Purification of the major envelope protein GP5 of porcine reproductive and respiratory syndrome virus (PRRSV) from native virions

Matanin, Brad Matthew

13 June 2007

Porcine reproductive and respiratory syndrome virus (PRRSV) is the cause of a pandemic that has been devastating the U.S. and global swine industry for more than twenty years. PRRSV vaccine development is challenging due to virus heterogeneity. Evidence indicates that the major envelope protein, GP5, is the primary target for a subunit vaccine. In native virions GP5 primarily exists as a disulfide linked complex with the membrane protein, M, which also possesses immunogenic properties. Recent studies report that the GP5/M complex is a more significant vaccine candidate. Currently, no bulk purification methods have been reported for PRRSV proteins. The objective of this research was to develop a purification process for GP5 or GP5/M from native virions. PRRS virions were isolated and concentrated through sucrose cushion ultracentrifugation and target envelope proteins were solubilized with Triton X-100 detergent for further processing. GP5/M was not consistently identified in samples and was therefore abandoned. GP5 was identified by Western blot throughout processing with a αORF5 antibody. Cation exchange chromatography (CEX) was utilized for partial fractionation of GP5, although the viral nucleocapsid protein, N, was a major impurity in CEX elution fractions. As a second chromatographic step, hydrophobic interaction chromatography (HIC) further purified GP5 by means of a two-stage elution scheme. Pure GP5 was eluted from the HIC resin in the second HIC elution stage by Triton X-100 displacement; however the protein is present as a homodimeric/tetrameric aggregate. This process will be useful in PRRSV vaccine development and the purified GP5 product could be used as much needed positive controls in animal studies. / Master of Science

detergent solubilization

protein purification

GP5

chromatography

PRRSV

virus culture

Structural and Functional Characterization of O-Antigen Translocation and Polymerization in Pseudomonas aeruginosa PAO1

Islam, Salim Timo

07 June 2013

Heteropolymeric O antigen (O-Ag)-capped lipopolysaccharide is the principal constituent of the Gram-negative bacterial cell surface. It is assembled via the integral inner membrane (IM) Wzx/Wzy-dependent pathway. In Pseudomonas aeruginosa, Wzx translocates lipid-linked anionic O-Ag subunits from the cytoplasmic to the periplasmic leaflets of the IM, where Wzy polymerizes the subunits to lengths regulated by Wzz1/2. The Wzx and Wzy IM topologies were mapped using random C-terminal-truncation fusions to PhoALacZα, which displays PhoA/LacZ activity dependent upon its subcellular localization. Twelve transmembrane segments (TMS) containing charged residues were identified for Wzx. Fourteen TMS, two sizeable cytoplasmic loops (CL), and two large periplasmic loops (PL3 and PL5 of comparable size) were characterized for Wzy. Despite Wzy PL3–PL5 sequence homology, these loops were distinguished by respective cationic and anionic charge properties. Site-directed mutagenesis identified functionally-essential Arg residues in both loops. These results led to the proposition of a “catch-and-release” mechanism for Wzy function. The abovementioned Arg residues and intra-Wzy PL3–PL5 sequence homology were conserved among phylogenetically diverse Wzy homologues, indicating widespread potential for the proposed mechanism. Unexpectedly, Wzy CL6 mutations disrupted Wzz1-mediated regulation of shorter O-Ag chains, providing the first evidence for direct Wzy–Wzz interaction. Mutagenesis studies identified functionally-important charged and aromatic TMS residues localized to either the interior vestibule or TMS bundles in a 3D homology model constructed for Wzx. Substrate-binding or energy-coupling roles were proposed for these residues, respectively. The Wzx interior was found to be cationic, consistent with translocation of anionic O-Ag subunits. To test these hypotheses, Wzx was overexpressed, purified, and reconstituted in proteoliposomes loaded with I−. Common transport coupling ions were introduced to “open” the protein and allow detection of I− flux via reconstituted Wzx. Extraliposomal changes in H+ induced I− flux, while Na+ addition had no effect, suggesting H+-dependent Wzx gating. Putative energy-coupling residue mutants demonstrated defective H+-dependent halide flux. Wzx also mediated H+ uptake as detected through fluorescence shifts from proteoliposomes loaded with pH-sensitive dye. Consequently, Wzx was proposed to function via H+-coupled antiport. In summary, this research has contributed structural and functional knowledge leading to novel mechanistic understandings for O-Ag biosynthesis in bacteria. / Bookmarks within the document have been provided for ease of access to a particular section in the body of the thesis. Each entry in the Table of Contents, List of Tables, and List of Figures has been "linked" to its respective position and as such can be clicked for direct access to the entry. Similarly, each in-text Figure or Table reference has been "linked" to its respective figure/table for direct access to the entry. / 1.) Canadian Institutes of Health Research (CIHR) Frederick Banting and Charles Best Canada Graduate Scholarship doctoral award, 2.) CIHR Michael Smith Foreign Study Award, 3.) Cystic Fibrosis Canada (CFC) doctoral studentship, 4.) University of Guelph Dean's Tri-Council Scholarship, 5.) Ontario Graduate Scholarship in Science and Technology, 6.) Operating grants to Dr. Joseph S. Lam from CIHR (MOP-14687) and CFC

lipopolysaccharide

flippase

polymerase

chain-length regulator

polysaccharide co-polymerase

O antigen

Wzx/Wzy-dependent

membrane protein

topology mapping

C-terminal reporter

iodide efflux

iodide flux

anion flux

proteoliposome

Wzx

Wzy

Wzz

Wzz1

Wzz2

site-directed mutagenesis

protein purification

detergent solubilization

vesicle reconstitution

alkaline phosphatase

beta-galactosidase

normalized activity ratio

antiport

GFP

topology prediction

homology model

Western immunoblot

silver stain

structure prediction

proton-dependent gating

coupling ion

proton uptake

catch-and-release mechanism

arginine

remote homologue detection

biochemistry

biophysics

microbiology

structural biology

genetics

bioinformatics