Your search keyword '"Ogara, George"' showing total 5 results

1. The genome and transcriptome of the snail Biomphalaria sudanica s.l.: immune gene diversification and highly polymorphic genomic regions in an important African vector of Schistosoma mansoni

Author

Pennance, Tom, Calvelo, Javier, Tennessen, Jacob A., Burd, Ryan, Cayton, Jared, Bollmann, Stephanie R., Blouin, Michael S., Spaan, Johannie M., Hoffmann, Federico G., Ogara, George, Rawago, Fredrick, Andiego, Kennedy, Mulonga, Boaz, Odhiambo, Meredith, Loker, Eric S., Laidemitt, Martina R., Lu, Lijun, Iriarte, Andrés, Odiere, Maurice R., and Steinauer, Michelle L.

Published

2024

2. Multi-strain compatibility polymorphism between a parasite and its snail host, a neglected vector of schistosomiasis in Africa

Author

Spaan, Johannie M., Pennance, Tom, Laidemitt, Martina R., Sims, Nicole, Roth, Jewell, Lam, Yvonne, Rawago, Fredrick, Ogara, George, Loker, Eric S., Odiere, Maurice R., and Steinauer, Michelle L.

Published

2023

3. Diet of schistosome vectors influences infection outcomes.

Author

Trapp, Joshua, Yu, Wesley, Spaan, Johannie M., Pennance, Tom, Rawago, Fredrick, Ogara, George, Odiere, Maurice R., and Steinauer, Michelle L.

Subjects

RESOURCE availability (Ecology), SCHISTOSOMA mansoni, BIOMPHALARIA, PHENOTYPIC plasticity, SNAILS, TREMATODA

Abstract

Resource availability can alter infection outcomes through its impact on host immunity and on parasite reproduction. On one hand, enhanced nutrition could favor immunity, limiting the parasite, and on the other hand, it could favor establishment and reproduction of the parasite. Our study aimed to determine the effect of diet on (1) host susceptibility to infection and (2) parasite production in a snail‐trematode system. We fed Biomphalaria sudanica, a snail vector of Schistosoma mansoni, either a strict lettuce (low nutrient) or pellet (high nutrient) diet for two generations before exposing them to S. mansoni. We used two parasite strains, one that is incompatible with the snails and one that is compatible with the snails. We found that when exposed to incompatible parasites, diet did not affect snail susceptibility significantly as few snails were infected overall. However, when challenged with the compatible parasites, snails fed the high‐nutrient diet were more susceptible to infection than their low‐nutrient‐fed counterparts. The high‐nutrient‐fed snails also produced more cercariae than low‐nutrient‐fed snails, but this advantage was lost after the initial assessment at 8 weeks. Snails that obtained infections were either kept on their initial diet or switched to the other diet. This experiment showed that snails switched from a low‐to‐high‐nutrient diet produced more cercariae than those remaining on the low‐nutrient diet and similar numbers to those remaining on the high‐nutrient diet. Unexpectedly, the reciprocal diet switch (high to low nutrient) initially resulted in more cercariae relative to controls, but the pattern reversed after initial assessment. This study showed that available resources can impact the susceptibility of the vector host and the reproductive capacity of the parasites, with higher nutrients favoring parasite establishment and reproduction, highlighting the plasticity of susceptibility phenotypes, which also have a strong genetic basis. These data can aid predictions of how future environmental changes and resource availability may impact parasite transmission. [ABSTRACT FROM AUTHOR]

Published

2024

4. Immune targets for schistosomiasis control identified by a genome-wide association study of East African snail vectors.

