Search

Your search keyword '"Kleanthous, H."' showing total 164 results
Start Over Author "Kleanthous, H."
164 results on '"Kleanthous, H."'

7. Haemolytic uraemic syndromes in the British Isles 1985-8: association with Verocytotoxin producing Escherichia coli

Author

Milford, D.V., Taylor, C.M., Guttridge, B., Hall, S.M., Rowe, B., and Kleanthous, H.

Subjects
Escherichia coli, Bacterial toxins -- Physiological aspects, Hemolytic-uremic syndrome -- Causes of, Hemolytic-uremic syndrome -- Demographic aspects, Hemolytic-uremic syndrome -- Identification and classification, Bacterial toxins -- Identification and classification
Published
1990

8. Recombinant HIV-1 vaccine candidates based on replication-defective flavivirus vector

Author

Giel-Moloney, M., primary, Esteban, M., additional, Oakes, B. H., additional, Vaine, M., additional, Asbach, B., additional, Wagner, R., additional, Mize, G. J., additional, Spies, A. G., additional, McElrath, J., additional, Perreau, M., additional, Roger, T., additional, Ives, A., additional, Calandra, T., additional, Weiss, D., additional, Perdiguero, B., additional, Kibler, K. V., additional, Jacobs, B., additional, Ding, S., additional, Tomaras, G. D., additional, Montefiori, D. C., additional, Ferrari, G., additional, Yates, N. L., additional, Roederer, M., additional, Kao, S. F., additional, Foulds, K. E., additional, Mayer, B. T., additional, Bennett, C., additional, Gottardo, R., additional, Parrington, M., additional, Tartaglia, J., additional, Phogat, S., additional, Pantaleo, G., additional, Kleanthous, H., additional, and Pugachev, K. V., additional

Published
2019
Full Text
View/download PDF

10. Recombinant HIV-1 vaccine candidates based on replication-defective flavivirus vector

Author

Bill & Melinda Gates Foundation, Giel-Moloney, M., Esteban, Mariano, Oakes, B. H., Vainio, Marika, Asbach, Benedikt, Wagner, Michael, Mize, G. J., Spies, A. G., McElrath, J., Perreau, M., Roger, T., Ives, A., Calandra, T., Weiss, D., Perdiguero, Beatriz, Kibler, K., Jacobs, B., Ding, Song, Tomaras, Georgia D., Montefiori, David C., Ferrari, Guido, Yates, Nicole L., Roederer, Mario, Kao, Shing-Fen, Foulds, K. E., Mayer, B. T., Bennett, C., Gottardo, Raphael, Parrington, M., Tartaglia, James, Phogat, Sanjay, Pantaleo, Giuseppe, Kleanthous, H., Pugachev, K. V., Bill & Melinda Gates Foundation, Giel-Moloney, M., Esteban, Mariano, Oakes, B. H., Vainio, Marika, Asbach, Benedikt, Wagner, Michael, Mize, G. J., Spies, A. G., McElrath, J., Perreau, M., Roger, T., Ives, A., Calandra, T., Weiss, D., Perdiguero, Beatriz, Kibler, K., Jacobs, B., Ding, Song, Tomaras, Georgia D., Montefiori, David C., Ferrari, Guido, Yates, Nicole L., Roederer, Mario, Kao, Shing-Fen, Foulds, K. E., Mayer, B. T., Bennett, C., Gottardo, Raphael, Parrington, M., Tartaglia, James, Phogat, Sanjay, Pantaleo, Giuseppe, Kleanthous, H., and Pugachev, K. V.

Abstract

Multiple approaches utilizing viral and DNA vectors have shown promise in the development of an effective vaccine against HIV. In this study, an alternative replication-defective flavivirus vector, RepliVax (RV), was evaluated for the delivery of HIV-1 immunogens. Recombinant RV-HIV viruses were engineered to stably express clade C virus Gag and Env (gp120TM) proteins and propagated in Vero helper cells. RV-based vectors enabled efficient expression and correct maturation of Gag and gp120TM proteins, were apathogenic in a sensitive suckling mouse neurovirulence test, and were similar in immunogenicity to recombinant poxvirus NYVAC-HIV vectors in homologous or heterologous prime-boost combinations in mice. In a pilot NHP study, immunogenicity of RV-HIV viruses used as a prime or boost for DNA or NYVAC candidates was compared to a DNA prime/NYVAC boost benchmark scheme when administered together with adjuvanted gp120 protein. Similar neutralizing antibody titers, binding IgG titers measured against a broad panel of Env and Gag antigens, and ADCC responses were observed in the groups throughout the course of the study, and T cell responses were elicited. The entire data demonstrate that RV vectors have the potential as novel HIV-1 vaccine components for use in combination with other promising candidates to develop new effective vaccination strategies.

Published
2019

11. Antibodies directed towards neuraminidase N1 control disease in a mouse model of influenza

Author

Job, Emma R, Schotsaert, M, Ibañez, Lorena Itatí, de Smet, A., Ysenbaert, T, Roose, Kenny, Dai, Meiling, de Haan, C A M, Kleanthous, H, Vogel, T U, Saelens, X., dI&I I&I-1, and LS Virologie

Subjects
0301 basic medicine, medicine.drug_class, Cross Protection, Immunology, Hemagglutinin (influenza), neuraminidase, medicine.disease_cause, Monoclonal antibody, Antibodies, Viral, Microbiology, Epitope, 03 medical and health sciences, Mice, Viral Proteins, Influenza A Virus, H1N1 Subtype, Orthomyxoviridae Infections, Virology, Vaccines and Antiviral Agents, Viral neuraminidase, Influenza A virus, medicine, Animals, influenza A virus, Mice, Inbred BALB C, biology, Linear epitope, Influenza A Virus, H5N1 Subtype, Immunization, Passive, Antibodies, Monoclonal, Influenza A virus subtype H5N1, Disease Models, Animal, therapeutic, 030104 developmental biology, monoclonal antibody, Insect Science, biology.protein, Female, Neuraminidase
Abstract

There is increasing evidence to suggest that antibodies directed toward influenza A virus (IAV) neuraminidase (NA) are an important correlate of protection against influenza in humans. Moreover, the potential of NA-specific antibodies to provide broader protection than conventional hemagglutinin (HA) antibodies has been recognized. Here, we describe the isolation of two monoclonal antibodies, N1-7D3 and N1-C4, directed toward the N1 NA. N1-7D3 binds to a conserved linear epitope in the membrane-distal, carboxy-terminal part of the NA and reacted with the NA of seasonal H1N1 isolates ranging from 1977 to 2007 and the 2009 H1N1pdm virus, as well as A/Vietnam/1194/04 (H5N1). However, N1-7D3 lacked NA inhibition (NI) activity and the ability to protect BALB/c mice against a lethal challenge with a range of H1N1 viruses. Conversely, N1-C4 bound to a conformational epitope that is conserved between two influenza virus subtypes, 2009 H1N1pdm and H5N1 IAV, and displayed potent in vitro antiviral activity mediating both NI and plaque size reduction. Moreover, N1-C4 could provide heterosubtypic protection in BALB/c mice against a lethal challenge with 2009 H1N1pdm or H5N1 virus. Glutamic acid residue 311 in the NA was found to be critical for the NA binding and antiviral activity of monoclonal antibody N1-C4. Our data provide further evidence for cross-protective epitopes within the N1 subtype and highlight the potential of NA as an important target for vaccine and therapeutic approaches. IMPORTANCE Influenza remains a worldwide burden on public health. As such, the development of novel vaccines and therapeutics against influenza virus is crucial. Human challenge studies have recently highlighted the importance of antibodies directed toward the viral neuraminidase (NA) as an important correlate of reduced influenza-associated disease severity. Furthermore, there is evidence that anti-NA antibodies can provide broader protection than antibodies toward the viral hemagglutinin. Here, we describe the isolation and detailed characterization of two N1 NA-specific monoclonal antibodies. One of these monoclonal antibodies broadly binds N1-type NAs, and the second displays NA inhibition and in vitro and in vivo antiviral activity against 2009 H1N1pdm and H5N1 influenza viruses. These two new anti-NA antibodies contribute to our understanding of the antigenic properties and protective potential of the influenza virus NA antigen.

Published
2018

13. Antibodies directed towards neuraminidase N1 control disease in a mouse model of influenza

Author

dI&I I&I-1, LS Virologie, Job, Emma R, Schotsaert, M, Ibañez, Lorena Itatí, de Smet, A., Ysenbaert, T, Roose, Kenny, Dai, Meiling, de Haan, C A M, Kleanthous, H, Vogel, T U, Saelens, X., dI&I I&I-1, LS Virologie, Job, Emma R, Schotsaert, M, Ibañez, Lorena Itatí, de Smet, A., Ysenbaert, T, Roose, Kenny, Dai, Meiling, de Haan, C A M, Kleanthous, H, Vogel, T U, and Saelens, X.

