AI Article Synopsis
- Schistosoma mansoni, responsible for human intestinal schistosomiasis, poses a public health issue in western Kenya, with two snail species, Biomphalaria sudanica and Biomphalaria choanomphala, facilitating its transmission.
- A study revealed that while B. sudanica is widely found along the lakeshore, B. choanomphala is more abundant in areas known for frequent infections, indicating a stronger role in disease transmission.
- The research showed that B. choanomphala snails have a significantly higher prevalence and produce more cercariae compared to B. sudanica after exposure to S. mansoni, suggesting they are more compatible hosts for the parasite.
Article Abstract
Schistosoma mansoni, which causes human intestinal schistosomiasis, continues to be a major public health concern in the Lake Victoria basin in western Kenya, with Biomphalaria sudanica (a shoreline inhabiting snail) and Biomphalaria choanomphala (a deep-water snail) playing roles in transmission. A recent study showed that B. sudanica was abundantly present near all study villages on the lakeshore, but B. choanomphala was significantly more abundant near villages known to be persistent transmission hotspots. The present study investigated the relative compatibility of B. sudanica and B. choanomphala with S. mansoni. A reciprocal cross-infection experiment used young adult F1 generation B. sudanica and B. choanomphala that were exposed to either 1, 5, or 10 sympatric or allopatric human-derived S. mansoni miracidia. Three weeks post-exposure (PE) and weekly thereafter, the snails were counted and screened for schistosome cercariae, and at 7 wk PE, total cercariae shed during a 2 hr period by each infected snail was determined. Pre-patent periods for S. mansoni in both B. sudanica and B. choanomphala were similar, and most snails in all exposure combinations started shedding cercariae 5 wk PE. Prevalences were significantly higher in B. choanomphala (12.2-80.9%) than in B. sudanica (5.2-18.6%) at each dose, regardless of whether miracidia were of an allopatric or a sympatric source (P < 0.0001). Overall, the odds of a snail becoming infected with 5 or 10 miracidia were significantly higher than the odds of being infected with 1 miracidium, (P < 0.0001), and fewer cercariae were produced by snails exposed to single as compared to 5 or 10 miracidia. On average, B. choanomphala produced more cercariae ( = 458, SD = 414) than B. sudanica ( = 238, SD = 208) (P < 0.0001). These results suggest that B. choanomphala is more compatible with S. mansoni than B. sudanica. Though B. choanomphala can be found in shallow shoreline waters, it is, for the most part, a deeper-water taxon. Because dredging is a relatively inefficient means of sampling, B. choanomphala is likely underestimated with respect to its population size, the number of S. mansoni-positive snails, and its role in maintaining transmission.
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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.
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Article Synopsis
- Schistosoma mansoni, responsible for human intestinal schistosomiasis, poses a public health issue in western Kenya, with two snail species, Biomphalaria sudanica and Biomphalaria choanomphala, facilitating its transmission.
- A study revealed that while B. sudanica is widely found along the lakeshore, B. choanomphala is more abundant in areas known for frequent infections, indicating a stronger role in disease transmission.
- The research showed that B. choanomphala snails have a significantly higher prevalence and produce more cercariae compared to B. sudanica after exposure to S. mansoni, suggesting they are more compatible hosts for the parasite.
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