Jennifer L. Sexton

Protection of cattle against Fasciola hepatica infection by vaccination with glutathione S-transferase

Glutathione S-transferase (GST) from the liver fluke Fasciola hepatica was assessed as a vaccine immunogen in cattle in a number of immunological adjuvants. Significant reductions in fluke burdens (49-69%) were only observed in cattle vaccinated with GST in Quil Alsqualene Montanide (SM) and PLG microspheres in SM but there was no correlation between anti-GST IgG titres and protection. In separate experiments, animals vaccinated with GST in Quil AlSM were still significantly protected (48%, P < 0.05) 6 months after boosting and no significant differences in protection were seen when the metacercarial challenge was given over 1 month instead of as a single bolus. Inhibition of GST enzyme activity in vitro by cattle antisera did not correlate with reduced fluke burdens.

Kinetic Analysis of the Role of Intersubunit Interactions in Human Immunodeficiency Virus Type 1 Capsid Protein Assembly In Vitro

ABSTRACT The human immunodeficiency virus type 1 (HIV-1) capsid protein (CA) plays a crucial role in both assembly and maturation of the virion. Numerous recent studies have focused on either the soluble form of CA or the polymer end product of in vitro CA assembly. The CA polymer, in particular, has been used to study CA-CA interactions because it is a good model for the CA interactions within the virion core. However, analysis of the process of in vitro CA assembly can yield valuable insights into CA-CA interactions and the mechanism of core assembly. We describe here a method for the analysis of CA assembly kinetics wherein the progress of assembly is monitored by using turbidity. At pH 7.0 the addition of either of the isolated CA domains (i.e., the N or the C domain) to an assembly reaction caused a decrease in the assembly rate by competing for binding to the full-length CA protein. At pH 8.0 the addition of the isolated C domain had a similar inhibitory affect on CA assembly. However, at pH 8.0 the isolated N domain had no affect on the rate of CA assembly but, when mixed with the C domain, it alleviated the C-domain inhibition. These data provide biochemical evidence for a pH-sensitive homotypic N-domain interaction, as well as for an N- and C-domain interaction.

Primary sequence heterogeneity and tissue expression of glutathione S-transferases of Fasciola hepatica.

Glutathione S-transferases (GSTs) from Fasciola hepatica have been purified by glutathione affinity chromatography. Two closely migrating species of Mr 26,000 and 26,500 were identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and several species resolved by two-dimensional gel analysis, indicating substantial heterogeneity among the GSTs. N-terminal amino acid sequencing revealed one core sequence containing three polymorphisms, whereas the sequence of GST peptides implied a minimum of three different GSTs. The amino acid sequence data assigned the F. hepatica GSTs to the mu class of GSTs with high similarities to these proteins in other helminths and mammals. The native GSTs of F. hepatica appeared to behave as dimers as determined by molecular sieving chromatography. The observation that the GSTs of F. hepatica are heterogeneous in sequence and behave as dimers in the native state suggest that these isoenzymes may exhibit considerable functional heterogeneity which may be of importance to the parasite. Immunocytochemical studies suggest that the main source of GST in F. hepatica are the parenchymal cells and peripheral tissues of the parasite. Some extracellular GST is associated with the lamellae of the intestinal epithelium. The identification of an intestinal GST is unique among trematodes studied to date.

Biochemical analysis of recombinant glutathione S-transferase of Fasciola hepatica

Four cDNAs encoding GST (rGST1, rGST7, rGST47 and rGST51) of Fasciola hepatica were expressed in Escherichia coli and the rGST proteins purified for biochemical analyses. The rGST proteins are 95% pure as indicated by Coomassie staining of proteins separated by SDS-PAGE. Molecular sieving by HPLC infers that, like the native protein, the rGST proteins form homodimers under non-denaturing conditions. The rGST proteins are recognised by antisera raised to the native GST of F. hepatica. All four rGST proteins from F. hepatica actively conjugate glutathione to the universal substrate, 1-chloro-2,4-dinitrobenzene. The activity of the rGSTs was also measured for substrates which have been shown to have partial specificity for the Alpha, Mu or Pi classes of mammalian GSTs (trans-4-phenyl-3-buten-2-one, ethacrynic acid), for substrates known to be products of lipid peroxidation (trans-2-nonenal, trans,trans-2,4-decadienal) and for epoxy-3-(p-nitrophenoxy)-propane (EPNP), a known substrate for the theta class of GST. No rGST were active with EPNP. rGST47 and 51 showed activity with the other four substrates. rGST7 was active with three substrates whereas rGST1 showed relatively low activity with all substrates except trans,trans-2,4-decadienal. The sensitivity of the rGST activity to inhibition by the GST inhibitors triphenyltin chloride and bromosulphophthalein also varied among the rGSTs with rGST1 showing a 800-fold difference in sensitivity between the inhibitors. These results show that F. hepatica expresses a family of GST isoenzymes which exhibit unique substrate and inhibitor profiles.

Characterisation of humoral immune responses in dogs vaccinated with irradiated Ancylostoma caninum.

Infection with Ancylostoma caninum, an intestinal hookworm of dogs, can cause debilitating and potentially life-threatening disease. In the current study, protective immunity to hookworm infection was induced in dogs following vaccination with irradiation-attenuated third-stage larvae (L3) with significant reductions in both worm (P<0.03) and faecal egg counts (P<0.0004) following a challenge infection. Vaccination with irradiated L3 and challenge with infective L3 stimulated a dominant antibody response to antigens of less than 20 kDa in an excretory/secretory extract from adult parasites. Immunoscreening of an adult A. caninum cDNA library with antisera from the vaccine trial identified a number of clones. The three clones with the strongest immunoreactivity proved to be identical and encoded a peptide with similarity to the N-terminal domain of the tissue matrix metalloproteinase inhibitor (TIMP)-2 mammalian tissue metalloproteinase inhibitor family.

Probing Conserved Helical Modules of Portal Complexes by Mass Spectrometry based Hydrogen/deuterium Exchange

The Double-stranded DNA bacteriophage P22 has a ring-shaped dodecameric complex composed of the 84 kDa portal protein subunit that forms the central channel of the phage DNA packaging motor. The overall morphology of the P22 portal complex is similar to that of the portal complexes of Phi29, SPP1, T3, T7 phages and herpes simplex virus. Secondary structure prediction of P22 portal protein and its threading onto the crystal structure of the Phi29 portal complexes suggested that the P22 portal protein complex shares conserved helical modules that were found in the dodecameric interfaces of the Phi29 portal complex. To identify the amino acids involved in intersubunit contacts in the P22 portal ring complexes and validate the threading model, we performed comparative hydrogen/deuterium exchange analysis of monomeric and in vitro assembled portal proteins of P22 and the dodecameric Phi29 portal. Hydrogen/deuterium exchange experiments provided evidence of intersubunit interactions in the P22 portal complex similar to those in the Phi29 portal that map to the regions predicted to be conserved helical modules.