Ian C. Bathurst

Structure and expression of the gene for Pv200, a major blood-stage surface antigen of Plasmodium vivax

Molecular cloning and structure analysis of the gene encoding the Pv200 protein of the Sal-1 strain of Plasmodium vivax revealed an overall identity of 34-37% when the deduced amino acid sequence was compared with the sequences of various major merozoite surface antigens of Plasmodium falciparum, Plasmodium yoelii and Plasmodium chabaudi. When the Sal-1 Pv200 sequence was compared with the corresponding sequence from the Belèm strain of P. vivax, it was found that the two merozoite surface antigens were relatively well conserved with an overall amino acid sequence identity of 81%. A region of 23 repeated glutamine residues, found in the sequence of the Belèm isolate was not found, however, in the Sal-1 sequence. Amino- and carboxy-terminal domains of the Pv200 protein were expressed in the yeast Saccharomyces cerevisiae. Each recombinant protein was shown to react with antibodies in sera from splenectomized Bolivian Saimiri monkeys that had been infected previously with P. vivax, and in human sera from individuals with a history of exposure to vivax malaria. The availability of recombinant DNA-derived Pv200 proteins will now allow a full assessment of their utility in the diagnosis and immunoprophylaxis of the benign tertian malaria associated with P. vivax infection.

Malaria transmission-blocking vaccines

Antibodies to surface proteins of the sexual stages of Plasmodium falciparum block completely the transmission of these malaria parasites. Transmission-blocking vaccines therefore represent a powerful and novel approach to controlling the spread of this lethal disease.

Characterization of the human immunodeficiency virus type-1 reverse transcriptase enzyme produced in yeast

The reverse transcriptase (RT) of human immunodeficiency virus type-1 (HIV-1) is comprised of two subunits of approximately 66kD and 51kD. We have defined the carboxyl terminus of the 51kD molecule using the 66kD RT and HIV-1 protease (PR) expressed in yeast. Precise constructs encoding the 66kD and 51kD molecules were expressed individually, in yeast, at high levels. The purified recombinant subunits were shown to associate into heterodimers that retained both RT and RNase H activities. Only the 66kD molecule could associate into homodimers. Such homodimers retained approximately 80% of the RT activity of the heterodimers. Our data demonstrates that the 51/66kD heterodimer, analogous to that found in vivo, can be reconstituted in vitro and is more efficient in both RT and RNase H activity than the homodimer.

An experimental vaccine cocktail for Plasmodium falciparum malaria.

Surface proteins from several different life-cycle stages of the malaria parasite Plasmodium falciparum were expressed at high levels in the yeast Saccharomyces cerevisiae. Purified proteins, both individually and in cocktails, were used to immunize mice and goats in conjunction with either Freunds adjuvant or a muramyl tripeptide-based adjuvant. Immune responses were measured by enzyme-linked immunosorbent assays and by the ability of antisera to inhibit (1) the invasion of hepatocytes by live sporozoites, (2) in vitro invasion of human erythrocytes by live merozoites, and (3) the development of oocytes in the mosquito vector. These results suggest that cocktails of different stage-specific antigens can provide the components necessary to block the development of the malaria parasite at multiple stages of its life cycle.

Immunogenicity of recombinant Plasmodium falciparum SERA proteins in rodents

We have expressed defined regions of the serine-repeat antigen (SERA) of the Honduras-1 strain of Plasmodium falciparum in the yeast Saccharomyces cerevisiae. Amino-terminal domains of the natural SERA protein have been shown previously to be targets for parasite-inhibitory murine monoclonal antibodies. Two recombinant SERA antigens were selected for purification and immunological analysis. The first (SERA 1), corresponding to amino acids 24-285 of the natural SERA precursor, was expressed by the ubiquitin fusion method. This allowed for in vivo cleavage by endogenous yeast ubiquitin hydrolase, and subsequent isolation of the mature polypeptide. The second, larger protein (SERA N), encompassing amino acids 24-506, was expressed at only low levels using this system, but could be isolated in high yields when fused to human gamma-interferon (gamma-IFN). Each purified protein was used to immunize mice with either Freunds adjuvant or a muramyl tripeptide adjuvant that has been used in humans. Sera from immunized mice were shown to be capable of in vitro inhibition of invasion of erythrocytes by the Honduras-1 strain of P. falciparum. The results suggest that a recombinant SERA antigen may be an effective component of a candidate malaria vaccine.

Fine epitope specificity of antibodies to region II of the Plasmodium vivax circumsporozoite protein correlates with ability to bind recombinant protein and sporozoites.