Published
2018

14. Clinical and microbiological parameters of naturally occurring periodontitis in the non-human primate Macaca mulatta

Author

Colombo, APV, Paster, BJ, Grimaldi, G, Lourenco, TGB, Teva, A, Campos-Neto, A, McCluskey, J, Kleanthous, H, Van Dyke, TE, Stashenko, P, Colombo, APV, Paster, BJ, Grimaldi, G, Lourenco, TGB, Teva, A, Campos-Neto, A, McCluskey, J, Kleanthous, H, Van Dyke, TE, and Stashenko, P

Abstract

Background: Non-human primates appear to represent the most faithful model of human disease, but to date the oral microbiome in macaques has not been fully characterized using next-generation sequencing. Objective: In the present study, we characterized the clinical and microbiological features of naturally occurring periodontitis in non-human primates (Macaca mulatta). Design: Clinical parameters of periodontitis including probing pocket depth (PD) and bleeding on probing (BOP) were measured in 40 adult macaques (7-22 yrs), at six sites per tooth. Subgingival plaque was collected from diseased and healthy sites, and subjected to 16S rDNA sequencing and identification at the species or higher taxon level. Results: All macaques had mild periodontitis at minimum, with numerous sites of PD ≥ 4 mm and BOP. A subset (14/40) had moderate-severe disease, with >2 sites with PD ≥ 5mm, deeper mean PD, and more BOP. Animals with mild vs moderate-severe disease were identical in age, suggesting genetic heterogeneity. 16S rDNA sequencing revealed that all macaques had species that were identical to those in humans or closely related to human counterparts, including Porphyromonas gingivalis which was present in all animals. Diseased and healthy sites harboured distinct microbiomes; however there were no significant differences in the microbiomes in moderate-severe vs. mild periodontitis. Conclusions: Naturally occurring periodontitis in older macaques closely resembles human adult periodontitis, thus validating a useful model to evaluate novel anti-microbial therapies.

Published
2017

15. The additional value of patient-reported health status in predicting 1-year mortality after invasive coronary procedures: a report from the Euro Heart Survey on Coronary Revascularisation

Author

Lenzen M. J., Scholte Op Reimer W. J. M., Pedersen S. S., Boersma E., Maier W., Widimsky P., Simoons M. L., Mercado N. F., Wijns W., Bertrand M., Meier B., Sechtem U., Sergeant P., Stahle E., Unger F., Manini M., Bramley C., Laforest V., Taylor C., Del Gaiso S., Huber K., De Backer G., Sirakova V., Cerbak R., Thayssen P., Lehto S., Blanc J. -J., Delahaye F., Kobulia B., Zeymer U., Cokkinos D., Karlocai K., Graham I., Shelley E., Behar S., Maggioni A., Grabauskiene V., Deckers J., Asmussen I., Stepinska J., Goncalves L., Mareev V., Riecansky I., Kenda M. F., Alonso A., Lopez-Sendon J. L., Rosengren A., Buser P., Okay T., Sychov O., Fox K., Wood D., Crijns H., McGregor K., Mulder B., Priori S., Ryden L., Tavazzi L., Vahanian A., Vardas P., Sarkisyan K., Glogar H. D., Frick M., Pachinger O., Zwick R., Vrints C., Van Hertbruggen E., Vercammen M., Sysmans T., Schroeder E., Domange J., De Pril H., De Vriese J., Van Hecke T., Legrand V., Gillon M. -F., Richardy M., Doneux P., Petrov I., Jorgova J., Starcevic B., Eeckhout E., Berger A., Prudent V., Camenzind E., Masson N., Zambartas C., Kleanthous H., Stellova B., Aschermann M., Simek S., Kautzner J., Karmazin V., Svab P., Indrak J., Branny M., Hladilova K., Kala P., Cappelen H., Jensen L. O., Gitt A., Gehrke K., am Rhein L., Erbel R., Gutersohn A., Eggebrecht H., Al Khani M., Rosenberger A., Vogelsberg H., Klepzig H., Schmidt A., Silber S., Mau B., Leuner C., Czyborra K., Reuschling C., Muno E., Nauheim B., Kleber F., Rux S., Saad A., Elabady M., Beiras A. C., Fernandez J. S., del Arno F. N., Romo A. I., Fernandez J. M. C., Mayoreal A. R., Rebanal F. J. R., de la Borbolla M. G., Chaparro M., Brotons C., Miralda C. P., Vila i Perez S. I., Moris C., Aviles F. F., de la Fuente Galan L., Vinuela P. T., de Torres F. M., Mora J., Rodriguez I. S., Bustamante I. P., Fernandez P. L. S., Torrent J. L. D., Diez Gil J. L., Perpinan J., Motilla V. P., Juango M. S. A., Berjon-Reyero J., Moreno R. M., Guerrero J. C. F., Savolainen K., Syvanne M., Cohen-Solal A., Oboa A. -S., Bassand J. P., Espinosa D. P., Jouet V., Cedex B., Montalescot G., Gallois V., Daubert J. C., Clerc J. M., Machecourt J., Cottin Y., Walker D., Holland F., Prosser J., Muir L., Barber K., Cleland J. G. F., Cook J., Chapichadze Z., Christos I. S. A., Tsiavou N., Chrysohoou C., Manginas A., Terrovitis J., Kanakakis J., Vavuranakis M., Drakos S., Farmakis T., Samara C., Papakosta C., Bourantas C., Michalis L. K., Christos M., Foussas S., Adamopoulou E., Vardas P. E., Marketou M., Alotti N., Basa A. M., Vigh A., Preda I., Csoti E., Keltai M., Kerkovits G., Hendler A., Blatt A., Yakov B., Beyar R., Shefer A., Halon D., Bentzvi M., Avramovitch N., Bakst A., Saba K., Cafri C., Grosbard A., Sheva B., Margolis B., Suleiman K., Banai S., Meerkin D., Mosseri M., Guita P., Jabara R., Jafari J., Shitrit D. B., Ghasan Salameh, Brezins M., van den Akker-Berman L., Guetta V., Hashomer T., Rozenman Y., Biagini A., Berti S., Ferrero M., Colombo A., Roccaforte R., Milici C., Scarpino L., Salvi A., Desideri A., Sabbadin D., Veneto C., Galassi A., Giuffrida G., Rognoni A., Vassanelli C., Paffoni P., Cioppa A., Rubino P., de Carlo M., Petronio A. S., Naccarella F., Saia F., Marzocchi A., Maranga S. S., Presbitero P., Valsecchi F., Piscione F., Esposito G., Santini N. M., Tubaro M., Erglis A., Narbute I., Kavoliuniene A., Zaliunas R., Navickas R., Luckute D., Subkovas E., Wagner D., Vermeer F., Lousberg A., Fransen H., Breeman A., Tebbe H., De Boer M. J., van der Wal M., Vos J., Leenders C. M., Veerhoek M. J., Jansen C., Bijl M., Koppelaar C., den Linden V., Brons R., Widdershofen J. W. M. G., Broers H., Kontny F., Jonzon M., Wodniecki J., Tomasik A., Trusz-Gluza M., Nowak S., Ruzyllo W., Deptuch T., Marques J., Matias F., Madeira H., Oliveira J., Sargento L., Ionac A., Dragulescu I. S., Mut-Vitcu B., Maximov D., Dorobantu M., Apetrei E., Niculescu R., Petrescu V., Bucsa A., Deleanu D., Bucharest, Benedek I. S., Hintea T., Aronov D., Tikhomirova E., Kranjec I., Prokselj K., Kanic V., Sepetoglu A., Aytekin S., Aytekin V., Catakoglu A. B., Parlar H., Tufekcioglu S., Ozyedek Z., Baltali M., Kiziltan D., Vukovic M., Neskovic A. N., Cardiology, Lenzen, M. J., Scholte Op Reimer, W. J. M., Pedersen, S. S., Boersma, E., Maier, W., Widimsky, P., Simoons, M. L., Mercado, N. F., Wijns, W., Bertrand, M., Meier, B., Sechtem, U., Sergeant, P., Stahle, E., Unger, F., Manini, M., Bramley, C., Laforest, V., Taylor, C., Del Gaiso, S., Huber, K., De Backer, G., Sirakova, V., Cerbak, R., Thayssen, P., Lehto, S., Blanc, J. -J., Delahaye, F., Kobulia, B., Zeymer, U., Cokkinos, D., Karlocai, K., Graham, I., Shelley, E., Behar, S., Maggioni, A., Grabauskiene, V., Deckers, J., Asmussen, I., Stepinska, J., Goncalves, L., Mareev, V., Riecansky, I., Kenda, M. F., Alonso, A., Lopez-Sendon, J. L., Rosengren, A., Buser, P., Okay, T., Sychov, O., Fox, K., Wood, D., Crijns, H., Mcgregor, K., Mulder, B., Priori, S., Ryden, L., Tavazzi, L., Vahanian, A., Vardas, P., Sarkisyan, K., Glogar, H. D., Frick, M., Pachinger, O., Zwick, R., Vrints, C., Van Hertbruggen, E., Vercammen, M., Sysmans, T., Schroeder, E., Domange, J., De Pril, H., De Vriese, J., Van Hecke, T., Legrand, V., Gillon, M. -F., Richardy, M., Doneux, P., Petrov, I., Jorgova, J., Starcevic, B., Eeckhout, E., Berger, A., Prudent, V., Camenzind, E., Masson, N., Zambartas, C., Kleanthous, H., Stellova, B., Aschermann, M., Simek, S., Kautzner, J., Karmazin, V., Svab, P., Indrak, J., Branny, M., Hladilova, K., Kala, P., Cappelen, H., Jensen, L. O., Gitt, A., Gehrke, K., am Rhein, L., Erbel, R., Gutersohn, A., Eggebrecht, H., Al Khani, M., Rosenberger, A., Vogelsberg, H., Klepzig, H., Schmidt, A., Silber, S., Mau, B., Leuner, C., Czyborra, K., Reuschling, C., Muno, E., Nauheim, B., Kleber, F., Rux, S., Saad, A., Elabady, M., Beiras, A. C., Fernandez, J. S., del Arno, F. N., Romo, A. I., Fernandez, J. M. C., Mayoreal, A. R., Rebanal, F. J. R., de la Borbolla, M. G., Chaparro, M., Brotons, C., Miralda, C. P., Vila i Perez, S. I., Moris, C., Aviles, F. F., de la Fuente Galan, L., Vinuela, P. T., de Torres, F. M., Mora, J., Rodriguez, I. S., Bustamante, I. P., Fernandez, P. L. S., Torrent, J. L. D., Diez Gil, J. L., Perpinan, J., Motilla, V. P., Juango, M. S. A., Berjon-Reyero, J., Moreno, R. M., Guerrero, J. C. F., Savolainen, K., Syvanne, M., Cohen-Solal, A., Oboa, A. -S., Bassand, J. P., Espinosa, D. P., Jouet, V., Cedex, B., Montalescot, G., Gallois, V., Daubert, J. C., Clerc, J. M., Machecourt, J., Cottin, Y., Walker, D., Holland, F., Prosser, J., Muir, L., Barber, K., Cleland, J. G. F., Cook, J., Chapichadze, Z., Christos, I. S. A., Tsiavou, N., Chrysohoou, C., Manginas, A., Terrovitis, J., Kanakakis, J., Vavuranakis, M., Drakos, S., Farmakis, T., Samara, C., Papakosta, C., Bourantas, C., Michalis, L. K., Christos, M., Foussas, S., Adamopoulou, E., Vardas, P. E., Marketou, M., Alotti, N., Basa, A. M., Vigh, A., Preda, I., Csoti, E., Keltai, M., Kerkovits, G., Hendler, A., Blatt, A., Yakov, B., Beyar, R., Shefer, A., Halon, D., Bentzvi, M., Avramovitch, N., Bakst, A., Saba, K., Cafri, C., Grosbard, A., Sheva, B., Margolis, B., Suleiman, K., Banai, S., Meerkin, D., Mosseri, M., Guita, P., Jabara, R., Jafari, J., Shitrit, D. B., Ghasan, Salameh, Brezins, M., van den Akker-Berman, L., Guetta, V., Hashomer, T., Rozenman, Y., Biagini, A., Berti, S., Ferrero, M., Colombo, A., Roccaforte, R., Milici, C., Scarpino, L., Salvi, A., Desideri, A., Sabbadin, D., Veneto, C., Galassi, A., Giuffrida, G., Rognoni, A., Vassanelli, C., Paffoni, P., Cioppa, A., Rubino, P., de Carlo, M., Petronio, A. S., Naccarella, F., Saia, F., Marzocchi, A., Maranga, S. S., Presbitero, P., Valsecchi, F., Piscione, F., Esposito, G., Santini, N. M., Tubaro, M., Erglis, A., Narbute, I., Kavoliuniene, A., Zaliunas, R., Navickas, R., Luckute, D., Subkovas, E., Wagner, D., Vermeer, F., Lousberg, A., Fransen, H., Breeman, A., Tebbe, H., De Boer, M. J., van der Wal, M., Vos, J., Leenders, C. M., Veerhoek, M. J., Jansen, C., Bijl, M., Koppelaar, C., den Linden, V., Brons, R., Widdershofen, J. W. M. G., Broers, H., Kontny, F., Jonzon, M., Wodniecki, J., Tomasik, A., Trusz-Gluza, M., Nowak, S., Ruzyllo, W., Deptuch, T., Marques, J., Matias, F., Madeira, H., Oliveira, J., Sargento, L., Ionac, A., Dragulescu, I. S., Mut-Vitcu, B., Maximov, D., Dorobantu, M., Apetrei, E., Niculescu, R., Petrescu, V., Bucsa, A., Deleanu, D., Bucharest, Benedek, I. S., Hintea, T., Aronov, D., Tikhomirova, E., Kranjec, I., Prokselj, K., Kanic, V., Sepetoglu, A., Aytekin, S., Aytekin, V., Catakoglu, A. B., Parlar, H., Tufekcioglu, S., Ozyedek, Z., Baltali, M., Kiziltan, D., Vukovic, M., and Neskovic, A. N.

