 ligands as an endosomal delivery device. In vitro, microspheres were rapidly phagocytosed by APC and translocated into phago-endosomal compartments, followed by degradation of the Ag and concurrent activation of endosomal TLR. As a consequence, full maturation of and cytokine secretion by APC as well as Ag-cross-presentation ensued. In vivo, "loaded" microspheres triggered clonal expansion of primary and secondary Ag-specific CD4 and CD8 T cells. The efficacy of CD8 T cell cross-priming was comparable to that of live vectors. The potency of T cell vaccination was demonstrated by protective and therapeutic interventions using infection- and tumor-model systems. These preclinical "subunit" vaccination data thus recommend MP as a generally applicable and powerful endosomal delivery device of exogenous Ag plus TLR-based adjuvants to vaccinate for protective and therapeutic CD4 and CD8 T cell immunity. [source] Malondialdehyde modification of myelin oligodendrocyte glycoprotein leads to increased immunogenicity and encephalitogenicityEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 7 2007Maja Wållberg Abstract Self proteins may become autoantigenic through structural modification. We studied malondialdehydation of recombinant rat (rr) myelin oligodendrocyte glycoprotein (MOG), an autoantigen in multiple sclerosis. Malondialdehyde (MDA) modification changed protein weight and charge, the location of these adducts being mapped by Fourier transform ion cyclotron resonance. Molecular modelling revealed significant differences in the MDA-rrMOG three-dimensional structure. DBA/1 mice immunised with MDA-rrMOG developed greater proliferative responses and more severe experimental autoimmune encephalomyelitis than mice immunised with unmodified rrMOG. MDA-rrMOG was taken up more effectively by antigen-presenting cells (APC), at least partially through scavenger receptors. Exposure to MDA-rrMOG led to increased expression of IL-23, IL-12 and IL-12R, indicating a role not only for increased antigen uptake but also for activation of APC. We thus provide biochemical, structural, immunological and clinical data that suggest that the post-translationally modified form of this myelin autoantigen is a more relevant form of the molecule. [source] Enhanced immunogenicity of CTL antigens through mutation of the CD8 binding MHC class,I invariant regionEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 5 2007Linda Wooldridge Abstract CD8+ cytotoxic T,lymphocytes (CTL) are key determinants of immunity to intracellular pathogens and neoplastic cells. Recognition of specific antigens in the form of peptide-MHC class,I complexes (pMHCI) presented on the target cell surface is mediated by T cell receptor (TCR) engagement. The CD8 coreceptor binds to invariant domains of pMHCI and facilitates antigen recognition. Here, we investigate the biological effects of a Q115E substitution in the ,2,domain of human leukocyte antigen (HLA)-A*0201 that enhances CD8 binding by,,50% without altering TCR/pMHCI interactions. Soluble and cell surface-expressed forms of Q115E HLA-A*0201 exhibit enhanced recognition by CTL without loss of specificity. These CD8-enhanced antigens induce greater CD3 ,,chain phosphorylation in cognate CTL leading to substantial increases in cytokine production, proliferation and priming of naive T cells. This effect provides a fundamental new mechanism with which to enhance cellular immunity to specific T cell antigens. [source] | ||||||||||||||||||||||||||||||||||||||||