4 results on '"Nelly Carmago"'
Search Results
2. Bulk Segregant Approaches to Nutritional Genomics in Plasmodium falciparum
- Author
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François Nosten, Katelyn M. Vendrely, Ashley M. Vaughan, Ann N. Reyes, Abeer Sayeed, Ian H. Cheeseman, Xue Li, Michael T. Ferdig, Lisa A. Checkley, Katrina A. Button-Simons, Sudhir Kumar, Tim J. Anderson, Spencer Y. Kennedy, Marina McDew-White, Stefan H. I. Kappe, Meseret Haile, and Nelly Carmago
- Subjects
Genetics ,Candidate gene ,Nutritional genomics ,biology ,parasitic diseases ,biology.protein ,Chromosome ,Aspartate transaminase ,Plasmodium falciparum ,Allele ,biology.organism_classification ,Cysteine protease ,Allele frequency - Abstract
Nutrient acquisition/metabolism pathways provide potent targets for drug design. We conducted crosses between African (NF54) and Asian (NHP4026) malaria parasites, and compared genome-wide allele frequency changes in independent progeny populations grown in human serum or AlbuMAX, a commercial bovine serum formulation. We detected three QTLs linked with differential growth that contained strong candidate genes: aspartate transaminase AST (chromosome 2), cysteine protease ATG4 (chr. 13) and EBA-140 (chr. 14). Alleles inherited from NF54 (chr. 2 and 14) and from NHP4026 (chr. 13) were positively selected in AlbuMAX, while the same alleles were selected against in serum. Selection driving differential growth was strong (s = 0.10 – 0.23 per 48-hour lifecycle) and observed in all biological replicates. These results demonstrate the effectiveness of bulk segregant approaches for revealing nutritional polymorphisms in Plasmodium falciparum. This approach will allow systematic dissection of nutrient acquisition/metabolism pathways that are potential targets for intervention against P. falciparum.
- Published
- 2021
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3. Surprising variation in the outcome of two malaria genetic crosses using humanized mice: implications for genetic mapping and malaria biology
- Author
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Xue Li, Ashley M. Vaughan, François Nosten, Sudhir Kumar, Marina McDew-White, Scott J. Emrich, Catherine Jett, Tim J. Anderson, Spencer Y. Kennedy, Ian H. Cheeseman, Katrina A. Button-Simons, Douglas A Shou, Lisa A. Checkley, Stefan H. I. Kappe, Jeanne Romero-Severson, Richard S. Pinapati, Michael T. Ferdig, Meseret Haile, and Nelly Carmago
- Subjects
Genetics ,Gene mapping ,Genetic linkage ,Sympatric speciation ,Genotype ,Allopatric speciation ,Epistasis ,Allele ,Biology ,Inbreeding - Abstract
Genetic crosses are most powerful for linkage analysis when progeny numbers are high, when parental alleles segregate evenly and, for hermaphroditic organisms, when numbers of inbred progeny are minimized. We previously developed a novel genetic crossing platform for the human malaria parasite Plasmodium falciparum, an obligately sexual, hermaphroditic protozoan, using mice carrying human hepatocytes (the human liver-chimeric FRG NOD huHep mouse) as the vertebrate host. Here we examine the statistical power of two different genetic crosses – (1) between a laboratory parasite (NF54) of African origin and a patient-derived Asian parasite, and (2) between two sympatric patient-derived Asian parasites. We generated >140 unique recombinant clones over a 12-month period from the four parental genotypes, doubling the number of unique recombinant progeny generated in the previous 30 years. Both crosses show bi-parental inheritance of plastid markers amongst recombinant progeny, in contrast to previous crosses (conducted using chimpanzee hosts) which carried single dominant plastid genotypes. Both crosses show distinctive segregation patterns. The allopatric African/Asian cross has minimal levels of inbreeding (2% of clonal progeny are inbred) and extreme skews in marker segregation, while in the sympatric Asian cross, inbred progeny predominate (66% of clonal progeny are inbred) and parental alleles segregate evenly. Using simulations, we demonstrate that these progeny arrays (particularly the sympatric Asian cross) have excellent power to map large-effect mutations to a 31 kb interval and can capture complex, epistatic interactions that were far beyond the capacity of previous malaria crosses to detect. The extreme segregation distortion in the allopatric African/Asian cross erodes power to detect linkage in several genome regions, but the repeatable distortions observed offer promising alternative approaches to identifying genes underlying traits of interest. These crosses show surprising variation in marker segregation, nevertheless, the increased progeny numbers improve our ability to rapidly map biomedically important parasite traits.Author SummaryUnderstanding how genome mutations contribute to newly emerging drug resistance in parasites like Plasmodium falciparum is important to monitor the spread of drug resistance. This scenario has been playing out in Southeast Asia with the emergence and spread of artemisinin resistance. Here we show that new P. falciparum genetic crosses, using mice carrying human liver cells and infused with human red blood cells (the human liver-chimeric FRG NOD huHep/huRBC mouse), provide an important new tool for understanding complex interactions underlying drug resistance phenotypes. We report two new genetic maps with 84 and 60 unique recombinant progeny, which doubles the number of progeny available from 4 previous P. falciparum genetic crosses. Through extensive simulations we show that with 84 progeny we can find association for a gene that controls only 20% of the variation in a phenotype. We also show that a cross generated from Southeast Asian parasites collected from the same geographic region have unique characteristics not previously observed in P. falciparum genetic crosses. This Southeast Asian cross exhibits even segregation across the genome, unbiased inheritance of mitochondria and apicoplast and higher levels of inbreeding than previously observed.