Subjects
Male, medicine.medical_specialty, Epidemiology, medicine.medical_treatment, Health Status, Coronary Artery Disease, Revascularization, Coronary artery disease, Cohort Studies, Risk Factors, Surveys and Questionnaires, medicine, Myocardial Revascularization, Surveys and Questionnaire, Humans, Prospective Studies, Prospective cohort study, Aged, business.industry, Risk Factor, Mortality rate, Confounding, Middle Aged, medicine.disease, Surgery, Europe, Prospective Studie, Treatment Outcome, Emergency medicine, Population study, Female, Cohort Studie, Cardiology and Cardiovascular Medicine, business, Human, Cohort study
Abstract

Objective: Self-perceived health status may be helpful in identifying patients at high risk for adverse outcomes. The Euro Heart Survey on Coronary Revascularization (EHS-CR) provided an opportunity to explore whether impaired health status was a predictor of 1-year mortality in patients with coronary artery disease (CAD) undergoing angiographic procedures. Methods: Data from the EHS-CR that included 5619 patients from 31 member countries of the European Society of Cardiology were used. Inclusion criteria for the current study were completion of a self-report measure of health status, the EuroQol Questionnaire (EQ-5D) at discharge and information on 1-year follow-up, resulting in a study population of 3786 patients. Results: The 1-year mortality was 3.2% (n = 120). Survivors reported fewer problems on the five dimensions of the EQ-5D as compared with non-survivors. A broad range of potential confounders were adjusted for, which reached a p

Published
2006

17. Patients enrolled in coronary intervention trials are not representative of patients in clinical practice: results from the Euro Heart Survey on Coronary Revascularization

