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1.
Curr Top Microbiol Immunol ; 295: 417-38, 2005.
Article in English | MEDLINE | ID: mdl-16265900

ABSTRACT

An evolution in modern malaria research occurred with the completion of the Plasmodium falciparum genome project and the onset and application of novel post-genomic technologies. Corresponding with these technological achievements are improvements in accessing and purifying parasite material from 'hard-to-reach' stages of malaria development. Characterization of gene and protein expression in the infectious sporozoite and subsequent liver-stage parasite development is critical to identify novel pre-erythrocytic drug and vaccine targets as well as to understand the basic biology of this deadly parasite. Both transcriptional and proteomic analyses on these stages and the remaining stages of development will assist in the 'credentialing process' of the complete malaria genome.


Subject(s)
Gene Expression Regulation, Developmental , Plasmodium falciparum/chemistry , Plasmodium falciparum/growth & development , Proteome/analysis , Protozoan Proteins/analysis , Sporozoites/chemistry , Animals , Computational Biology , Gene Expression Profiling , Genes, Protozoan , Liver/parasitology , Plasmodium falciparum/genetics , Protozoan Proteins/isolation & purification , Sporozoites/genetics , Sporozoites/growth & development
2.
J Exp Biol ; 206(Pt 21): 3789-802, 2003 Nov.
Article in English | MEDLINE | ID: mdl-14506214

ABSTRACT

Recent advances in the fields of genomics, proteomics and molecular immunology offer tremendous opportunities for the development of novel interventions against public health threats, including malaria. However, there is currently no algorithm that can effectively identify the targets of protective T cell or antibody responses from genomic data. Furthermore, the identification of antigens that will stimulate the most effective immunity against the target pathogen is problematic, particularly if the genome is large. Malaria is an attractive model for the development and validation of approaches to translate genomic information to vaccine development because of the critical need for effective anti-malarial interventions and because the Plasmodium parasite is a complex multistage pathogen targeted by multiple immune responses. Sterile protective immunity can be achieved by immunization with radiation-attenuated sporozoites, and anti-disease immunity can be induced in residents in malaria-endemic areas. However, the 23 Mb Plasmodium falciparum genome encodes more than 5,300 proteins, each of which is a potential target of protective immune responses. The current generation of subunit vaccines is based on a single or few antigens and therefore might elicit too narrow a breadth of response. We are working towards the development of a new generation vaccine based on the presumption that duplicating the protection induced by the whole organism may require a vaccine nearly as complex as the organism itself. Here, we present our strategy to exploit the genomic sequence of P. falciparum for malaria vaccine development.


Subject(s)
Antigens, Protozoan/genetics , Gene Expression , Genome, Protozoan , Malaria Vaccines/genetics , Models, Immunological , Plasmodium falciparum/genetics , Animals , Epitopes/genetics , Open Reading Frames/genetics , Polymerase Chain Reaction , Protein Array Analysis , Vaccines, Synthetic
4.
Proc Natl Acad Sci U S A ; 95(3): 1230-5, 1998 Feb 03.
Article in English | MEDLINE | ID: mdl-9448314

ABSTRACT

Proteins sequestered within organelles of the apical complex of malaria merozoites are involved in erythrocyte invasion, but few of these proteins and their interaction with the host erythrocyte have been characterized. In this report we describe MAEBL, a family of erythrocyte binding proteins identified in the rodent malaria parasites Plasmodium yoelii yoelii and Plasmodium berghei. MAEBL has a chimeric character, uniting domains from two distinct apical organelle protein families within one protein. MAEBL has a molecular structure homologous to the Duffy binding-like family of erythrocyte binding proteins located in the micronemes of merozoites. However, the amino cysteine-rich domain of MAEBL has no similarity to the consensus Duffy binding-like amino cysteine-rich ligand domain, but instead is similar to the 44-kDa ectodomain fragment of the apical membrane antigen 1 (AMA-1) rhoptry protein family. MAEBL has a tandem duplication of this AMA-1-like domain, and both of these cysteine-rich domains bound erythrocytes when expressed in vitro. Differential transcription and splicing of the maebl locus occurred in the YM clone of P. yoelii yoelii. The apical distribution of MAEBL suggested localization within the rhoptry organelles of the apical complex. We propose that MAEBL is a member of a highly conserved family of erythrocyte binding proteins of Plasmodium involved in host cell invasion.


Subject(s)
Carrier Proteins/isolation & purification , Cell Adhesion Molecules/isolation & purification , Duffy Blood-Group System/isolation & purification , Plasmodium berghei/chemistry , Plasmodium berghei/genetics , Plasmodium yoelii/chemistry , Plasmodium yoelii/genetics , Receptors, Cell Surface/isolation & purification , Amino Acid Sequence , Animals , Antigens, Protozoan/chemistry , Antigens, Surface/chemistry , Carrier Proteins/chemistry , Carrier Proteins/genetics , Cell Adhesion Molecules/chemistry , Cell Adhesion Molecules/genetics , Consensus Sequence , DNA, Protozoan/isolation & purification , Duffy Blood-Group System/chemistry , Duffy Blood-Group System/genetics , Membrane Proteins/chemistry , Mice , Mice, Inbred BALB C , Molecular Sequence Data , Protozoan Proteins/chemistry , RNA Splicing , Receptors, Cell Surface/chemistry , Receptors, Cell Surface/genetics , Recombinant Fusion Proteins/chemistry , Recombinant Fusion Proteins/genetics , Recombinant Fusion Proteins/isolation & purification , Sequence Alignment , Transcription, Genetic
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