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An inbred line of the African malaria vector Anopheles gambiae is refractory to development of malaria parasites. It is homozygous for a 4.3-kb Sal I restriction fragment at the Dox-A2 locus, whereas the parent population is polymorphic at this locus, and a susceptible line is homozygous for an alternate 3.85-kb fragment. The Dox-A2 locus is located in the middle of chromosome 3R, in division 33B, and is tightly linked to a cluster of genes including Dopa decarboxylase that are involved in the production of melanin. Because the refractoriness phenotype, melanotic encapsulation of ookinete/oocysts, might involve activation of or alteration in one or more of these genes, we performed genetic crosses to determine whether a previously identified Plasmodium cynomolgi Ceylon refractoriness gene, Pif-C, is linked to Dox-A2. Backcross mosquitoes fed on one infected monkey developed infections of < or = 100 oocysts. About 50% of these mosquitoes appeared phenotypically refractory, as expected for the backcross performed, but gave slight evidence of linkage between a refractoriness gene and Dox-A2. In contrast, females fed on a monkey that yielded higher infection levels, up to > 300 oocysts, showed clear evidence of linkage between a refractoriness gene and Dox-A2. We conclude that this Dox-A2-linked refractoriness gene is expressed under conditions particular to the higher infection levels, or that environmental factors obscured the genetic effect of this gene at lower infection levels.

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Malaria control schemes based on the yet untested concept of replacing vector populations with mosquitoes of the same species unable to transmit the parasite offer one more means of attacking this important public health problem. Research is underway in several laboratories aimed at defining factors that can act to interrupt the development of the malaria parasite in the mosquito host, the genetic basis for such refractory mechanisms, methods for introducing genes coding for refractory mechanisms into the mosquito genome, and methods for replacing vector populations in the field. The complexities of such an undertaking are many and varied, but the potential impact of a successful replacement strategy on the epidemiology of malaria in the target area could be significant.

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Crossmating experiments were conducted to determine if postmating reproductive barriers are involved in the maintenance of genetic divergence among populations of Anopheles pseudopunctipennis sensu lato, a primary malaria vector of the American continent. Reciprocal crosses were conducted between colony and wild strains from Mexico, Bolivia, and Peru. Hybridization experiments revealed unidirectional male/female hybrid sterility in crosses between Mexican females and South American males. The data presented provide the first evidence that genetic differences exist among geographic strains of An. pseudopunctipennis in neotropical America. There is a consistent pattern suggesting the presence of at least two allopatric sibling species. One species occurs in central Mexico, the other in the South American Andean Cordillera.

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We report a genetic linkage map of the Plasmodium falciparum genome, using the inheritance patterns of nearly 90 RFLP markers in a genetic cross. Markers were assigned to polymorphic loci on all 14 nuclear chromosomes. Genetic recombination between parental markers was detected in each of the progeny, indicating that progeny from cross-fertilization events were favored over progeny from self-fertilization of either parent alone. Inheritance patterns among the markers suggested that certain parental linkage groups on chromosomes 2, 3, 12 and 13 were favored in the cross. Recombination frequencies on five chromosomes indicated an approximate map unit size of 15-30 kb per centiMorgan for P. falciparum.

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Many candidate antigens of malaria vaccines have limited immunological recognition. One exception is Pfs25, a cysteine-rich, 25-kilodalton sexual stage surface protein of Plasmodium falciparum. Pfs25 is a target of monoclonal antibodies that block transmission of malaria from vertebrate host to mosquito vector. The surface of mammalian cells infected with a recombinant vaccinia virus that expressed Pfs25 specifically bound transmission-blocking monoclonal antibodies. Furthermore, major histocompatibility complex-disparate congenic mouse strains immunized with recombinant Pfs25 elicited transmission-blocking antibodies, demonstrating that the capacity to develop transmission-blocking antibodies is not genetically restricted in mice. Live recombinant viruses may provide an inexpensive, easily administered alternative to subunit vaccines prepared from purified recombinant proteins to block transmission of malaria in developing countries.

