DrugBank:EXPT00572 - FACTA Search

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Query: DrugBank:EXPT00572 (Asn)
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Most antibodies directed against the Plasmodium falciparum circumsporozoite (CS) protein react with its central domain, which contains about 40 repeats of the tetrapeptide Asn-Ala-Asn-Pro (NANP). To search for new epitopes in the non-repetitive part of the CS protein, we expressed the non-repetitive regions of the protein in E. coli as fusion proteins with mouse dihydrofolate reductase linked to six adjacent histidine residues. These fusion proteins were obtained at greater than 70% purity by a single Ni-chelate affinity chromatography step. Of the new epitopes defined in the C-terminal portion of the CS protein, three are located in a stretch of 65 amino acids immediately C-terminal of the protein's central repetitive domain. Pooled sera from inhabitants of a malaria-endemic area reacted with epitopes in this region of the molecule, and four mouse monoclonal antibodies to this region also reacted with the native CS protein on sporozoites. Two of the monoclonal antibodies reacted with a peptide PNDPNRNVD derived from a conserved region of the CS protein. The other two antibodies showed different reactivities to sporozoites of the NF54 and Ro59 parasite isolates. One, which reacted with a peptide ENANANNAV, recognized Ro59 but not NF54 sporozoites, while the other reacted with a small percentage of NF54 but not Ro59 sporozoites. Antibodies which react with non-repetitive regions of the CS protein could contribute to maintaining its genetic variability.
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PMID:New B cell epitopes in the Plasmodium falciparum malaria circumsporozoite protein. 169 36

Using a complete series of overlapping peptides, we have identified the T cell epitopes of a malaria vaccine candidate, the circumsporozoite (CS) protein, that are recognized by sporozoite-exposed residents of a non-endemic country. This protein and subunits from it are being considered as malaria sporozoite vaccine candidates, as CS-specific antibodies and cytotoxic T lymphocytes have been shown to have a role in protection. The rationale for developing an antibody-based vaccine is that in Plasmodium falciparum the immunodominant B cell epitope of the protein, (Asn-Ala-Asn-Pro)n [(NANP)n], is invariant. However, the ideal vaccine must contain CS protein-derived T cell antigenic epitopes to allow natural boosting of the antibody response following sporozoite exposure. Here, we show that major differences occur between the CS-specific T cell responses of non-endemic Caucasians and an endemic African population. HLA differences between the populations are, in part, responsible. Subunit malaria vaccines for one population may be ineffective in a different population.
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PMID:Major population differences in T cell response to a malaria sporozoite vaccine candidate. 170 20

The previously described Plasmodium falciparum blood stage antigen, 5.1 (also referred to as exp-1) was expressed at a high level in Escherichia coli. Saimiri monkeys immunised with purified recombinant antigen 5.1 were partially protected from P. falciparum blood stage parasite challenge. The gene coding for 5.1 was combined with DNA coding for an (Asn-Ala-Asn-Pro)19 sequence (abbreviated (NANP)19 in the one-letter amino acid code). To facilitate purification of the recombinant protein, DNA coding for a hexahistidine (His6) sequence was introduced at the 5' end of the gene (proteins containing His6 have high affinity for Ni(2+)-chelate columns even in the presence of 6 M guanidine HCl). The recombinant protein, His6-5.1-(NANP)19 with an apparent molecular size of 40 kDa could be highly purified by a combination of 4 steps: (1) release and solubilization of the recombinant fusion protein from E. coli in the presence of 6 M guanidine-HCl; (2) precipitation of over 60% of the bacterial proteins by the addition of ammonium sulphate to 50% saturation; (3) affinity chromatography on a Ni(2+)-chelate column in the presence of 6 M guanidine-HCl; (4) adsorption onto a cation exchange resin in the presence of 6 M urea, and elution with an increasing NaCl gradient. Compared with the previously tested tetanus toxoid-(NANP)3 malaria vaccine, this protein elicits an anti-(NANP)n response which more closely resembles that evoked by native sporozoites. The recombinant vaccine also induces the production of antibodies against the blood stages of the malaria parasite.
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PMID:A Plasmodium falciparum malaria vaccine candidate which contains epitopes from the circumsporozoite protein and a blood stage antigen, 5.1. 171 16