Author

Hordijk-Trion M., Lenzen M., Wijns W., De Jaegere P., Simoons M. L., Scholte Op Reimer W. J. M., Bertrand M. E., Mercado N., Boersma E., Maier W., Meier B., Moris C., Piscione F., Sechtem U., Sergeant P., Stahle E., Vos J., Widimsky P., Unger F., Manini M., Bramley C., Laforest V., Taylor C., Del Gaiso S., Huber K., De Backer G., Sirakova V., Cerbak R., Thayssen P., Lehto S., Blanc J. -J., Delahaye F., Kobulia B., Zeymer U., Cokkinos D., Karlocai K., Graham I., Shelley E., Behar S., Maggioni A., Grabauskiene V., Deckers J., Asmussen I., Stepinska J., Goncalves L., Mareev V., Riecansky I., Kenda M. F., Alonso A., Lopez-Sendon J. L., Rosengren A., Buser P., Okay T., Sychov O., Fox K., Wood D., Crijns H., McGregor K., Mulder B., Priori S., Ryden L., Tavazzi L., Vahanian A., Vardas P., Sarkisyan K., Glogar H. D., Frick M., Pachinger O., Zwick R., Vrints C., Van Hertbruggen E., Vercammen M., Sysmans T., Schroeder E., Domange J., De Pril H., De Vriese J., Van Hecke T., Legrand V., Gillon M. -F., Richardy M., Doneux P., Petrov I., Jorgova J., Starcevic B., Eeckhout E., Berger A., Prudent V., Camenzind E., Masson N., Zambartas C., Kleanthous H., Stellova B., Aschermann M., Simek S., Kautzner J., Karmazin V., Svab P., Indrak J., Branny M., Hladilova K., Kala P., Cappelen H., Jensen L. O., Gitt A., Gehrke K., am Rhein L., Erbel R., Gutersohn A., Eggebrecht H., Al Khani M., Rosenberger A., Vogelsberg H., Klepzig H., Schmidt A., Silber S., Mau B., Leuner C., Czyborra K., Reuschling C., Muno E., Nauheim B., Kleber F., Rux S., Saad A., Elabady M., Beiras A. C., Fernandez J. S., del Arno F. N., Romo A. I., Fernandez J. M. C., Mayoreal A. R., Rebanal F. J. R., de la Borbolla M. G., Chaparro M., Brotons C., Miralda C. P., Vila i Perez S. I., Aviles F. F., de la Fuente Galan L., Vinuela P. T., de Torres F. M., Mora J., Rodriguez I. S., Bustamante I. P., Fernandez P. L. S., Torrent J. L. D., Gil J. L. D., Perpinan J., Motilla V. P., Juango M. S. A., Berjon-Reyero J., Moreno R. M., Guerrero J. C. F., Savolainen K., Syvanne M., Cohen-Solal A., Oboa A. -S., Bassand J. P., Espinosa D. P., Jouet V., Cedex B., Montalescot G., Gallois V., Daubert J. C., Clerc J. M., Machecourt J., Cottin Y., Walker D., Holland F., Prosser J., Muir L., Barber K., Cleland J. G. F., Cook J., Chapichadze Z., Christos I. S. A., Tsiavou N., Chrysohoou C., Manginas A., Terrovitis J., Kanakakis J., Vavuranakis M., Drakos S., Farmakis T., Samara C., Papakosta C., Bourantas C., Michalis L. K., Christos M., Foussas S., Adamopoulou E., Marketou M., Alotti N., Basa A. M., Vigh A., Preda I., Csoti E., Keltai M., Kerkovits G., Hendler A., Blatt A., Yakov B., Beyar R., Shefer A., Halon D., Bentzvi M., Avramovitch N., Bakst A., Saba K., Cafri C., Grosbard A., Sheva B., Margolis B., Suleiman K., Banai S., Meerkin D., Mosseri M., Guita P., Jabara R., Jafari J., Shitrit D. B., Ghasan D., Salameh D., Brezins M., van den Akker-Berman L., Guetta V., Hashomer T., Rozenman Y., Biagini A., Berti S., Ferrero M., Colombo A., Roccaforte R., Milici C., Scarpino L., Salvi A., Desideri A., Sabbadin D., Veneto C., Galassi A., Giuffrida G., Rognoni A., Vassanelli C., Paffoni P., Cioppa A., Rubino P., de Carlo M., Petronio A. S., Naccarella F., Saia F., Marzocchi A., Maranga S. S., Presbitero P., Valsecchi F., Esposito G., Santini N. M., Tubaro M., Erglis A., Narbute I., Kavoliuniene A., Zaliunas R., Navickas R., Luckute D., Subkovas E., Wagner D., Vermeer F., Lousberg A., Fransen H., Breeman A., Tebbe H., De Boer M. J., van der Wal M., Leenders C. M., Veerhoek M. J., Jansen C., Bijl M., Koppelaar C., den Linden V., Brons R., Widdershofen J. W. M. G., Broers H., Kontny F., Jonzon M., Wodniecki J., Tomasik A., Trusz-Gluza M., Nowak S., Ruzyllo W., Deptuch T., Marques J., Matias F., Madeira H., Oliveira J., Sargento L., Ionac A., Dragulescu I. S., Mut-Vitcu B., Maximov D., Dorobantu M., Apetrei E., Niculescu R., Petrescu V., Bucsa A., Deleanu D., Bucharest, Benedek I. S., Hintea T., Aronov D., Tikhomirova E., Kranjec I., Prokselj K., Kanic V., Sepetoglu A., Aytekin S., Aytekin V., Catakoglu A. B., Parlar H., Tufekcioglu S., Ozyedek Z., Baltali M., Kiziltan, Vukovic M., Neskovic A. N., Cardiology, Hordijk-Trion, M., Lenzen, M., Wijns, W., De Jaegere, P., Simoons, M. L., Scholte Op Reimer, W. J. M., Bertrand, M. E., Mercado, N., Boersma, E., Maier, W., Meier, B., Moris, C., Piscione, F., Sechtem, U., Sergeant, P., Stahle, E., Vos, J., Widimsky, P., Unger, F., Manini, M., Bramley, C., Laforest, V., Taylor, C., Del Gaiso, S., Huber, K., De Backer, G., Sirakova, V., Cerbak, R., Thayssen, P., Lehto, S., Blanc, J. -J., Delahaye, F., Kobulia, B., Zeymer, U., Cokkinos, D., Karlocai, K., Graham, I., Shelley, E., Behar, S., Maggioni, A., Grabauskiene, V., Deckers, J., Asmussen, I., Stepinska, J., Goncalves, L., Mareev, V., Riecansky, I., Kenda, M. F., Alonso, A., Lopez-Sendon, J. L., Rosengren, A., Buser, P., Okay, T., Sychov, O., Fox, K., Wood, D., Crijns, H., Mcgregor, K., Mulder, B., Priori, S., Ryden, L., Tavazzi, L., Vahanian, A., Vardas, P., Sarkisyan, K., Glogar, H. D., Frick, M., Pachinger, O., Zwick, R., Vrints, C., Van Hertbruggen, E., Vercammen, M., Sysmans, T., Schroeder, E., Domange, J., De Pril, H., De Vriese, J., Van Hecke, T., Legrand, V., Gillon, M. -F., Richardy, M., Doneux, P., Petrov, I., Jorgova, J., Starcevic, B., Eeckhout, E., Berger, A., Prudent, V., Camenzind, E., Masson, N., Zambartas, C., Kleanthous, H., Stellova, B., Aschermann, M., Simek, S., Kautzner, J., Karmazin, V., Svab, P., Indrak, J., Branny, M., Hladilova, K., Kala, P., Cappelen, H., Jensen, L. O., Gitt, A., Gehrke, K., am Rhein, L., Erbel, R., Gutersohn, A., Eggebrecht, H., Al Khani, M., Rosenberger, A., Vogelsberg, H., Klepzig, H., Schmidt, A., Silber, S., Mau, B., Leuner, C., Czyborra, K., Reuschling, C., Muno, E., Nauheim, B., Kleber, F., Rux, S., Saad, A., Elabady, M., Beiras, A. C., Fernandez, J. S., del Arno, F. N., Romo, A. I., Fernandez, J. M. C., Mayoreal, A. R., Rebanal, F. J. R., de la Borbolla, M. G., Chaparro, M., Brotons, C., Miralda, C. P., Vila i Perez, S. I., Aviles, F. F., de la Fuente Galan, L., Vinuela, P. T., de Torres, F. M., Mora, J., Rodriguez, I. S., Bustamante, I. P., Fernandez, P. L. S., Torrent, J. L. D., Gil, J. L. D., Perpinan, J., Motilla, V. P., Juango, M. S. A., Berjon-Reyero, J., Moreno, R. M., Guerrero, J. C. F., Savolainen, K., Syvanne, M., Cohen-Solal, A., Oboa, A. -S., Bassand, J. P., Espinosa, D. P., Jouet, V., Cedex, B., Montalescot, G., Gallois, V., Daubert, J. C., Clerc, J. M., Machecourt, J., Cottin, Y., Walker, D., Holland, F., Prosser, J., Muir, L., Barber, K., Cleland, J. G. F., Cook, J., Chapichadze, Z., Christos, I. S. A., Tsiavou, N., Chrysohoou, C., Manginas, A., Terrovitis, J., Kanakakis, J., Vavuranakis, M., Drakos, S., Farmakis, T., Samara, C., Papakosta, C., Bourantas, C., Michalis, L. K., Christos, M., Foussas, S., Adamopoulou, E., Marketou, M., Alotti, N., Basa, A. M., Vigh, A., Preda, I., Csoti, E., Keltai, M., Kerkovits, G., Hendler, A., Blatt, A., Yakov, B., Beyar, R., Shefer, A., Halon, D., Bentzvi, M., Avramovitch, N., Bakst, A., Saba, K., Cafri, C., Grosbard, A., Sheva, B., Margolis, B., Suleiman, K., Banai, S., Meerkin, D., Mosseri, M., Guita, P., Jabara, R., Jafari, J., Shitrit, D. B., Ghasan, D., Salameh, D., Brezins, M., van den Akker-Berman, L., Guetta, V., Hashomer, T., Rozenman, Y., Biagini, A., Berti, S., Ferrero, M., Colombo, A., Roccaforte, R., Milici, C., Scarpino, L., Salvi, A., Desideri, A., Sabbadin, D., Veneto, C., Galassi, A., Giuffrida, G., Rognoni, A., Vassanelli, C., Paffoni, P., Cioppa, A., Rubino, P., de Carlo, M., Petronio, A. S., Naccarella, F., Saia, F., Marzocchi, A., Maranga, S. S., Presbitero, P., Valsecchi, F., Esposito, G., Santini, N. M., Tubaro, M., Erglis, A., Narbute, I., Kavoliuniene, A., Zaliunas, R., Navickas, R., Luckute, D., Subkovas, E., Wagner, D., Vermeer, F., Lousberg, A., Fransen, H., Breeman, A., Tebbe, H., De Boer, M. J., van der Wal, M., Leenders, C. M., Veerhoek, M. J., Jansen, C., Bijl, M., Koppelaar, C., den Linden, V., Brons, R., Widdershofen, J. W. M. G., Broers, H., Kontny, F., Jonzon, M., Wodniecki, J., Tomasik, A., Trusz-Gluza, M., Nowak, S., Ruzyllo, W., Deptuch, T., Marques, J., Matias, F., Madeira, H., Oliveira, J., Sargento, L., Ionac, A., Dragulescu, I. S., Mut-Vitcu, B., Maximov, D., Dorobantu, M., Apetrei, E., Niculescu, R., Petrescu, V., Bucsa, A., Deleanu, D., Bucharest, Benedek, I. S., Hintea, T., Aronov, D., Tikhomirova, E., Kranjec, I., Prokselj, K., Kanic, V., Sepetoglu, A., Aytekin, S., Aytekin, V., Catakoglu, A. B., Parlar, H., Tufekcioglu, S., Ozyedek, Z., Baltali, M., Kiziltan, Vukovic, M., and Neskovic, A. N.

