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Raeven RH, Brummelman J, Pennings JLA, van der Maas L, Helm K, Tilstra W, van der Ark A, Sloots A, van der Ley P, van Eden W, Jiskoot W, van Riet E, van Els CA, Kersten GF, Han WG, Metz B. Molecular and cellular signatures underlying superior immunity against Bordetella pertussis upon pulmonary vaccination. Mucosal Immunol 2018; 11:979-993. [PMID: 28930286 DOI: 10.1038/mi.2017.81] [Citation(s) in RCA: 27] [Impact Index Per Article: 4.5] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/22/2017] [Accepted: 08/15/2017] [Indexed: 02/04/2023]
Abstract
Mucosal immunity is often required for protection against respiratory pathogens but the underlying cellular and molecular mechanisms of induction remain poorly understood. Here, systems vaccinology was used to identify immune signatures after pulmonary or subcutaneous immunization of mice with pertussis outer membrane vesicles. Pulmonary immunization led to improved protection, exclusively induced mucosal immunoglobulin A (IgA) and T helper type 17 (Th17) responses, and in addition evoked elevated systemic immunoglobulin G (IgG) antibody levels, IgG-producing plasma cells, memory B cells, and Th17 cells. These adaptive responses were preceded by unique local expression of genes of the innate immune response related to Th17 (e.g., Rorc) and IgA responses (e.g., Pigr) in addition to local and systemic secretion of Th1/Th17-promoting cytokines. This comprehensive systems approach identifies the effect of the administration route on the development of mucosal immunity, its importance in protection against Bordetella pertussis, and reveals potential molecular correlates of vaccine immunity to this reemerging pathogen.
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Affiliation(s)
- R Hm Raeven
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands.,Division of Drug Delivery Technology, Cluster BioTherapeutics, Leiden Academic Centre for Drug Research, Leiden, The Netherlands
| | - J Brummelman
- Centre for Infectious Disease Control, National Institute for Public Health and the Environment, Bilthoven, The Netherlands.,Department of Infectious Diseases and Immunology, Utrecht University, Utrecht, The Netherlands
| | - J L A Pennings
- Centre for Health Protection, National Institute for Public Health and the Environment, Bilthoven, The Netherlands
| | - L van der Maas
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands
| | - K Helm
- Centre for Infectious Disease Control, National Institute for Public Health and the Environment, Bilthoven, The Netherlands
| | - W Tilstra
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands
| | - A van der Ark
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands
| | - A Sloots
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands
| | - P van der Ley
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands
| | - W van Eden
- Department of Infectious Diseases and Immunology, Utrecht University, Utrecht, The Netherlands
| | - W Jiskoot
- Division of Drug Delivery Technology, Cluster BioTherapeutics, Leiden Academic Centre for Drug Research, Leiden, The Netherlands
| | - E van Riet
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands
| | - C Acm van Els
- Centre for Infectious Disease Control, National Institute for Public Health and the Environment, Bilthoven, The Netherlands
| | - G Fa Kersten
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands.,Division of Drug Delivery Technology, Cluster BioTherapeutics, Leiden Academic Centre for Drug Research, Leiden, The Netherlands
| | - W Gh Han
- Centre for Infectious Disease Control, National Institute for Public Health and the Environment, Bilthoven, The Netherlands
| | - B Metz
- Institute for Translational Vaccinology (Intravacc), Bilthoven, The Netherlands
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Huang H, Han WG, Noodleman L, Grynszpan F. Multiple reactive immunization towards the hydrolysis of organophosphorus nerve agents: hapten design and synthesis. Bioorg Med Chem 2001; 9:3185-95. [PMID: 11711294 DOI: 10.1016/s0968-0896(01)00231-0] [Citation(s) in RCA: 7] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/19/2022]
Abstract
We designed and synthesized a series of haptens to elicit catalytic antibodies with phosphatase activity against nerve agents. The design is based on the novel concept of multiple reactive immunization which aims to afford two or more catalytic residues within the antibody's binding cleft. The haptens showed the desired reactivity in vitro and were submitted for immunization.
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Affiliation(s)
- H Huang
- The Scripps Research Institute, Department of Molecular Biology, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA
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Abstract
Hybrid quantum mechanical/molecular mechanical (QM/MM) calculations using restricted and unrestricted Hartree-Fock and B3LYP ab initio (QM) and Amber force field (MM), respectively, have been applied to study the catalytic site of papain in both free and substrate bonded forms. Ab initio geometry optimizations have been performed for the active site of papain and the N-methyl-acetamide (NMA)-papain complex within the molecular mechanical treatment of the protein environment. A covalent tetrahedral intermediate structure could be obtained only when the amide N atom of the substrate molecule was protonated through a proton transfer from the His-159 in the catalytic site. Our results support the previous assumption that a proton transfer from His-159 to the amide N atom of the substrate occurs prior to or concerted with the nucleophilic attack of the Cys-25 sulfur atom to the carbonyl group of the substrate. The electron correlation effect will reduce the proton transfer barrier. Therefore, this proton transfer can be easily observed in the B3LYP/6-31G* calculations. The HF/6-31G* method overestimates the reaction barrier against this proton transfer. The sulfur atom of Cys-25 and the imidazole ring of His-159 are found to be coplanar in the free form of the enzyme. However, the rotation of the imidazole ring of His-159 was observed during the formation of the tetrahedral intermediate. Without the papain environment, the coplanar thiolate-imidazolium ion pair RS-...ImH+ is much less stable than the neutral form of RSH....Im. Within the protein environment, however, the thiolate-imidazolium ion pair becomes more stable than its neutral form by 4.1 and 0.4 kcal/mol in HF/6-31G* and B3LYP/6-31G* calculations, respectively. The barrier of proton transfer from S-H group of Cys-25 to the imidazole ring of His-159 was reduced from 22.0 kcal/mol to 15.2 kcal/mol by the protein environment in HF/6-31G* calculations. This barrier is found to be much smaller (2.5 kcal/mol) in B3LYP/6-31G* calculations.
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Affiliation(s)
- W G Han
- Department of Molecular Biophysics, German Cancer Research Center, Heidelberg
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Abstract
Based on the quasi-continuity model, and using the method of group theory, we studied the normal vibrations of the VL- and the CHL-beta-barrels in an IgG molecule. We put emphasis on the Raman- and the infrared-active normal modes. The Raman modes we obtained include both the breathing motion mode (or the dominant low-frequency mode) which corresponds to the maximum peak in the Raman spectrum, and the normal modes that correspond to the lower peaks. Our calculated vibration frequencies are found to be in good agreement with the experimental results observed by Painter et al. (Biopolymers 20 (1981) 243). The method and work presented in this paper may improve Chou's quasi-continuity theory in calculating the vibrational modes of a beta-barrel protein.
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Affiliation(s)
- W G Han
- Department of Physics, Tianjin University, People's Republic of China
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