The peptide CS.T3, corresponding to residues 378-398 of the Plasmodium falciparum (Pf) circumsporozoite (CS) protein sequence (except with cysteines 384 and 389 replaced by alanines), has been found to be almost universally recognized by human and mouse T lymphocytes. When colinearly linked to the repetitive B-lymphocyte-specific epitope (Asn-Ala-Asn-Pro)n of Pf CS protein, CS.T3 induces T-helper activity for an anti-(Asn-Ala-Asn-Pro)n antibody response in mice of different haplotypes. We constructed a double-epitope peptide, CS.T3-R3, by co-linearly joining a truncated 18-mer form (IEKKIAKMEKASSVFNVV) of CS.T3 to three tandem repeats (R3) of a B-cell-specific epitope, QGPGAP, of Plasmodium yoelii (Py) CS protein, via a two-glycine spacer. Whereas CS.T3 and R3 did not induce specific antibodies, CS.T3-R3 elicited anti-CS.T3 and anti-R3 antibodies in different mouse strains. Some human anti-Pf sera from malaria-endemic areas contained high-titred anti-CS.T3 antibody IgG, indicating that parasite-derived CS.T3 contains a B-cell determinant which is maintained in the alanine-substituted synthetic CS.T3. Antibody absorption experiments showed that CS.T3-R3 contains no new B-cell-specific determinants other than R3 and CS.T3. That the Pf CS protein epitope, CS.T3, supports T-cell help for antibody responses against the Py CS protein repeat epitope, QGPGAP, implies the possible use of CS.T3 in anti-sporozoite multiple-epitope vaccines against different species of Plasmodium. Colinearly linking CS.T3 to R3, via a two-glycine spacer, appears to be a useful model by which different T- and B-cell-specific determinants can be jointed into a heterovalent immunogen while retaining their distinct immunological properties.
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PMID:Towards the design of heterovalent anti-malaria vaccines: a hybrid immunogen capable of eliciting immune responses to epitopes of circumsporozoite antigens from two different species of the malaria parasite, Plasmodium. 172 Oct 43

R16HBsAg is an experimental recombinant malaria vaccine consisting of 16 repeats of a four amino acid sequence (Asn-Ala-Asn-Pro or NANP) of the circumsporozoite (CS) protein of Plasmodium falciparum expressed as a fusion protein with the recombinant hepatitis B virus surface antigen (HBsAg) produced by yeast cells. Twenty male volunteers were experimentally vaccinated with the product, as well as with two doses of the commercial recombinant HBsAg vaccine Engerix B (Smith Kline Beecham Biologicals, Rixensart, Belgium) at intervals during a period of 18 months. No serious side effects were observed. Circulating antibodies to recombinant CS antigen (R32tet32) developed in all volunteers and persisted in most cases over ten months. Anti-HBs antibody production was poor initially, but a single dose of the commercial hepatitis B vaccine was sufficient to elevate these titers to high levels in all but two volunteers.
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PMID:Phase I clinical trial of a recombinant malaria vaccine consisting of the circumsporozoite repeat region of Plasmodium falciparum coupled to hepatitis B surface antigen. 183 11

The major surface antigen of malaria sporozoites, the circumsporozoite protein, contains a region of tandem amino acid repeats, which in the case of the human malaria parasite Plasmodium falciparum, consist of four amino acids Asn-Ala-Asn-Pro (NANP) repeated up to about 40 times. This repetitive sequence has been considered as the basis for the development of subunit vaccines against P. falciparum malaria. We and others had previously shown that synthetic and recombinant NANP peptides were immunogenic only in H-2b mice. In the present report we show that, when mice with different H-2 haplotypes are immunized with the repetitive NANP sequence incorporated in a synthetic branching multiple antigen peptide (MAP), all except one of the mouse strains tested mounted an anti-peptide antibody response. Such a response does not appear to be due to the peculiar assembly of the NANP sequence. In fact, MAP containing repetitive sequences from circumsporozoite proteins of other malaria parasites did not overcome the genetic restriction of the immune response to the linear peptides. These data show that in the case of the P. falciparum NANP repeats, their immunogenicity can be dramatically changed and increased when these peptides are assembled as MAP. This unexpected finding may be of interest in the design of synthetic candidate malaria vaccines.
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PMID:Lack of H-2 restriction of the Plasmodium falciparum (NANP) sequence as multiple antigen peptide. 188 65

We engineered an antibody expressing in the third complementarity-determining region of its heavy chain variable region a "foreign" epitope, the repetitive tetrapeptide Asn-Ala-Asn-Pro (NANP) of the circumsporozoite protein of Plasmodium falciparum parasite, one of the etiologic agents of malaria in humans. A monoclonal antibody to P. falciparum specific for the (NANP)n amino acid sequence bound to the engineered antibody, and a synthetic (NANP)3 peptide blocked this interaction. Immunization of rabbits and mice with the engineered antibody resulted in the elicitation of a humoral response to (NANP)3 synthetic peptide and P. falciparum parasite. In mice, in which immunity to the (NANP)n epitope is highly restricted by immune response genes, antibodies were induced in responder and nonresponder haplotypes of the major histocompatibility complex. Rabbit antibodies efficiently inhibited the in vitro invasion of cultured liver cells by P. falciparum parasite. Collectively, this study indicates that immunity to malaria in the absence of the parasite can be induced using antibody variable regions engineered to mimic the parasite's molecular structure. In general terms, the results suggest that antibody (idiotype) mimicry of an exogenous antigen is possible and may only require a discrete stretch of identity between the two molecules. The implication for the preparation of antibody-based vaccines and idiotype regulation of immunity are discussed.
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PMID:Immunogenicity of an engineered internal image antibody. 190 14

