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1.
PLoS Comput Biol ; 8(2): e1002367, 2012.
Article in English | MEDLINE | ID: mdl-22359487

ABSTRACT

Previous studies have reported the production of malformed virus-like-particles (VLP) in recombinant host systems. Here we computationally investigate the case of a large triple-layered rotavirus VLP (RLP). In vitro assembly, disassembly and reassembly data provides strong evidence of microscopic reversibility of RLP assembly. Light scattering experimental data also evidences a slow and reversible assembly untypical of kinetic traps, thus further strengthening the fidelity of a thermodynamically controlled assembly. In silico analysis further reveals that under favourable conditions particles distribution is dominated by structural subunits and completely built icosahedra, while other intermediates are present only at residual concentrations. Except for harshly unfavourable conditions, assembly yield is maximised when proteins are provided in the same VLP protein mass composition. The assembly yield decreases abruptly due to thermodynamic equilibrium when the VLP protein mass composition is not obeyed. The latter effect is more pronounced the higher the Gibbs free energy of subunit association is and the more complex the particle is. Overall this study shows that the correct formation of complex multi-layered VLPs is restricted to a narrow range of association energies and protein concentrations, thus the choice of the host system is critical for successful assembly. Likewise, the dynamic control of intracellular protein expression rates becomes very important to minimize wasted proteins.


Subject(s)
Computational Biology/methods , Rotavirus/physiology , Animals , Capsid/chemistry , Insecta , Kinetics , Light , Models, Statistical , Models, Theoretical , Scattering, Radiation , Temperature , Thermodynamics , Viral Proteins/biosynthesis , Virus Assembly
2.
Expert Rev Vaccines ; 9(10): 1149-76, 2010 Oct.
Article in English | MEDLINE | ID: mdl-20923267

ABSTRACT

Virus-like particles (VLPs) are multiprotein structures that mimic the organization and conformation of authentic native viruses but lack the viral genome, potentially yielding safer and cheaper vaccine candidates. A handful of prophylactic VLP-based vaccines is currently commercialized worldwide: GlaxoSmithKline's Engerix (hepatitis B virus) and Cervarix (human papillomavirus), and Merck and Co., Inc.'s Recombivax HB (hepatitis B virus) and Gardasil (human papillomavirus) are some examples. Other VLP-based vaccine candidates are in clinical trials or undergoing preclinical evaluation, such as, influenza virus, parvovirus, Norwalk and various chimeric VLPs. Many others are still restricted to small-scale fundamental research, despite their success in preclinical tests. This article focuses on the essential role of VLP technology in new-generation vaccines against prevalent and emergent diseases. The implications of large-scale VLP production are discussed in the context of process control, monitorization and optimization. The main up- and down-stream technical challenges are identified and discussed accordingly. Successful VLP-based vaccine blockbusters are briefly presented concomitantly with the latest results from clinical trials and the recent developments in chimeric VLP-based technology for either therapeutic or prophylactic vaccination.


Subject(s)
Vaccines, Virus-Like Particle , Viral Vaccines , Virus Diseases/prevention & control , Animals , Biotechnology , Cell Line , Clinical Trials as Topic , Humans , Nanotechnology , Vaccination , Vaccines, Virus-Like Particle/immunology , Virus Assembly , Virus Diseases/immunology
3.
Talanta ; 80(4): 1561-8, 2010 Feb 15.
Article in English | MEDLINE | ID: mdl-20082815

ABSTRACT

A new application of intact cell MALDI-TOF MS (ICM-MS) methodology is described for monitoring the production of viral proteins and viral like particles using the baculovirus/insect cells expression system. Various MALDI matrices, cell preparation methods, cell/matrix volume ratio and MALDI target application procedures were tested in order to obtain the highest intensity and reproducibility of intact insect cell spectra. The web interface, SPECLUST (http://bioinfo.thep.lu.se/speclust.html), was used to construct dendograms based on MALDI-TOF MS data for evaluation of fingerprint changes. We demonstrate that insect cell mass spectrum fingerprints are characteristic of each viral protein/particle production. Their changes along the time for each production experiment correlate with the intracellular viral protein content determined by Western blot. This work shows that this simple, fast and low cost assay, which requires low sample volume, is a powerful analytical tool that complements the most common analytical methods used for monitoring bioprocesses and has potential application in the biotechnological industry namely, in the production of recombinant proteins.