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Analysis of restriction fragment length polymorphism (RFLP) is a powerful tool for analyzing linkage relationships in species where few genetic markers have been described and where conduct of crosses is difficult. It also permits integration of genetic and physical (cytogenetic) data when the probes have been mapped by in situ hybridization. To illustrate the utility of the method, and because some mutations of a diphenol oxidase gene might conceivably produce the malaria refractoriness phenotype of ookinete-oocyst encapsulation, backcrosses between two inbred lines of Anopheles gambiae Giles were carried out to determine the linkage relationship between the diphenol oxidase A2 (Dox) gene and the esterase locus associated with refractoriness to Plasmodium cynomolgi NIH. The Dox alleles were a Sal I restriction fragment length polymorphism visualized by probing Southern blotted DNA from portions of individual mosquitoes with a cloned Dox gene probe. The two genes were shown to segregate independently.

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Yolk proteins (vitellogenin and vitellin) proved to be excellent marker molecules for separating Anopheles gambiae Giles and An. arabiensis Patton, two morphologically indistinguishable members of the An. gambiae species complex. A rabbit polyclonal antibody directed against An. gambiae yolk proteins was made species-specific by removing immunoglobulins that crossreacted with An. arabiensis by immunoaffinity chromatography. The resultant antibody was 400 times more sensitive to An. gambiae and was employed as the secondary antibody in a modified double antibody "sandwich" ELISA, which also used monoclonal antibodies to anopheline vitellogenin as the primary or coating antibody. This ELISA easily differentiated soluble yolk protein samples from An. gambiae and An. arabiensis. A field study with 628 females of An. gambiae complex collected in western Kenya demonstrated that the ELISA results were 98.4% in agreement with the standard cytotaxonomic method.

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Chloroquine is thought to act against falciparum malaria by accumulating in the acid vesicles of the parasite and interfering with their function. Parasites resistant to chloroquine expel the drug rapidly in an unaltered form, thereby reducing levels of accumulation in the vesicles. The discovery that verapamil partially reverses chloroquine resistance in vitro led to the proposal that efflux may involve an ATP-driven P-glycoprotein pump similar to that in mammalian multidrug-resistant (mdr) tumor cell lines. Indeed, Plasmodium falciparum contains at least two mdr-like genes, one of which has been suggested to confer the chloroquine resistant (CQR) phenotype. To determine if either of these genes is linked to chloroquine resistance, we performed a genetic cross between CQR and chloroquine-susceptible (CQS) clones of P. falciparum. Examination of 16 independent recombinant progeny indicated that the rapid efflux phenotype is controlled by a single gene or a closely linked group of genes. But, there was no linkage between the rapid efflux, CQR phenotype and either of the mdr-like P. falciparum genes or amplification of those genes. These data indicate that the genetic locus governing chloroquine efflux and resistance is independent of the known mdr-like genes.

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Exoerythrocytic schizonts of Plasmodium cynomolgi and P. knowlesi were examined by electron microscopy in biopsy samples of primate livers. With maturity the parasitophorous vacuole membrane becomes highly sculptured by the addition of a discontinuous dense thickening, the distribution of which can be a distinguishing character between these two species. The parasitophorous vacuole membrane follows the contours of the parasite faithfully with a minimal surrounding vacuole. The marked destruction of the cytoplasm of the host hepatocyte by most of the parasites studied however gave the distinct, but erroneous, appearance of a large parasitophorous vacuole at the light microscope level. The mature parasite often exhibited a highly invaginated surface contour with the result that the cytoplasm of the host cell and parasite became intimately interdigitated, this interweaving is unlikely to be recognized in light microscopic studies.

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Magainins and cecropins are families of peptides with broad antimicrobial and antiparasitic activities derived respectively from the skin of frogs or from giant silk moths. In insects, cecropins function as part of an inducible immune system against a number of bacterial infections. When injected into anopheline mosquitoes previously infected with a variety of Plasmodium species, both magainins and cecropins disrupt sporogonic development by aborting the normal development of oocysts; sporozoites are not formed and the vector cannot transmit the parasite to another host. It may be possible to induce effective transmission-blocking immunity in the mosquito vector by the introduction and expression of genes coding for magainins, cecropins, or similarly acting parasiticidal peptides into the mosquito genome.