Pyrimethamine resistance in cultivated laboratory isolates of Plasmodium falciparum is linked to the dihydrofolate reductase mutation Asn-108, a mutation that acts by interrupting drug binding within the active site of the enzyme. To determine the prevalence of this mutation in endemic regions harboring pyrimethamine-resistant malaria, we used a mutation-specific polymerase chain reaction assay to survey P. falciparum strains from a wide section of the Brazilian Amazon. Mutations were identified directly from blood samples without intervening steps of in vitro cultivation. Of 42 samples collected from four states in Brazil, 38 (90%) contained the Asn-108 codon AAC that confers pyrimethamine resistance, four samples contained only the wild-type Ser-108 codon AGC, and none contained the Thr-108 codon ACC found in cycloguanil-resistant pyrimethamine-sensitive strains. These findings indicate that a very high incidence of the Asn-108 DHFR mutation is responsible for pyrimethamine resistance in the Amazon, and they are consistent with recent failure rates reported for Fansidar (pyrimethamine-sulfadoxine). We suggest that limited use of proguanil be evaluated as an alternative to pyrimethamine.
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PMID:Prevalence of the dihydrofolate reductase Asn-108 mutation as the basis for pyrimethamine-resistant falciparum malaria in the Brazilian Amazon. 195 58

Monoclonal antibody NYS4 recognizes a single 140 kDa antigen on the surface of Plasmodium yoelii sporozoites, an antigen which is distinct from the extensively characterized circumsporozoite (CS) protein. To more thoroughly characterize this additional surface component, a genomic expression library was screened with NYS4 and an immunoreactive clone (M4) was obtained which expressed part of the antigen gene. The deduced amino acid sequence of the M4 peptide included two unique repetitive sequences of amino acids and a conserved sequence motif which is found in several proteins including the CS protein (region II). The cloned DNA hybridized to a PCR (polymerase chain reaction) amplified sporozoite mRNA demonstrating the sporozoite-stage expression of this gene. A synthetic peptide of one of the repeats, (Asn-Pro-Asn-Glu-Pro-Ser), was recognized by NYS4 and mice immunized with (Asn-Pro-Asn-Glu-Pro-Ser)3 conjugated to KLH (keyhole limpet haemocyanin) produced high levels of antibodies that reacted with the surface of sporozoites and specifically to the 140 kDa antigen. Thus, at least two different proteins are on the surface of the P. yoelii sporozoite indicating that the immunoreactive exterior of the infective stage of malaria parasites is more antigenically complex than previously thought.
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PMID:A malaria sporozoite surface antigen distinct from the circumsporozoite protein. 209 80

The sporozoite form of Plasmodium falciparum displays on its surface the circumsporozoite (CS) protein. The central domain of this protein possesses a reiterated tetrapeptide sequence Asn-Ala-Asn-Pro (NANP), and greater than 90% of the sporozoite-specific antibodies obtained from individuals living in malaria endemic areas recognize epitopes within this repeat sequence. Considering the highly repetitive structure of this naturally occurring antigen and its immunodominance, we were interested in analyzing the structural diversity of antibodies that bind to the (NANP)3 sequence. Molecular characterization of immunoglobulin heavy and light chain mRNA was performed for five hybridomas that produce antibodies with binding specificity for the dodecapeptide (NANP)3. These hybridomas were produced in BALB/c mice by inoculation with whole P. falciparum sporozoites. Sequence analysis and Northern blotting showed that for heavy chain, three hybridomas used VH elements that belong to the VHIX family and two to the VHJ558 family. Four different V kappa subgroups were represented among the light chains. Different D and J kappa segments are also utilized, while four heavy chain gene rearrangements involved the JH4 segment. These results indicated that multiple VH-VL gene combinations can code for reactivity to the (NANP)3 sequence, demonstrating that the murine antibody response to this immunodominant region is structurally heterogeneous.
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PMID:VH and VL region structure of antibodies that recognize the (NANP)3 dodecapeptide sequence in the circumsporozoite protein of Plasmodium falciparum. 212 76

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