Recent work has suggested that important B- and T-cell epitopes on the circumsporozoite protein (CSP) of Plasmodium vivax lie external to the major repeat regions of the protein. We have studied two naturally exposed human populations (Caucasian and Papua New Guineans) and determined the antibody response to yeast-derived recombinant CSPs, overlapping synthetic peptides spanning amino acids 76 348 of the Belem P. vivax CSP and overlapping peptides representing the variant repeats of the VK247 strain of P. vivax. We have demonstrated that the P. vivax CSP-specific antibody response is directed towards areas within the repeat region as well as areas external to this; but the dominant epitopes recognized by the two populations studied, were distinct. One epitope, lying external to the repeats and recognized by both populations, partially overlaps an area of the protein referred to as region II-plus. Sera from malaria-exposed Papua New Guineans and Thais contained antibodies to this epitope (V22, single letter amino acid sequence TCGVGVRVRRRVNAANKKPE) which were capable of recognizing sporozoites, as determined by quantitative inhibition IFA. Seventeen percent of PNG sera had antibodies to this peptide compared with 33% who had antibodies to the central repeats of the protein. Immunization of mice with recombinant CSP did not induce antibodies to V22. However, immunization with overlapping peptide epitopes representing this region (V21 or V22) induced specific antibodies but only two sera recognized both V21 and V22 and, by inference, the overlapping peptide sequence (TCGVGVRVRR). Antibodies in these two sera could bind recombinant CSP in ELISA; however, in contrast, nine sera which recognized either V21 or V22 alone did not bind CSP. Only one of two sera containing antibodies recognizing CSP stained P. vivax sporozoites. This serum also recognized an epitope dependent upon two amino acids aminoterminal to V22. These data suggest that the fine specificity of antibodies is a critical determinant for binding to both recCSP and sporozoites.

Stabilization and activation of recombinant human immunodeficiency virus-1 reverse transcriptase-P66

Human immunodeficiency virus-1 reverse transcriptase-p66 is surprisingly unstable at 4 degrees C in a typical reverse transcriptase buffer that provides complete stability when enzyme is frozen at -70 degrees C. Incorporation of (rA)n(dT)12-18 template-primer in the buffer vastly improved solution stability of dilute enzyme. Incorporation of 1.0 M ammonium phosphate in the buffer promoted an unexpected and reproducible approximately 260% activation of enzyme. In addition, even enzyme that had been inactivated to 13% of its initial activity could be reactivated to the same approximately 260% higher activity level indicating a reversible interconversion of two forms of the enzyme. The effects of chaotropic and antichaotropic salts coupled with a prior observation of p66 monomer-dimer equilibrium provide suggestive evidence that these two forms of enzyme are monomeric and dimeric p66.

Structure–Activity Relationships of 4-Position Diamine Quinoline Methanols as Intermittent Preventative Treatment (IPT) against Plasmodium falciparum

A library of diamine quinoline methanols were designed based on the mefloquine scaffold. The systematic variation of the 4-position amino alcohol side chain led to analogues that maintained potency while reducing accumulation in the central nervous system (CNS). Although the mechanism of action remains elusive, these data indicate that the 4-position side chain is critical for activity and that potency (as measured by IC(90)) does not correlate with accumulation in the CNS. A new lead compound, (S)-1-(2,8-bis(trifluoromethyl)quinolin-4-yl)-2-(2-(cyclopropylamino)ethylamino)ethanol (WR621308), was identified with single dose efficacy and substantially lower permeability across MDCK cell monolayers than mefloquine. This compound could be appropriate for intermittent preventative treatment (IPTx) indications or other malaria treatments currently approved for mefloquine.

Epitopes recognized by HIV-SF2 nef-specific CD4+ T-cell clones generated from HIV-1-uninfected donors

Human T-cell clones with specificity to the HIV-1 nef protein were generated by the in vitro stimulation of peripheral blood mononuclear cells (PBMCs) from HIV-1-seronegative donors with purified nef from the HIV-SF2 isolate produced in genetically engineered yeast. Here the characterization is described of a total of seven discrete clones derived from five different donors. Each clone was CD3+ CD4+ CD8- as determined by FACS analysis. The epitopes recognized by these clones were identified using synthetic overlapping peptides spanning the entire length of nef. Six discrete helper T-cell epitopes located in five distinct regions of nef were identified by this approach. Three of these epitopes are more than 80% conserved among all HIV-1 nef proteins for which sequence data are available. The remaining epitopes are in regions of nef that vary among isolates. Many of the epitopes recognized by our clones overlap T-cell epitopes identified by others examining T-cell responses to nef in HIV-1-infected patients and immunized animals. Using partially class II-matched EBV-transformed B-cell lines, we were able to identify five different HLA class II alleles which encode restricting elements for the in vitro nef-specific proliferative response of these clones (DR1, DRw15(2), DRw6, DQw7, DP5).

The primary role of the P1′ residue (ser359) of alpha-1-proteinase inhibitor

The replacement of ser359 with ala359 at the P1 position in human alpha-1-proteinase inhibitor results in the production of a variant protein containing 15% of the inhibitory activity of the normal inhibitor. Separation of active from inactive inhibitor on anhydrochymotrypsin-sepharose yields a form which has a second order association rate with neutrophil elastase which is approximately one half that for the native protein. These data indicate that the P1 residue is not of primary importance during the interaction of proteinases with alpha-1-proteinase inhibitor. Since substitution of alanine for serine causes the formation, primarily, of inactive inhibitor the major function of ser359 probably involves proper folding to give a functionally active inhibitory conformation.