Subject(s)
Mass Spectrometry/methods , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization/methods , Viral Proteins/blood , Cell Nucleus
4.
Biotechnol Bioeng ; 104(4): 674-86, 2009 Nov 01.
Article in English | MEDLINE | ID: mdl-19623564

ABSTRACT

Virus-like particles constitute potentially relevant vaccine candidates. Nevertheless, their behavior in vitro and assembly process needs to be understood in order to improve their yield and quality. In this study we aimed at addressing these issues and for that purpose triple- and double-layered rotavirus-like particles (TLP 2/6/7 and DLP 2/6, respectively) size and zeta potential were measured using dynamic light scattering at different physicochemical conditions, namely pH, ionic strength, and temperature. Both TLP and DLP were stable within a pH range of 3-7 and at 5-25 degrees C. Aggregation occurred at 35-45 degrees C and their disassembly became evident at 65 degrees C. The isoelectric points of TLP and DLP were 3.0 and 3.8, respectively. In vitro kinetics of TLP disassembly was monitored. Ionic strength, temperature, and the chelating agent employed determined disassembly kinetics. Glycerol (10%) stabilized TLP by preventing its disassembly. Disassembled TLP was able to reassemble by dialysis at high calcium conditions. VP7 monomers were added to DLP in the presence of calcium to follow in vitro TLP assembly kinetics; its assembly rate being mostly affected by pH. Finally, DLP and TLP were found to coexist under certain conditions as determined from all reaction products analyzed by capillary electrophoresis. Overall, these results contribute to the design of new strategies for the improvement of TLP yield and quality by reducing the VP7 detachment from TLP.


Subject(s)
Rotavirus/metabolism , Viral Proteins/metabolism , Virosomes/metabolism , Hydrogen-Ion Concentration , Isoelectric Point , Kinetics , Macromolecular Substances/metabolism , Osmolar Concentration , Protein Binding , Temperature , Viral Proteins/chemistry
5.
J Chromatogr B Analyt Technol Biomed Life Sci ; 874(1-2): 89-94, 2008 Oct 15.
Article in English | MEDLINE | ID: mdl-18805074

ABSTRACT

Rotavirus VP7 is a glycoprotein that forms the viral capsid outerlayer and is essential to the correct assembly of triple-layered rotavirus-like particles (RLPs). In this work, a novel purification strategy was designed to allow obtaining highly pure monomeric VP7 required for the RLPs in vitro assembly. VP7 production kinetics in baculovirus-insect cells at cell concentration at infection (CCI) of 1x10(6)cellsmL(-1) was compared in terms of VP7/glycoprotein 64 (gp64) ratio at different multiplicity of infection (MOI). The best productivity was achieved at MOI of 0.1plaque forming unit (pfu)cell(-1) and time of harvest of 80h post-infection. After preliminary clarification steps, the proteins eluted from Concanavalin A were concentrated and loaded onto size exclusion chromatography. The polishing step was anion exchange chromatography with Mono Q. The high resolution of this column resulted in separation of monomers from dimers of VP7. Overall, the purification protocol yielded high level of purity (>90%). Purified VP7 was characterized by MALDI-TOF mass spectrometry and SDS-capillary gel electrophoresis. The MW and apparent MW were determined as 31.6 and 39kDa, respectively, confirming the efficacy of the proposed purification strategy that now enables RLPs assembly studies.


Subject(s)
Antigens, Viral/isolation & purification , Capsid Proteins/isolation & purification , Virus Assembly/physiology , Animals , Antigens, Viral/genetics , Antigens, Viral/metabolism , Blotting, Western , Capsid Proteins/genetics , Capsid Proteins/metabolism , Cell Line , Electrophoresis, Polyacrylamide Gel , Recombinant Proteins/isolation & purification , Recombinant Proteins/metabolism
6.
J Chromatogr A ; 1192(1): 166-72, 2008 May 23.
Article in English | MEDLINE | ID: mdl-18378247

ABSTRACT

This work describes the application of a sodium dodecyl sulfate-capillary gel electrophoresis (SDS-CGE) method for the analysis of triple 2/6/7 and double-layered 2/6 rotavirus-like particles (RLPs), candidate vaccines against rotavirus infection. SDS-CGE analysis of RLPs resulted in peaks that could be attributed to the viral proteins (VP2, VP6 and VP7) according to their apparent molecular mass (MWapp). Samples containing the glycoprotein VP7 were analysed after deglycosylation with PNGase F. Upon deglycosylation, VP7 MWapp decreased 4-7kDa consistent with a degree of glycosylation of approximately 12-21%. VP2 was eventually detected in the form of more than one related proteins, despite the small areas due to the relative low mass proportion of this protein in the particle (16%). The effect of analytical parameters such as capillary temperature on method performance was evaluated. MWapp values estimated by SDS-CGE were compared with values obtained by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. The method described in this work proved to be fast, consistent and reproducible, representing a feasible alternative to the laborious conventional electrophoresis for the characterization of RLPs.


Subject(s)
Electrophoresis, Capillary/methods , Rotavirus/isolation & purification , Antigens, Viral/analysis , Blotting, Western , Capsid Proteins/analysis , Electrophoresis, Polyacrylamide Gel , Microscopy, Electron, Transmission , Molecular Weight , Sodium Dodecyl Sulfate , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
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