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Genetic analysis of a system of Plasmodium refractoriness in Anopheles gambia suggests that the joint action of 2 unlinked genetic loci substantially controls expression of the susceptible and refractory phenotypes. One genetic component, here named Pif-B (for Plasmodium infectivity factor), is closely linked or identical to a polymorphic autosomal esterase locus which can be visualized by gel electrophoresis. This locus exerts the major controlling effect on susceptibility to Plasmodium cynomolgi B. The other genetic component is independent of esterase and exerts major control over refractoriness to the P. cynomolgi Ceylon strain parasite. Genetic assortment of the esterase-independent component suggests that it is controlled by 1 principal locus, here named Pif-C. The 2 genetic components of Plasmodium refractoriness appear to contribute to the same phenotype through physiologically independent means.

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The main polymorphic system of esterase isoenzymes in adults of the G3 laboratory strain of Anopheles gambiae consists of two to five major bands of activity per individual. The bands are designated 5S, 5F, 13, 14, and 15. In genetic crosses, the genes which coded for the bands assorted as three codominant alleles, Est A, Est B, and Est C, at a single autosomal locus. Homozygotes for the Est C allele were significantly underrepresented among backcross progeny. The developmental pattern of esterase expression was examined. Esterase gene expression in embryos was first detectable between 2 and 12 hr after oviposition. The initiation or termination of expression of some of the bands corresponded to boundaries between developmental stages. Most of the esterase fractions were not specifically localized within the tissues tested, with the exception of a series of bands which were restricted largely to adult male testes.

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The genome of Plasmodium cynomolgi is partitioned into at least 7 distinct genetic domains. Each domain is apparently uniform in DNA density and is separable from the others by CsCl density centrifugation in the presence of Hoechst dye. The protein-encoding genes that were tested are localized in the two heaviest density domains (isochores). The ribosomal genes are in two lighter isochores as well as in one of the isochores that contains protein encoding genes. Telomeric sequences are mainly, if not exclusively, in the lightest isochores, indicating that position with regard to chromosome ends may correlate with density. Blocks of a tandemly-repeating sequence which mark genetically hypervariable chromosome regions in malaria parasites are located in all isochores. However, the rate of change associated with the blocks of sequence is much slower in some isochores than in others. This indicates that the rate of genetic change in these parasites may differ with isochore and chromosomal position. These results may also have more general biological implications since they suggest that the genetic instability often noted for tandem repeat sequences in the eukaryotic genome may be limited to only a distinct subset of the genomic complement of such sequence blocks.

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Approximately 50% of the sporozoites of the Philippine (P) strain of Plasmodium knowlesi were found to react with monoclonal antibodies, produced against sporozoites of the H strain of P. knowlesi, by indirect immunofluorescence. Two of these anti-H strain monoclonal antibodies were used with the P-strain sporozoites in a neutralization assay. They selectively abolished the infectivity of part of the sporozoite population, and the remainder was designated the P2 strain. Monoclonal antibodies produced against sporozoites of the P2 strain identified two different sets of circumsporozoite proteins by Western blot analysis of an extract of these parasites, indicating the presence of two different populations of sporozoites. These two populations were separated by neutralization assays with monoclonal antibodies that recognized the two different sets of circumsporozoite proteins. The corresponding two strains were designated P3A and P3B. By Western blot analysis, two proteins with apparent molecular weights of 41,000 and 51,000 were identified in extracts of sporozoites of the P3A strain, and two proteins with molecular weights of 38,000 and 47,000 were identified in extracts of the P3B sporozoites.

