Bernhard Knapp

Molecular cloning, genomic structure and localization in a blood stage antigen of Plasmodium falciparum characterized by a serine stretch.

Two short DNA segments were isolated by screening of a lambda gt11 library from Plasmodium falciparum schizont cDNA with an antiserum against the 140 kDa protein, which confers protective immunity to monkeys. The segments were used to identify a genomic fragment which carries the entire coding sequence for a protein of 113 kDa characterized by a stretch of serine residues (SERP I). We present the complete nucleotide and deduced amino acid sequence as well as the structure of the SERP I gene. The gene consists of four exons interrupted by three short introns located at the amino-terminal half. Exon 1 and the first part of exon 2 code for hydrophobic amino acids of a putative signal sequence. Exon 2 contains two repetitive segments, the first encoding six glycine rich octapeptides and a second region coding for 37 consecutive serine residues. Southern blot analysis demonstrated the conservation of the SERP I gene in four different parasite strains. SERP I could be localized in the parasitophorous vacuole and in the surrounding membranes. We discuss the relationship of this protein to the recently described P126 polypeptide and the possible role of this antigen as a vaccine candidate.

Surface expression of malarial antigens in Salmonella typhimurium : induction of serum antibody response upon oral vaccination of mice

The Escherichia coli OmpA protein can serve as a carrier for the expression of foreign antigens on the surface of gram-negative bacteria. Employing OmpA vectors, immunogenic moieties of the Plasmodium falciparum blood stage antigens SERP and HRPII have been expressed in the attenuated Salmonella typhimurium SR-11 strain. Upon induction, the malaria specific sequences of 189 (HRPII) and 451 (SERP) amino acids, fused into the OmpA protein, have been expressed. By indirect immunofluorescence studies, live bacteria expressing the fusion proteins react anti-SERP and anti-HRPII sera, respectively, indicating that the hybrid OmpA proteins become integrated into the bacterial outer membrane and expose the malarial antigens at the exterior surface. Mice that were immunized orally with S. typhimurium cells expressing HRPII and SERP on their surface show a humoral immune response as determined by the anti-SERP and anti-HRPII IgG and IgM titres. From these experiments it can be concluded that the OmpA surface expression system in combination with established Salmonella vaccine strains can be used to efficiently deliver large antigens to the mucosal immune system.

Plasmodium falciparum aldolase : gene structure and localization

A genomic clone was isolated which codes for the fructose bisphosphate aldolase of Plasmodium falciparum. The aldolase gene is interrupted by one intron which divides the coding region into two exons. The first one codes for one amino acid only, the initiation methionine, while the second one encodes the residual 368 amino acids of the protein. The gene, which is represented only once in the genome, is transcribed at high rates as a 2.4-kb mRNA in the P. falciparum blood stage. The aldolase gene encodes a protein of 40,105 Da, which is 61-68% homologous to known eukaryotic aldolases. The protein was expressed in Escherichia coli cells in an unfused and enzymatically active form. Antisera raised against amino acids 9-96 recognize a 41-kDa protein band previously shown to protect monkeys against a P. falciparum infection. These antisera cross-react with aldolases of different species, which confirms the strong conservation of this enzyme during evolution. The aldolase could be localized in the cytoplasm of the parasite as an active and soluble form. An inactive form was found to be associated with the membrane fraction. Digestion data with phospholipase C suggest a membrane association of this polypeptide via a glycosylphosphatidylinositol anchor.

From evil to good: a cytolysin in vaccine development

Current vaccination strategies mainly target antigens into the phagosomal, major histocompatibility complex class II antigen-processing pathway and thus lead predominantly to humoral immune responses. The elicitation of cytotoxic T-cell responses instead requires introduction of antigens into the cytosol of professional antigen-presenting cells (APCs). The intracellular bacterium Listeria monocytogenes gains access to the host cell cytosol by means of a cytolysin, listeriolysin O. Vaccine researchers have successfully employed listeriolysin in novel vaccination approaches to provide access to the cytosol of professional APCs for purified protein antigens, attenuated bacterial vaccine strains, DNA vaccines and liposome contents.

Safety and immunogenicity of an intranasal Pseudomonas aeruginosa hybrid outer membrane protein F-I vaccine in human volunteers

A hybrid protein [Met-Ala-(His)(6) OprF(190-342)-OprI(21-83)] consisting of the mature outer membrane protein I (OprI) and amino acids 190-342 of OprF of Pseudomonas aeruginosa was expressed in Escherichia coli and purified by Ni(2+) chelate-affinity chromatography. After several studies in healthy volunteers, as well as in patients, had proven the tolerability and immunogenicity of the the OprF-OprI vaccine, after intra-muscular application, we developed an emulgel for intranasal immunization. For this purpose we combined a highly concentrated OprF-I with sodium dodecylsulfate as vehicle and the gel matrix natriumlauryl sulfate. After safety and pyrogenicity evaluations in animals, eight healthy adult human volunteers received the OprF-I gel intranasally three times at 2-week intervals. The vaccination was well tolerated and no side effects were observed. An antibody induction (IgG and IgA) could be detected in the sera. These data support continued clinical investigation of the protection against infections in cystic fibrosis patients and patients prone to P. aeruginosa infections.