Author

Pennance T, Tennessen JA, Spaan JM, McQuistan T, Ogara G, Rawago F, Andiego K, Mulonga B, Odhiambo M, Mutuku MW, Mkoji GM, Loker ES, Odiere MR, and Steinauer ML

Abstract

Schistosomiasis, afflicting >260 million people worldwide, could be controlled by preventing infection of freshwater snail vectors. Intestinal schistosomiasis, caused by Schistosoma mansoni , occurs predominantly in Sub-Saharan Africa and is vectored by Biomphalaria sudanica and related Biomphalaria species. Despite their importance in transmission, very little genomic work has been initiated in African snails, thus hindering development of novel control strategies. To identify genetic factors influencing snail resistance to schistosomes, we performed a pooled genome-wide association study (pooled-GWAS) on the offspring of B. sudanica collected from a persistent hotspot of schistosomiasis in Lake Victoria, Kenya, and exposed to sympatric S. mansoni . Results of the pooled-GWAS were used to develop an amplicon panel to validate candidate loci by genotyping individual snails. This validation revealed two previously uncharacterized, evolutionarily dynamic regions, SudRes1 and SudRes2 , that were significantly associated with resistance. SudRes1 includes receptor-like protein tyrosine phosphatases and SudRes2 includes a class of leucine-rich repeat-containing G-protein coupled receptors, both comprising diverse extracellular binding domains, suggesting roles in pathogen recognition. No loci previously tied to schistosome resistance in other snail species showed any association with compatibility suggesting that loci involved in the resistance of African vectors differ from those of neotropical vectors. Beyond these two loci, snail ancestry was strongly correlated with schistosome compatibility, indicating the importance of population structure on transmission dynamics and infection risk. These results provide the first detail of the innate immune system of the major schistosome vector, B. sudanica , informing future studies aimed at predicting and manipulating vector competence., Competing Interests: Competing Interest Statement: The authors declare no competing interests

Published

2024

5. The genome and transcriptome of the snail Biomphalaria sudanica s.l. : Immune gene diversification and highly polymorphic genomic regions in an important African vector of Schistosoma mansoni .

Author

Pennance T, Calvelo J, Tennessen JA, Burd R, Cayton J, Bollmann SR, Blouin MS, Spaan JM, Hoffmann FG, Ogara G, Rawago F, Andiego K, Mulonga B, Odhiambo M, Loker ES, Laidemitt MR, Lu L, Iriarte A, Odiere M, and Steinauer ML

Abstract

Background: Control and elimination of schistosomiasis is an arduous task, with current strategies proving inadequate to break transmission. Exploration of genetic approaches to interrupt Schistosoma mansoni transmission, the causative agent for human intestinal schistosomiasis in sub-Saharan Africa and South America, has led to genomic research of the snail vector hosts of the genus Biomphalaria. Few complete genomic resources exist, with African Biomphalaria species being particularly underrepresented despite this being where the majority of S. mansoni infections occur. Here we generate and annotate the first genome assembly of Biomphalaria sudanica sensu lato, a species responsible for S. mansoni transmission in lake and marsh habitats of the African Rift Valley. Supported by whole-genome diversity data among five inbred lines, we describe orthologs of immune-relevant gene regions in the South American vector B. glabrata and present a bioinformatic pipeline to identify candidate novel pathogen recognition receptors (PRRs)., Results: De novo genome and transcriptome assembly of inbred B. sudanica originating from the shoreline of Lake Victoria (Kisumu, Kenya) resulted in a haploid genome size of ~944.2 Mb (6732 fragments, N50=1.067 Mb), comprising 23,598 genes (BUSCO=93.6% complete). The B. sudanica genome contains orthologues to all described immune genes/regions tied to protection against S. mansoni in B. glabrata. The B. sudanica PTC2 candidate immune genomic region contained many PRR-like genes across a much wider genomic region than has been shown in B. glabrata, as well as a large inversion between species. High levels of intra-species nucleotide diversity were seen in PTC2, as well as in regions linked to PTC1 and RADres orthologues. Immune related and putative PRR gene families were significantly over-represented in the sub-set of B. sudanica genes determined as hyperdiverse, including high extracellular diversity in transmembrane genes, which could be under pathogen-mediated balancing selection. However, no overall expansion in immunity related genes were seen in African compared to South American lineages., Conclusions: The B. sudanica genome and analyses presented here will facilitate future research in vector immune defense mechanisms against pathogens. This genomic/transcriptomic resource provides necessary data for the future development of molecular snail vector control/surveillance tools, facilitating schistosome transmission interruption mechanisms in Africa.

Published

2023