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Foreign DNA was successfully introduced into the germline of the African mosquito vector of malaria Anopheles gambiae. Stable integration of genes into the germlines of insects had been achieved previously only in Drosophila melanogaster and related species and required the use of the P element transposon. In these experiments with Anopheles gambiae, the plasmid pUChsneo was used, which contains the selectable marker neo gene flanked by P element inverted repeats. Mosquitoes injected with this plasmid were screened for resistance to the neomycin analog G-418. A single event of plasmid insertion was recovered. Integration appears to be stable and, thus far, resistance to G-418 has been expressed for eight generations. The transformation event appears to be independent of P.

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To investigate the mechanisms regulating the stage specific expression of the Plasmodium knowlesi circumsporozoite (CS) antigen gene, the sporozoite genomic DNA copy of the CS gene has been isolated and compared with the blood stage genomic DNA and the sporozoite cDNA copies. The genomic DNA sequences of the two developmental stages are identical across 4 kilobase pairs of the chromosome containing the entire CS gene transcriptional unit. From restriction enzyme mapping no DNA rearrangements over 15 kilobase pairs of the chromosome containing the CS gene appear to be involved in its stage-specific expression and its regulation appears to be at the level of transcription or RNA stability. S1 nuclease and primer extension transcript mapping studies suggest that the CS mRNA has multiple start sites, that the leader sequence is devoid of introns, and is approximately 270 bases long. Consensus eukaryotic TATA and CAAT box sequences and potential regulatory elements, including sequences highly homologous to the reiterated and core enhancer sequences of SV40 precede the gene.

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The anopheline mosquito is the target in most malaria control programs, primarily through the use of residual insecticides. A mosquito was studied that is refractory to most species of malaria through a genetically controlled mechanism. A strain of Anopheles gambiae, which was selected for complete refractoriness to the simian malaria parasite Plasmodium cynomolgi, also has varying degrees of refractoriness to most other malaria species examined, including the human parasites P. falciparum, P. ovale, and P. vivax for which this mosquito is the principal African vector. Furthermore, the refractoriness extends to other subhuman primate malarias, to rodent malaria, and to avian malaria. Refractoriness is manifested by encapsulation of the malaria ookinete after it completes its passage through the mosquito midgut, approximately 16 to 24 hours after ingestion of an infective blood meal. Fully encapsulated ookinetes show no abnormalities in parasite organelles, suggesting that refractoriness is due to an enhanced ability of the host to recognize the living parasite rather than to a passive encapsulation of a dead or dying parasite. Production of fully refractory and fully susceptible mosquito strains was achieved through a short series of selective breeding steps. This result indicates a relatively simple genetic basis for refractoriness. In addition to the value these strains may serve in general studies of insect immune mechanisms, this finding encourages consideration of genetic manipulation of natural vector populations as a malaria control strategy.

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The circumsporozoite (CS) protein of the Nuri strain of the simian malarial parasite Plasmodium knowlesi was expressed as a fusion protein in E. coli. This fusion protein cross-reacted with the polyclonal monkey sera raised against irradiated sporozoites of another strain (H strain) of P. knowlesi. The antibody against the repeat units of the H strain CS protein was affinity purified from the polyclonal sera by using synthetic repeat peptides. The affinity-purified antibody did not cross-react with the Nuri CS fusion protein. The immunogenicity of different regions of the CS protein was additionally studied by using several synthetic peptides. All but the most COOH-terminal peptide showed cross-reactivity with the polyclonal sera. Because the repeat regions of the CS protein of the two strains are diverse, whereas the non-repetitive regions are immunogenic and conserved, the latter may be better suited for a potential vaccine.

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The circumsporozoite (CS) proteins of strains of the Plasmodium cynomolgi complex have been examined using antisporozoite monoclonal antibodies (Mab) in various immunologic assays. We found extensive antigenic diversity in the repeating immunodominant epitope of the CS proteins of the various strains. Based on the antigenicity and the electrophoretic mobility of their CS protein, the 11 strains that we examined can be placed in 7 distinct groups. Our data also indicate homology between the immunodominant repetitive epitopes of the CS proteins of the Berok strain of P. cynomolgi and the human malaria parasite P. vivax.

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