Subjects
Male, medicine.medical_specialty, Randomization, medicine.medical_treatment, Euro Heart Survey, Coronary Artery Disease, Revascularization, law.invention, Coronary artery disease, Randomized controlled trial, law, Internal medicine, Angioplasty, medicine, Humans, cardiovascular diseases, Angioplasty, Balloon, Coronary, Coronary Artery Bypass, CABG, Aged, Randomized Controlled Trials as Topic, business.industry, Coronary Artery Bypa, Patient Selection, PCI, Health Survey, Middle Aged, medicine.disease, Health Surveys, Surgery, Clinical trial, Stenosis, surgical procedures, operative, Clinical Trials, Phase III as Topic, Conventional PCI, Female, Cardiology and Cardiovascular Medicine, business, Human
Abstract

Aims: Revascularization in patients with coronary artery disease changed over the last two decades, favouring the number of patients treated by means of percutaneous coronary interventions (PCI) when compared with coronary artery bypass grafting (CABG). Many randomized controlled trials (RCTs) have been performed to compare these two competing revascularization techniques. Because of the strict enrolment criteria of RCTs in which highly selected patients are recruited, the applicability of the results may be limited in clinical practice. The current study evaluates to what extent patients in clinical practice were similar to those who participated in RCTs comparing PCI with CABG. Methods and results: Clinical characteristics and 1-year outcome of 4713 patients enrolled in the Euro Heart Survey on Coronary Revascularization were compared with 8647 patients who participated in 14 major RCTs, comparing PCI with CABG. In addition, we analysed which proportion of survey patients would have disqualified for trial participation (n = 3033, 64%), aiming at identifying differences between trial-eligible and trial-ineligible survey patients. In general, important differences were observed between trial participants and survey patients. Patients in clinical practice were older, more often had comorbid conditions, single-vessel disease, and left main stem stenosis when compared with trial participants. Almost identical differences were observed between trial-eligible and trial-ineligible survey patients. In clinical practice, PCI was the treatment of choice, even in patients who were trial-ineligible (46% PCI, 26% CABG, 28% medical). PCI remained the preferred treatment option in patients with multi-vessel disease (57% in trial-eligible and 40% in trial-ineligible patients, respectively, P < 0.001); yet, the risk profile of patients treated by PCI was better than that for patients treated either by CABG or by medical therapy. In the RCTs, there was no mortality difference between PCI and CABG. In clinical practice, however, we observed 1-year unadjusted survival benefit for PCI vs. CABG (2.9 vs. 5.4%, P < 0.001). Survival benefit was only observed in trial-ineligible patients (3.3 vs. 6.2%, P < 0.001). Conclusion: Many patients in clinical practice were not represented in RCTs. Moreover, only 36% of these patients were considered eligible for participating in a trial comparing PCI with CABG. We demonstrated that RCTs included younger patients with a better cardiovascular risk profile when compared with patients in everyday clinical practice. This study highlights the disparity between patients in clinical practice and patients in whom the studies that provide the evidence for treatment guidelines are performed. © The European Society of Cardiology 2006. All rights reserved.

Published
2006

18. A therapeutic Porphyromonas gingivalis gingipain vaccine induces neutralising IgG1 antibodies that protect against experimental periodontitis

Author

O'Brien-Simpson, NM, Holden, JA, Lenzo, JC, Tan, Y, Brammar, GC, Walsh, KA, Singleton, W, Orth, RKH, Slakeski, N, Cross, KJ, Darby, IB, Becher, D, Rowe, T, Morelli, AB, Hammet, A, Nash, A, Brown, A, Ma, B, Vingadassalom, D, McCluskey, J, Kleanthous, H, Reynolds, EC, O'Brien-Simpson, NM, Holden, JA, Lenzo, JC, Tan, Y, Brammar, GC, Walsh, KA, Singleton, W, Orth, RKH, Slakeski, N, Cross, KJ, Darby, IB, Becher, D, Rowe, T, Morelli, AB, Hammet, A, Nash, A, Brown, A, Ma, B, Vingadassalom, D, McCluskey, J, Kleanthous, H, and Reynolds, EC

Abstract

Porphyromonas gingivalis infected mice with an established P. gingivalis-specific inflammatory immune response were protected from developing alveolar bone resorption by therapeutic vaccination with a chimera (KAS2-A1) immunogen targeting the major virulence factors of the bacterium, the gingipain proteinases. Protection was characterised by an antigen-specific IgG1 isotype antibody and Th2 cell response. Adoptive transfer of KAS2-A1-specific IgG1 or IgG2 expressing B cells confirmed that IgG1-mediated protection. Furthermore, parenteral or intraoral administration of KAS2-A1-specific polyclonal antibodies protected against the development of P. gingivalis-induced bone resorption. The KAS2-A1-specific antibodies neutralised the gingipains by inhibiting: proteolytic activity, binding to host cells/proteins and co-aggregation with other periodontal bacteria. Combining key gingipain sequences into a chimera vaccine produced an effective therapeutic intervention that protected against P. gingivalis-induced periodontitis.

Published
2016

19. Prospects for treatment of Porphyromonas gingivalis-mediated disease - immune-based therapy

Author

Reynolds, EC, O'Brien-Simpson, N, Rowe, T, Nash, A, McCluskey, J, Vingadassalom, D, Kleanthous, H, Reynolds, EC, O'Brien-Simpson, N, Rowe, T, Nash, A, McCluskey, J, Vingadassalom, D, and Kleanthous, H

Abstract

Chronic periodontitis is an inflammatory disease of the supporting tissues of the teeth associated with a polymicrobial biofilm (subgingival plaque) accreted to the tooth which results in destruction of the tooth's supporting tissues. A characteristic feature of the disease-associated plaque is the emergence of proteolytic species. One of these species, Porphyromonas gingivalis has recently been described as a keystone pathogen as it dysregulates the host immune response to favour the polymicrobial biofilm disrupting homeostasis to cause dysbiosis and disease. The level of P. gingivalis in subgingival plaque above threshold levels (~10% of total bacterial cell load) has been demonstrated to predict imminent clinical attachment loss (disease progression) in humans. Porphyromonas gingivalis is found as microcolonies in the superficial layers of subgingival plaque adjacent to the periodontal pocket epithelium which helps explain the strong association with underlying tissue inflammation and disease at relatively low proportions (10%) of the total bacterial cell load of the plaque. The mouse periodontitis model has been used to show that inflammation is essential to allow establishment of P. gingivalis at the levels in plaque (10% or greater of total bacterial cell load) necessary to produce dysbiosis and disease. The extracellular proteinases "gingipains" (RgpA/B and Kgp) of P. gingivalis have been implicated as major virulence factors that are critical for dysbiosis and disease. This has resulted in the strategy of targeting the gingipains by vaccination. We have produced a recombinant immunogen which induces an immune response in mice that neutralises the proteolytic and host/bacterial binding functions of the gingipains. Using this immunogen as a therapeutic vaccine in mice already infected with P. gingivalis, we have shown that inflammation and alveolar bone loss can be substantially reduced. The protection was characterised by a predominant Th2 cytokine and antibo

Published
2015

21. Risk of Helicobacter pylori infection among long-term residents in developing countries

Author

Smalligan, R.D., Hyams, K.C., Becker, S.I., Tibbitts, T.J., Kleanthous, H., Frame, J.D., and Monath, T.P.

Abstract

The seroprevalence and incidence of Helicobacter pylori infection were determined among 312 North American missionaries who were serving in developing countries between 1967 and 1984. The majority (81%) resided in sub-Saharan Africa. When initially evaluated, the missionaries had a mean age of 40 years, 65% were female, and all were of white race/ethnicity. An ELISA showed that the initial prevalence of IgG antibody to H. pylori was 17%. After a mean of 7.4 years of service (1917 person-years of exposure), 37 (14%) of 259 initially seronegative subjects seroconverted to anti-H. pylori, giving an annual incidence of 1.9%. These data indicate a relatively higher risk of H. pylori infection among missionaries compared with an annual incidence of seroconversion of 0.3-1.0% in industrialized nations. Long-term residents in developing countries should be evaluated for H. pylori infection when gastrointestinal symptoms develop.

Published
1999
Full Text
View/download PDF

23. Formulations of single or multiple H. pylori antigens with DC Chol adjuvant induce protection by the systemic route in mice Optimal prophylactic combinations are different from therapeutic ones

Author

Sanchez, V., primary, Gimenez, S., additional, Haensler, J., additional, Geoffroy, C., additional, Rokbi, B., additional, Seguin, D., additional, Lissolo, L., additional, Harris, B., additional, Rizvi, F., additional, Kleanthous, H., additional, Monath, T., additional, Cadoz, M., additional, and Guy, B., additional

Published
2001
Full Text
View/download PDF

33. Evaluation of fingerprinting methods for identification of Helicobacter pylori strains.

Author

Clayton, C., Kleanthous, H., Dent, J., McNulty, C., and Tabaqchali, S.

