Your search keyword '"Hart, Terese B."' showing total 4 results

1. Malaria-driven adaptation of MHC class I in wild bonobo populations.

Author

Wroblewski EE, Guethlein LA, Anderson AG, Liu W, Li Y, Heisel SE, Connell AJ, Ndjango JN, Bertolani P, Hart JA, Hart TB, Sanz CM, Morgan DB, Peeters M, Sharp PM, Hahn BH, and Parham P

Subjects

Animals, Peptides, Phylogeny, Malaria, Falciparum genetics, Pan paniscus genetics, Pan paniscus parasitology, Plasmodium, Histocompatibility Antigens Class I genetics

Abstract

The malaria parasite Plasmodium falciparum causes substantial human mortality, primarily in equatorial Africa. Enriched in affected African populations, the B*53 variant of HLA-B, a cell surface protein that presents peptide antigens to cytotoxic lymphocytes, confers protection against severe malaria. Gorilla, chimpanzee, and bonobo are humans' closest living relatives. These African apes have HLA-B orthologs and are infected by parasites in the same subgenus (Laverania) as P. falciparum, but the consequences of these infections are unclear. Laverania parasites infect bonobos (Pan paniscus) at only one (TL2) of many sites sampled across their range. TL2 spans the Lomami River and has genetically divergent subpopulations of bonobos on each side. Papa-B, the bonobo ortholog of HLA-B, includes variants having a B*53-like (B07) peptide-binding supertype profile. Here we show that B07 Papa-B occur at high frequency in TL2 bonobos and that malaria appears to have independently selected for different B07 alleles in the two subpopulations., (© 2023. The Author(s).)

Published

2023

2. Ancient Introgression between Two Ape Malaria Parasite Species.

Author

Plenderleith LJ, Liu W, Learn GH, Loy DE, Speede S, Sanz CM, Morgan DB, Bertolani P, Hart JA, Hart TB, Hahn BH, and Sharp PM

Subjects

Animals, Evolution, Molecular, Humans, Malaria parasitology, Phylogeny, Plasmodium pathogenicity, Genetic Introgression, Pan troglodytes parasitology, Plasmodium genetics, Virulence genetics

Abstract

The Laverania clade comprises the human malaria parasite Plasmodium falciparum as well as at least seven additional parasite species that infect wild African apes. A recent analysis of Laverania genome sequences (Otto TD, et al. 2018. Genomes of all known members of a Plasmodium subgenus reveal paths to virulent human malaria. Nat Microbiol. 3: 687-697) reported three instances of interspecies gene transfer, one of which had previously been described. Generating gene sequences from additional ape parasites and re-examining sequencing reads generated in the Otto et al. study, we identified one of the newly described gene transfers as an assembly artifact of sequences derived from a sample coinfected by two parasite species. The second gene transfer between ancestors of two divergent chimpanzee parasite lineages was confirmed, but involved a much larger number of genes than originally described, many of which encode exported proteins that remodel, or bind to, erythrocytes. Because successful hybridization between Laverania species is very rare, it will be important to determine to what extent these gene transfers have shaped their host interactions., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2019

3. Wild bonobos host geographically restricted malaria parasites including a putative new Laverania species.

Author

Liu W, Sherrill-Mix S, Learn GH, Scully EJ, Li Y, Avitto AN, Loy DE, Lauder AP, Sundararaman SA, Plenderleith LJ, Ndjango JN, Georgiev AV, Ahuka-Mundeke S, Peeters M, Bertolani P, Dupain J, Garai C, Hart JA, Hart TB, Shaw GM, Sharp PM, and Hahn BH

Subjects

Animals, Animals, Wild parasitology, Congo, Feces parasitology, Malaria parasitology, Phylogeny, Plasmodium classification, Plasmodium genetics, Malaria veterinary, Pan paniscus parasitology, Plasmodium isolation & purification, Primate Diseases parasitology

Abstract

Malaria parasites, though widespread among wild chimpanzees and gorillas, have not been detected in bonobos. Here, we show that wild-living bonobos are endemically Plasmodium infected in the eastern-most part of their range. Testing 1556 faecal samples from 11 field sites, we identify high prevalence Laverania infections in the Tshuapa-Lomami-Lualaba (TL2) area, but not at other locations across the Congo. TL2 bonobos harbour P. gaboni, formerly only found in chimpanzees, as well as a potential new species, Plasmodium lomamiensis sp. nov. Rare co-infections with non-Laverania parasites were also observed. Phylogenetic relationships among Laverania species are consistent with co-divergence with their gorilla, chimpanzee and bonobo hosts, suggesting a timescale for their evolution. The absence of Plasmodium from most field sites could not be explained by parasite seasonality, nor by bonobo population structure, diet or gut microbiota. Thus, the geographic restriction of bonobo Plasmodium reflects still unidentified factors that likely influence parasite transmission.

Published

2017

4. Wild bonobos host geographically restricted malaria parasites including a putative new Laverania species.

Author

Weimin Liu, Sherrill-Mix, Scott, Learn, Gerald H., Scully, Erik J., Yingying Li, Avitto, Alexa N., Loy, Dorothy E., Lauder, Abigail P., Sundararaman, Sesh A., Plenderleith, Lindsey J., Ndjango, Jean-Bosco N., Georgiev, Alexander V., Ahuka-Mundeke, Steve, Peeters, Martine, Bertolani, Paco, Dupain, Jef, Garai, Cintia, Hart, John A., Hart, Terese B., and Shaw, George M.

Subjects

BONOBO, PLASMODIUM, GUT microbiome, DISEASE prevalence, CHIMPANZEES

Abstract

Malaria parasites, though widespread among wild chimpanzees and gorillas, have not been detected in bonobos. Here, we show that wild-living bonobos are endemically Plasmodium infected in the eastern-most part of their range. Testing 1556 faecal samples from 11 field sites, we identify high prevalence Laverania infections in the Tshuapa-Lomami-Lualaba (TL2) area, but not at other locations across the Congo. TL2 bonobos harbour P. gaboni, formerly only found in chimpanzees, as well as a potential new species, Plasmodium lomamiensis sp. nov. Rare co-infections with non-Laverania parasites were also observed. Phylogenetic relationships among Laverania species are consistent with co-divergence with their gorilla, chimpanzee and bonobo hosts, suggesting a timescale for their evolution. The absence of Plasmodium from most field sites could not be explained by parasite seasonality, nor by bonobo population structure, diet or gut microbiota. Thus, the geographic restriction of bonobo Plasmodium reflects still unidentified factors that likely influence parasite transmission. [ABSTRACT FROM AUTHOR]

Published

2017