A NEW BLOOD STAGE ANTIGEN OF PLASMODIUM FALCIPARUM HIGHLY HOMOLOGOUS TO THE SERINE-STRETCH PROTEIN SERP

We have isolated the gene coding for a new protein (SERP H), highly homologous to the 113-kDa serine-stretch protein SERP which confers protective immunity to monkeys. The gene consists of four exons interrupted by three short introns located at positions corresponding to those of the SERP gene. Both genes were shown to be linked on chromosome 2 of Plasmodium falciparum suggesting that both originate from a common ancestral gene. Both genes are transcribed in the blood-stage form as 3.8-kb mRNAs with high yield. The deduced amino acid sequence of SERP H is highly homologous to SERP, although it does not contain a serine stretch. A highly hydrophilic region specific for the protein which was shown to be identical among different P. falciparum isolates was expressed in Escherichia coli for preparation of SERP H specific antisera. A schizont polypeptide of 130 kDa within the parasitophorous vacuole was detected by Western blot analysis and immunoelectron microscopy. Like SERP, the 130-kDa protein exhibits a region homologous to cysteine proteinases, suggesting that these proteins, or their processing products, may play a role as proteinases at the time of merozoite release from the infected erythrocyte.

In vitro biosynthesis and membrane translocation of the serine rich protein of Plasmodium falciparum.

The serine-rich protein (SERP) of Plasmodium falciparum is found within the parasitophorous vacuole. Exons 1 and 2 of the SERP gene were combined to a continuous open reading frame and expressed in a cell free translation/translocation system to study translocation of the protein across membranes. The protein was found to be translocated co-translationally across canine pancreatic microsomes. This process required the presence of the signal recognition particle, and it was accompanied by cleavage of a signal peptide. We conclude that the authentic SERP is exported from the parasite cell via the endoplasmic reticulum.

A new blood stage antigen of Plasmodium falciparum transported to the erythrocyte surface

On screening a lambda gt11 library from Plasmodium falciparum genomic DNA with an antiserum against the 41-kDa protein band, which confers protective immunity to monkeys, two strongly reacting clones were isolated. One of the clones codes for parts of the P. falciparum 41-kDa aldolase, while the other (41-2) codes for parts of an unknown antigen; this was analyzed further. The 41-2 insert was used to identify two genomic fragments which carry the entire gene. The 41-2 gene codes for 184 amino acids specifying a 29-kDa schizont protein as estimated by Western blot analysis. The protein contains no repetitive sequences, and is characterized by a signal sequence and by two additional hydrophobic segments which could function as membrane anchor sequences. Computer analysis of the protein sequence predicted a dominant epitope in the N-terminal part which was confirmed by immunoreactivity data. The 41-2 protein could be localized in the schizont membrane, associated with membranous structures in the erythrocytic cytoplasm and with the erythrocyte membrane.

Outer membrane proteins of Pseudomonas aeruginosa as vaccine candidates

We tested the ability of the recombinant outer membrane proteins of Pseudomonas aeruginosa to serve as a protective vaccine against this Gram-negative pathogen in the presence of two main pathophysiological events leading to P. aeruginosa sepsis: (i) systemic infection during immunosuppression; and (ii) bacterial translocation. A hybrid vaccine was cloned which combined the protective epitopes of outer membrane protein F (OprF) and outer membrane protein I (OprI). This vaccine proved to be highly protective against an intraperitoneal challenge with P. aeruginosa in immunosuppressed mice. Oral immunization of mice with recombinant OprI expressing Salmonella dublin, induced s-IgA antibodies in the gut mucosa against OprI. These provided protection against translocation of P. aeruginosa in an immunosuppressed mouse model. To test whether OprI is effective in man, recombinant OprI was purified and used for the immunization of human volunteers. Immunization was tolerated well, and no side effects were observed. Antibody titers against OprI were measured in 90% of the volunteers after immunization.

A Plasmodium falciparum blood stage antigen highly homologous to the glycophorin binding protein GBP

We have isolated a gene coding for a protein highly homologous to an antigen known as the glycophorin binding protein (GBP) which was therefore called GBPH. The gene consists of 2 exons interrupted by an intron located at a position corresponding to that of the GBP gene. The deduced amino acid sequence of GBPH comprises 427 residues and is characterized by a signal sequence and by an extended repeat region consisting of 8 units of 40 amino acid residues. The comparison of the amino acid sequences of GBPH and GBP reveals an identity of 69%. Antisera raised against a GBPH fragment that carries part of the repetitive region cross-react with GBP (105 kDa) and additionally detect some bands between 40 and 70 kDa, one of which may correspond to GBPH. The genes coding for GBP and GBPH are located on chromosomes 10 and 14, respectively. The GBP gene is transcribed as a highly abundant 6.5 kb mRNA in the blood-stage form, whereas Northern blot analysis using a GBPH specific probe detects 2 less abundant mRNAs of 2.3 kb and 2.7 kb. Southern blot analysis of P. falciparum DNA identifies a third member of the GBP gene family.