Abstract

Variation amongst strains of Helicobacter pylori was examined byS-methionine-labelled protein SDS-PAGE (Radio-PAGE), immunoblot and DNA fingerprinting techniques. These methods allowed discrimination amongst isolates and showed total correlation. Pig and baboon gastric Helicobacter pylori-like organisms were found to be very similar to Helicobacter pylori by both Radio-PAGE and immunoblotting, whereas a Helicobacter mustelae isolate was markedly different. The HindIII restriction endonuclease digest patterns of Helicobacter pylori DNA illustrated the considerable genomic variation of this organism. The Radio-PAGE and immunoblot typing methods both gave precise identification of Helicobacter pylori strains, but Radio-PAGE was found to give higher resolution and represents a standardised universally applicable fingerprinting method for Helicobacter pylori. [ABSTRACT FROM AUTHOR]

Published
1991
Full Text
View/download PDF

35. Immunization against natural Helicobacter pylori infection in nonhuman primates.

Author

Dubois, A, Lee, C K, Fiala, N, Kleanthous, H, Mehlman, P T, and Monath, T

Abstract

Helicobacter pylori infection is widespread in some breeding groups of a rhesus monkey colony (71% H. pylori positive by 1 year), and the rate of seroconversion is also high. As a result, these groups can be used to test the safety and efficacy of an anti-H. pylori vaccine. Nine-month-old female animals were randomized to receive either 8 mg of recombinant urease (rUre) plus 25 microg of Escherichia coli heat-labile enterotoxin (LT) (n = 26) or placebo plus LT (n = 29), given four times at 1-week intervals followed by a booster 1 month later. Ten months after the start of the immunization, the animals were subjected to endoscopy and biopsy samples were obtained. H. pylori negativity was defined as no H. pylori growth by culture and no H. pylori observed at histology. By this criterion, 2 (7%) of 29 animals receiving placebo and 8 (31%) of 26 immunized animals were H. pylori negative (P < 0.035). In addition, antral gastritis score was significantly less in H. pylori-negative immunized monkeys than in H. pylori-positive animals, whether they were given rUre plus LT or placebo plus LT (P < 0.02 or P < 0.01, respectively). Interestingly, antral gastritis was also significantly less in H. pylori-positive animals given rUre plus LT than in H. pylori-positive animals given placebo plus LT (P < 0.02). However, quantitative cultures did not demonstrate significant differences between the two latter groups. It is concluded that oral administration of rUre vaccine plus LT significantly protects nonhuman primates against H. pylori infection while not causing undesirable side effects.

Published
1998

36. Rectal and intranasal immunizations with recombinant urease induce distinct local and serum immune responses in mice and protect against Helicobacter pylori infection.

Author

Kleanthous, H, Myers, G A, Georgakopoulos, K M, Tibbitts, T J, Ingrassia, J W, Gray, H L, Ding, R, Zhang, Z Z, Lei, W, Nichols, R, Lee, C K, Ermak, T H, and Monath, T P

Abstract

To determine the optimal inductive sites for immunization against Helicobacter pylori infection, the protective efficacy of recombinant urease (rUre) was assessed for mice given the vaccine by either the oral (p.o.), intranasal (i.n.), or rectal route. When mice were immunized with rUre (25 microg p.o. or rectally or 10 microg i.n.) plus heat-labile toxin from Escherichia coli as the mucosal adjuvant, all routes afforded protection against challenge with H. pylori, as indicated by a significant reduction in gastric urease activity (P < 0.0005) compared to that of sham-immunized controls. Quantitative H. pylori culture of stomach tissue demonstrated a >97% reduction in bacterial burden in mice immunized by all routes (P < 0.05). Induction of antiurease immunoglobulin A (IgA) levels in gastric luminal secretions after p.o. immunization was greater than after i.n. administration (means, 6.0 and 1.02 ng/ml, respectively) and was dependent upon challenge with H. pylori. However, immunization by the rectal route resulted in the generation of the highest levels of gastric antiurease IgA (mean, 40. 89 ng/ml), which was detectable prior to challenge with H. pylori. Immunohistochemical staining of stomach tissue for cells secreting urease-specific antibody and CD4(+) T cells showed levels of recruitment to be dependent upon challenge with H. pylori and equivalent for all routes. These results identify both the rectum and nasal passages as suitable inductive sites for urease immunization.

Published
1998

40. Three immunizations with Novavax's protein vaccines increase antibody breadth and provide durable protection from SARS-CoV-2.

Author

Lenart K, Arcoverde Cerveira R, Hellgren F, Ols S, Sheward DJ, Kim C, Cagigi A, Gagne M, Davis B, Germosen D, Roy V, Alter G, Letscher H, Van Wassenhove J, Gros W, Gallouët AS, Le Grand R, Kleanthous H, Guebre-Xabier M, Murrell B, Patel N, Glenn G, Smith G, and Loré K

Abstract

The immune responses to Novavax's licensed NVX-CoV2373 nanoparticle Spike protein vaccine against SARS-CoV-2 remain incompletely understood. Here, we show in rhesus macaques that immunization with Matrix-M TM adjuvanted vaccines predominantly elicits immune events in local tissues with little spillover to the periphery. A third dose of an updated vaccine based on the Gamma (P.1) variant 7 months after two immunizations with licensed NVX-CoV2373 resulted in significant enhancement of anti-spike antibody titers and antibody breadth including neutralization of forward drift Omicron variants. The third immunization expanded the Spike-specific memory B cell pool, induced significant somatic hypermutation, and increased serum antibody avidity, indicating considerable affinity maturation. Seven months after immunization, vaccinated animals controlled infection by either WA-1 or P.1 strain, mediated by rapid anamnestic antibody and T cell responses in the lungs. In conclusion, a third immunization with an adjuvanted, low-dose recombinant protein vaccine significantly improved the quality of B cell responses, enhanced antibody breadth, and provided durable protection against SARS-CoV-2 challenge., (© 2024. The Author(s).)

Published
2024
Full Text
View/download PDF

41. Enhancing Immunogenicity of a Thermostable, Efficacious SARS-CoV-2 Vaccine Formulation through Oligomerization and Adjuvant Choice.

Author

Khan MS, Jakob V, Singh R, Rajmani RS, Kumar S, Lemoine C, Kleanthous H, Ringe RP, Dubois PM, and Varadarajan R

Abstract

Currently deployed SARS-CoV-2 vaccines all require storage at refrigerated or sub-zero temperatures. We demonstrate that after month-long incubation at 37 °C, solubilization, and formulation with squalene-in-water emulsion adjuvant, a stabilized receptor binding domain retains immunogenicity and protective efficacy. We also examine the effects of trimerization of the stabilized RBD, as well as of additional adjuvants, on both B and T-cell responses. The additional emulsion or liposome-based adjuvants contained a synthetic TLR-4 ligand and/or the saponin QS-21. Trimerization enhanced immunogenicity, with significant antibody titers detectable after a single immunization. Saponin-containing adjuvants elicited enhanced immunogenicity relative to both emulsion and aluminum hydroxide adjuvanted formulations lacking these immunostimulants. Trimeric RBD formulated with liposomal based adjuvant containing both TLR-4 ligand and saponin elicited a strongly Th1 biased response, with ~10-fold higher neutralization titers than the corresponding aluminum hydroxide adjuvanted formulation. The SARS-CoV-2 virus is now endemic in humans, and it is likely that periodic updating of vaccine formulations in response to viral evolution will continue to be required to protect vulnerable individuals. In this context, it is desirable to have efficacious, thermostable vaccine formulations to facilitate widespread vaccine coverage, including in low- and middle-income countries, where global access rights to clinically de-risked adjuvants will be important moving forward.

Published
2023
Full Text
View/download PDF

42. Enhanced protective efficacy of a thermostable RBD-S2 vaccine formulation against SARS-CoV-2 and its variants.

Author

Mittal N, Kumar S, Rajmani RS, Singh R, Lemoine C, Jakob V, Bj S, Jagannath N, Bhat M, Chakraborty D, Pandey S, Jory A, Sa SS, Kleanthous H, Dubois P, Ringe RP, and Varadarajan R

Abstract

With the rapid emergence of variants of concern (VOC), the efficacy of currently licensed vaccines has reduced drastically. VOC mutations largely occur in the S1 subunit of Spike. The S2 subunit of SARS-CoV-2 is conserved and thus more likely to elicit broadly reactive immune responses that could improve protection. However, the contribution of the S2 subunit in improving the overall efficacy of vaccines remains unclear. Therefore, we designed, and evaluated the immunogenicity and protective potential of a stabilized SARS-CoV-2 Receptor Binding Domain (RBD) fused to a stabilized S2. Immunogens were expressed as soluble proteins with approximately fivefold higher purified yield than the Spike ectodomain and formulated along with Squalene-in-water emulsion (SWE) adjuvant. Immunization with S2 alone failed to elicit a neutralizing immune response, but significantly reduced lung viral titers in mice challenged with the heterologous Beta variant. In hamsters, SWE-formulated RS2 (a genetic fusion of stabilized RBD with S2) showed enhanced immunogenicity and efficacy relative to corresponding RBD and Spike formulations. Despite being based on the ancestral Wuhan strain of SARS-CoV-2, RS2 elicited broad neutralization, including against Omicron variants (BA.1, BA.5 and BF.7), and the clade 1a WIV-1 and SARS-CoV-1 strains. RS2 elicited sera showed enhanced competition with both S2 directed and RBD Class 4 directed broadly neutralizing antibodies, relative to RBD and Spike elicited sera. When lyophilized, RS2 retained antigenicity and immunogenicity even after incubation at 37 °C for a month. The data collectively suggest that the RS2 immunogen is a promising modality to combat SARS-CoV-2 variants., (© 2023. Springer Nature Limited.)