- Published
- 2019
- Full Text
- View/download PDF
4. Immunization of Malaria-Preexposed Volunteers With PfSPZ Vaccine Elicits Long-Lived IgM Invasion-Inhibitory and Complement-Fixing Antibodies
- Author
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Will Betz, Thao Nguyen, Stefan H. I. Kappe, Nelly Carmago, Isabelle Zenklusen, Hayley Cardamone, Brandon K. Sack, Claudia Daubenberger, Salim Abdulla, Sebastian A. Mikolajczak, Kamaka Ramadhani, Stephen L. Hoffman, Said Jongo, B. Kim Lee Sim, Ryan W.J. Steel, Matthew Fishbaugher, and Erika L. Flannery
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0301 basic medicine ,Adult ,Male ,Volunteers ,Plasmodium falciparum ,Antibodies, Protozoan ,Vaccines, Attenuated ,Immunoglobulin G ,03 medical and health sciences ,Young Adult ,Major Articles and Brief Reports ,0302 clinical medicine ,Double-Blind Method ,parasitic diseases ,Malaria Vaccines ,Immunology and Allergy ,Medicine ,Humans ,030212 general & internal medicine ,Malaria, Falciparum ,biology ,business.industry ,Vaccination ,Complement fixation test ,biology.organism_classification ,Virology ,PfSPZ vaccine ,Malaria ,Circumsporozoite protein ,030104 developmental biology ,Infectious Diseases ,Immunization ,Immunoglobulin M ,Sporozoites ,Antibody Formation ,biology.protein ,Antibody ,business - Abstract
Background The assessment of antibody responses after immunization with radiation-attenuated, aseptic, purified, cryopreserved Plasmodium falciparum sporozoites (Sanaria PfSPZ Vaccine) has focused on IgG isotype antibodies. Here, we aimed to investigate if P. falciparum sporozoite binding and invasion-inhibitory IgM antibodies are induced following immunization of malaria-preexposed volunteers with PfSPZ Vaccine. Methods Using serum from volunteers immunized with PfSPZ, we measured vaccine-induced IgG and IgM antibodies to P. falciparum circumsporozoite protein (PfCSP) via ELISA. Function of this serum as well as IgM antibody fractions was measured via in vitro in an inhibition of sporozoite invasion assay. These IgM antibody fractions were also measured for binding to sporozoites by immunofluorescence assay and complement fixation on whole sporozoites. Results We found that in addition to anti-PfCSP IgG, malaria-preexposed volunteers developed anti-PfCSP IgM antibodies after immunization with PfSPZ Vaccine and that these IgM antibodies inhibited P. falciparum sporozoite invasion of hepatocytes in vitro. These IgM plasma fractions also fixed complement to whole P. falciparum sporozoites. Conclusions This is the first finding that PfCSP and P. falciparum sporozoite-binding IgM antibodies are induced following immunization of PfSPZ Vaccine in malaria-preexposed individuals and that IgM antibodies can inhibit P. falciparum sporozoite invasion into hepatocytes in vitro and fix complement on sporozoites. These findings indicate that the immunological assessment of PfSPZ Vaccine-induced antibody responses could be more sensitive if they include parasite-specific IgM in addition to IgG antibodies. Clinical trials registration NCT02132299.
- Published
- 2017
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