Published
2023
Full Text
View/download PDF

43. Antibody-mediated NK cell activation as a correlate of immunity against influenza infection.

Author

Boudreau CM, Burke JS 4th, Yousif AS, Sangesland M, Jastrzebski S, Verschoor C, Kuchel G, Lingwood D, Kleanthous H, De Bruijn I, Landolfi V, Sridhar S, and Alter G

Subjects
Humans, Aged, Immunity, Humoral, Antibodies, Viral, Killer Cells, Natural, Influenza, Human prevention & control, Influenza Vaccines
Abstract

Antibodies play a critical role in protection against influenza; yet titers and viral neutralization represent incomplete correlates of immunity. Instead, the ability of antibodies to leverage the antiviral power of the innate immune system has been implicated in protection from and clearance of influenza infection. Here, post-hoc analysis of the humoral immune response to influenza is comprehensively profiled in a cohort of vaccinated older adults (65 + ) monitored for influenza infection during the 2012/2013 season in the United States (NCT: 01427309). While robust humoral immune responses arose against the vaccine and circulating strains, influenza-specific antibody effector profiles differed in individuals that later became infected with influenza, who are deficient in NK cell activating antibodies to both hemagglutinin and neuraminidase, compared to individuals who remained uninfected. Furthermore, NK cell activation was strongly associated with the NK cell senescence marker CD57, arguing for the need for selective induction of influenza-specific afucosylated NK activating antibodies in older adults to achieve protection. High dose vaccination, currently used for older adults, was insufficient to generate this NK cell-activating humoral response. Next generation vaccines able to selectively bolster NK cell activating antibodies may be required to achieve protection in the setting of progressively senescent NK cells., (© 2023. Springer Nature Limited.)

Published
2023
Full Text
View/download PDF

44. Effects of aluminum-salt, CpG and emulsion adjuvants on the stability and immunogenicity of a virus-like particle displaying the SARS-CoV-2 receptor-binding domain (RBD).

Author

Kumru OS, Bajoria S, Kaur K, Hickey JM, Van Slyke G, Doering J, Berman K, Richardson C, Lien H, Kleanthous H, Mantis NJ, Joshi SB, and Volkin DB

Subjects
Mice, Animals, Humans, Aluminum, SARS-CoV-2, COVID-19 Vaccines, Emulsions, Adjuvants, Immunologic chemistry, Vaccines, Synthetic, Antibodies, Viral, Antibodies, Neutralizing, Spike Glycoprotein, Coronavirus, COVID-19, Vaccines, Virus-Like Particle
Abstract

Second-generation COVID-19 vaccines with improved immunogenicity (e.g., breadth, duration) and availability (e.g., lower costs, refrigerator stable) are needed to enhance global coverage. In this work, we formulated a clinical-stage SARS-CoV-2 receptor-binding domain (RBD) virus-like particle (VLP) vaccine candidate (IVX-411) with widely available adjuvants. Specifically, we assessed the in vitro storage stability and in vivo mouse immunogenicity of IVX-411 formulated with aluminum-salt adjuvants (Alhydrogel™, AH and Adjuphos™, AP), without or with the TLR-9 agonist CpG-1018™ (CpG), and compared these profiles to IVX-411 adjuvanted with an oil-in-water nano-emulsion (AddaVax™, AV). Although IVX-411 bound both AH and AP, lower binding strength of antigen to AP was observed by Langmuir binding isotherms. Interestingly, AH- and AP-adsorbed IVX-411 had similar storage stability profiles as measured by antigen-binding assays (competitive ELISAs), but the latter displayed higher pseudovirus neutralizing titers (pNT) in mice, at levels comparable to titers elicited by AV-adjuvanted IVX-411. CpG addition to alum (AP or AH) resulted in a marginal trend of improved pNTs in stressed samples only, yet did not impact the storage stability profiles of IVX-411. In contrast, previous work with AH-formulations of a monomeric RBD antigen showed greatly improved immunogenicity and decreased stability upon CpG addition to alum. At elevated temperatures (25, 37°C), IVX-411 formulated with AH or AP displayed decreased in vitro stability compared to AV-formulated IVX-411and this rank-ordering correlated with in vivo performance (mouse pNT values). This case study highlights the importance of characterizing antigen-adjuvant interactions to develop low cost, aluminum-salt adjuvanted recombinant subunit vaccine candidates.

Published
2023
Full Text
View/download PDF

45. Nanoalum Formulations Containing Aluminum Hydroxide and CpG 1018 TM Adjuvants: The Effect on Stability and Immunogenicity of a Recombinant SARS-CoV-2 RBD Antigen.

Author

Bajoria S, Kumru OS, Doering J, Berman K, Slyke GV, Prigodich A, Rodriguez-Aponte SA, Kleanthous H, Love JC, Mantis NJ, Joshi SB, and Volkin DB

Abstract

Aluminum-salt vaccine adjuvants (alum) are commercially available as micron-sized particles with varying chemical composition and crystallinity. There are reports of enhanced adjuvanticity when the alum's particle size is reduced to the nanometer range. Previously, we demonstrated that a recombinant receptor-binding domain (RBD)-based COVID-19 vaccine candidate (RBD-J; RBD-L452K-F490W) formulated with aluminum hydroxide (Alhydrogel ® ; AH) and CpG 1018™ (CpG) adjuvants induced potent neutralizing antibody responses in mice yet displayed instability during storage. In this work, we evaluated whether sonication of AH to the nanometer size range (nanoAH) could further enhance immunogenicity or improve storage stability of the above formulation. The addition of CpG to nanoAH (at mouse doses), however, caused re-agglomeration of nanoAH. AH-CpG interactions were evaluated by Langmuir binding isotherms and zeta potential measurements, and stabilized nanoAH + CpG formulations of RBD-J were then designed by (1) optimizing CpG:Aluminum dose ratios or (2) adding a small-molecule polyanion (phytic acid, PA). Compared with the micron-sized AH + CpG formulation, the two stabilized nanoAH + CpG formulations of RBD-J demonstrated no enhancement in SARS-CoV-2 pseudovirus neutralizing titers in mice, but the PA-containing nanoAH + CpG formulation showed improved RBD-J storage stability trends (at 4, 25, and 37 °C). The formulation protocols presented herein can be employed to evaluate the potential benefits of the nanoAH + CpG adjuvant combination with other vaccine antigens in different animal models., Competing Interests: S.A.R.-A. and J.C.L. have filed a patent related to the RBD-L452K-F490W (RBD-J) sequence. J.C.L. has interests in Sunflower Therapeutics PBC, Honeycomb Biotechnologies, OneCyte Biotechnologies, QuantumCyte, and Repligen. J.C.L&rsquo;s interests are reviewed and managed under MIT&rsquo;s policies for potential conflicts of interest.

Published
2023
Full Text
View/download PDF

46. Broadly neutralizing antibodies against sarbecoviruses generated by immunization of macaques with an AS03-adjuvanted COVID-19 vaccine.

Author

Feng Y, Yuan M, Powers JM, Hu M, Munt JE, Arunachalam PS, Leist SR, Bellusci L, Kim J, Sprouse KR, Adams LE, Sundaramurthy S, Zhu X, Shirreff LM, Mallory ML, Scobey TD, Moreno A, O'Hagan DT, Kleanthous H, Villinger FJ, Veesler D, King NP, Suthar MS, Khurana S, Baric RS, Wilson IA, and Pulendran B

Subjects
Animals, Humans, Mice, Broadly Neutralizing Antibodies, COVID-19 Vaccines, Macaca, SARS-CoV-2, Immunization, Vaccination, Antibodies, Monoclonal, Antibodies, Viral, Antibodies, Neutralizing, Severe acute respiratory syndrome-related coronavirus, COVID-19 prevention & control
Abstract

The rapid emergence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants that evade immunity elicited by vaccination has placed an imperative on the development of countermeasures that provide broad protection against SARS-CoV-2 and related sarbecoviruses. Here, we identified extremely potent monoclonal antibodies (mAbs) that neutralized multiple sarbecoviruses from macaques vaccinated with AS03-adjuvanted monovalent subunit vaccines. Longitudinal analysis revealed progressive accumulation of somatic mutation in the immunoglobulin genes of antigen-specific memory B cells (MBCs) for at least 1 year after primary vaccination. Antibodies generated from these antigen-specific MBCs at 5 to 12 months after vaccination displayed greater potency and breadth relative to those identified at 1.4 months. Fifteen of the 338 (about 4.4%) antibodies isolated at 1.4 to 6 months after the primary vaccination showed potency against SARS-CoV-2 BA.1, despite the absence of serum BA.1 neutralization. 25F9 and 20A7 neutralized authentic clade 1 sarbecoviruses (SARS-CoV, WIV-1, SHC014, SARS-CoV-2 D614G, BA.1, and Pangolin-GD) and vesicular stomatitis virus-pseudotyped clade 3 sarbecoviruses (BtKY72 and PRD-0038). 20A7 and 27A12 showed potent neutralization against all SARS-CoV-2 variants and multiple Omicron sublineages, including BA.1, BA.2, BA.3, BA.4/5, BQ.1, BQ.1.1, and XBB. Crystallography studies revealed the molecular basis of broad and potent neutralization through targeting conserved sites within the RBD. Prophylactic protection of 25F9, 20A7, and 27A12 was confirmed in mice, and administration of 25F9 particularly provided complete protection against SARS-CoV-2, BA.1, SARS-CoV, and SHC014 challenge. These data underscore the extremely potent and broad activity of these mAbs against sarbecoviruses.

Published
2023
Full Text
View/download PDF

47. Effect of adjuvanting RBD-dimer-based subunit COVID-19 vaccines with Sepivac SWE™.

Author

Xu S, Duan H, An Y, Jin X, Duan M, Dubois PM, Huang Y, Xu K, Du H, Kleanthous H, Dai L, and Gao GF

Subjects
Adjuvants, Vaccine, Protein Multimerization, Antibodies, Viral immunology, SARS-CoV-2 genetics, Mutation, Mice, Inbred BALB C, Humans, Animals, Mice, Binding Sites, Cell Line, COVID-19 Vaccines
Abstract

Protein subunit vaccines have been widely used to combat infectious diseases, including the current COVID-19 pandemic. Adjuvants play the key role in shaping the quality and magnitude of the immune response to protein and inactivated vaccines. We previously developed a protein subunit COVID-19 vaccine, termed ZF2001, based on an aluminium hydroxide-adjuvanted tandem-repeat dimeric receptor-binding domain (RBD) of the viral spike (S) protein. Here, we described the use of a squalene-based oil-in-water adjuvant, Sepivac SWE™ (abbreviated to SWE), to further improve the immunogenicity of this RBD-dimer-based subunit vaccines. Compared with ZF2001, SWE adjuvant enhanced the antibody and CD4 + T-cell responses in mice with at least 10 fold of dose sparing compared with ZF2001 adjuvanted with aluminium hydroxide. SWE-adjuvanted vaccine protected mice against SARS-CoV-2 challenge. To ensure adequate protection against the currently circulating Omicron variant, we evaluated this adjuvant in combination with Delta-Omicron chimeric RBD-dimer. SWE significantly increased antibody responses compared with aluminium hydroxide adjuvant and afforded greater neutralization breadth. These data highlight the advantage of emulsion-based adjuvants to elevate the protective immune response of protein subunit COVID-19 vaccines., Competing Interests: Declaration of Competing Interest Y.A., K.X., L.D., and G.F.G. are listed in the patent as the inventors of the RBD-dimer as a betacoronavirus vaccine. The patent has been licensed to Anhui Zhifei Longcom for protein subunit COVID-19 vaccine development. All other authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2023
Full Text
View/download PDF

48. Pre-existing Fc profiles shape the evolution of neutralizing antibody breadth following influenza vaccination.

Author

Boudreau CM, Burke JS 4th, Roederer AL, Gorman MJ, Mundle S, Lingwood D, Delagrave S, Sridhar S, Ross TM, Kleanthous H, and Alter G

Subjects
Humans, Animals, Mice, Antibodies, Neutralizing, Hemagglutinin Glycoproteins, Influenza Virus, Antibodies, Viral, Vaccination, Influenza, Human prevention & control, Influenza Vaccines
Abstract

Under the ever-present threat of a pandemic influenza strain, the evolution of a broadly reactive, neutralizing, functional, humoral immune response may hold the key to protection against both circulating and emerging influenza strains. We apply a systems approach to profile hemagglutinin- and neuraminidase-specific humoral signatures that track with the evolution of broad immunity in a cohort of vaccinated individuals and validate these findings in a second longitudinal cohort. Multivariate analysis reveals the presence of a unique pre-existing Fcγ-receptor-binding antibody profile in individuals that evolved broadly reactive hemagglutination inhibition activity (HAI), marked by the presence of elevated levels of pre-existing FCGR2B-binding antibodies. Moreover, vaccination with FCGR2B-binding antibody-opsonized influenza results in enhanced antibody titers and HAI activity in a murine model. Together, these data suggest that pre-existing FCGR2B binding antibodies are a key correlate of the evolution of broadly protective influenza-specific antibodies, providing insight for the design of next-generation influenza vaccines., Competing Interests: Declaration of interests G.A. is an equity holder in Seromyx Systems and Leyden Labs and is an employee of Moderna. C.M.B. is an employee and equity holder of Leyden Labs. S.M., S.S., and H.K. were/are employees of Sanofi Pasteur, Inc., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
Full Text
View/download PDF

49. Immunogenicity and protective efficacy of GBP510/AS03 vaccine against SARS-CoV-2 delta challenge in rhesus macaques.

Author

Jacob-Dolan C, Yu J, McMahan K, Giffin V, Chandrashekar A, Martinot AJ, Anioke T, Powers OC, Hall K, Hope D, Miller J, Hachmann NP, Chung B, Gardner S, Sellers D, Barrett J, Lewis MG, Andersen H, Kleanthous H, Seo KW, Lee SJ, Park YW, Kim H, and Barouch DH

Abstract

Despite the availability of several effective SARS-CoV-2 vaccines, additional vaccines will be required for optimal global vaccination. In this study, we investigate the immunogenicity and protective efficacy of the GBP510 protein subunit vaccine adjuvanted with AS03, which has recently been authorized for marketing in South Korea under the trade name SKYCovione TM . The antigen in GBP510/AS03 is a two-part recombinant nanoparticle, which displays 60 receptor binding domain (RBD) proteins of SARS-CoV-2 Spike on its surface. In this study we show that GBP510/AS03 induced robust immune responses in rhesus macaques and protected against a high-dose SARS-CoV-2 Delta challenge. We vaccinated macaques with two or three doses of GBP510/AS03 matched to the ancestral Wuhan strain of SARS-CoV-2 or with two doses of GBP510/AS03 matched to the ancestral strain and one dose matched to the Beta strain. Following the challenge with Delta, the vaccinated macaques rapidly controlled the virus in bronchoalveolar lavage and nasal swabs. Binding and neutralizing antibody responses prior to challenge correlated with protection against viral replication postchallenge. These data are consistent with data with this vaccine from the phase 3 clinical trial., (© 2023. The Author(s).)

Published
2023
Full Text
View/download PDF

50. Molecular engineering of a cryptic epitope in Spike RBD improves manufacturability and neutralizing breadth against SARS-CoV-2 variants.

Author

Rodriguez-Aponte SA, Dalvie NC, Wong TY, Johnston RS, Naranjo CA, Bajoria S, Kumru OS, Kaur K, Russ BP, Lee KS, Cyphert HA, Barbier M, Rao HD, Rajurkar MP, Lothe RR, Shaligram US, Batwal S, Chandrasekaran R, Nagar G, Kleanthous H, Biswas S, Bevere JR, Joshi SB, Volkin DB, Damron FH, and Love JC

Subjects
Humans, Animals, Mice, Epitopes genetics, COVID-19 Serotherapy, Spike Glycoprotein, Coronavirus genetics, Antibodies, Neutralizing, Antibodies, Viral, Mice, Transgenic, SARS-CoV-2 genetics, COVID-19 prevention & control
Abstract

There is a continued need for sarbecovirus vaccines that can be manufactured and distributed in low- and middle-income countries (LMICs). Subunit protein vaccines are manufactured at large scales at low costs, have less stringent temperature requirements for distribution in LMICs, and several candidates have shown protection against SARS-CoV-2. We previously reported an engineered variant of the SARS-CoV-2 Spike protein receptor binding domain antigen (RBD-L452K-F490W; RBD-J) with enhanced manufacturability and immunogenicity compared to the ancestral RBD. Here, we report a second-generation engineered RBD antigen (RBD-J6) with two additional mutations to a hydrophobic cryptic epitope in the RBD core, S383D and L518D, that further improved expression titers and biophysical stability. RBD-J6 retained binding affinity to human convalescent sera and to all tested neutralizing antibodies except antibodies that target the class IV epitope on the RBD core. K18-hACE2 transgenic mice immunized with three doses of a Beta variant of RBD-J6 displayed on a virus-like particle (VLP) generated neutralizing antibodies (nAb) to nine SARS-CoV-2 variants of concern at similar levels as two doses of Comirnaty. The vaccinated mice were also protected from challenge with Alpha or Beta SARS-CoV-2. This engineered antigen could be useful for modular RBD-based subunit vaccines to enhance manufacturability and global access, or for further development of variant-specific or broadly acting booster vaccines., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Sergio Andre Rodriguez-Aponte, Neil Chandra Dalvie, and J. Christopher Love have filed a patent related to the RBD-L452K-F490W (RBD-J) sequence. J. Christopher Love has interests in Sunflower Therapeutics PBC, Honeycomb Biotechnologies, OneCyte Biotechnologies, QuantumCyte, and Repligen. J.C.L.’s interests are reviewed and managed under MIT’s policies for potential conflicts of interest. Harish D. Rao, Meghraj P. Rajurkar, Rakesh R. Lothe, Umesh S. Shaligram, Saurabh Batwal, Rahul Chandrasekaran, Gaurav Nagar are employees of Serum Institute of India Pvt. Ltd. Sumi Biswas is an employee of SpyBiotech Limited., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2023
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results