An Evolution-Based Screen for Genetic Differentiation between Anopheles Sister Taxa Enriches for Detection of Functional Immune Factors

Mitri, Christian; Bischoff, Emmanuel; Takashima, Eizo; Williams, Marni; Eiglmeier, Karin; Pain, Adrien; Guelbeogo, Wamdaogo M.; Gnémé, Awa; Brito-Fravallo, Emma; Holm, Inge; Lavazec, Catherine; Sagnon, N’Falé; Baxter, Richard H. G.; Riehle, Michelle M.; Vernick, Kenneth D.

doi:10.1371/journal.ppat.1005306

Cited by 19 publications

(41 citation statements)

References 77 publications

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“…gambiae S and M molecular forms, respectively 2 . The two species occupy different larval ecological niches, and are probably adapted to distinct microbial communities 3–5 . Multiple studies have catalogued the prokaryotic microbiota composition of different Anopheles mosquito populations by sequencing of 16s rRNA hypervariable regions 6–13 .…”

Section: Introductionmentioning

confidence: 99%

Preferential suppression of Anopheles gambiae host sequences allows detection of the mosquito eukaryotic microbiome

Belda

Coulibaly

Fofana

et al. 2017

Sci Rep

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Anopheles mosquitoes are vectors of the human malaria parasite, Plasmodium falciparum. The vector microbiota is a likely factor influencing parasite transmission. The prokaryotic microbiota of mosquitoes is efficiently surveyed by sequencing of hypervariable regions of the 16s ribosomal RNA (rRNA) gene. However, identification of the eukaryotic microbiota by targeting the 18s rRNA gene is challenging due to simultaneous amplification of the abundant 18s rRNA gene target in the mosquito host. Consequently, the eukaryotic microbial diversity of mosquitoes is vastly underexplored. An efficient methodology is needed to identify this component of the microbiota, expected to include relatives of Plasmodium. Here, we use defined panels of Anopheles samples from West Africa to test two experimental PCR clamp approaches to maximize the specific amplification of 18s rRNA gene hypervariable regions from eukaryotic microbes: anneal-inhibiting blocking primers and peptide-nucleic acid (PNA) oligonucleotide blockers. Of the two, PNA blockers were the only efficient blocking strategy, allowing a reduction of mosquito 18s rRNA gene sequences by more than 80% for the V4 hypervariable region. These PNA blockers will facilitate taxonomic profiling of the eukaryotic microbiota of the A. gambiae species complex, and contribute to a better understanding of microbial influence upon immunity and pathogen infection.

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Section: Introductionmentioning

confidence: 99%

Preferential suppression of Anopheles gambiae host sequences allows detection of the mosquito eukaryotic microbiome

Belda

Coulibaly

Fofana

et al. 2017

Sci Rep

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“…These results are in contrast to silencing of the three APL1 paralogs In A. coluzzii , which consistently leads to elevated Plasmodium infection levels (18, 19) but not elevated mortality (Figure 3). Therefore, the three APL1 paralogs confer protection against Plasmodium infection independently of the need to protect against bacteria.…”

Section: Resultsmentioning

confidence: 69%

“…This observation suggests that the bacteria leading to elevated mortality in APL1-depleted A. stephensi are likely of enteric origin. The three APL1 paralogs found in the Gambiae complex are known to mediate protection from Plasmodium infection (19), but their involvement in protection against other pathogens including bacteria has not been reported.…”

Section: Resultsmentioning

confidence: 99%

“…Both strains are housed in the insectaries of the CEPIA platform at the Institut Pasteur, Paris. Mosquitoes were reared under standard conditions at 26°C and 80% relative humidity, with a 12 h light/dark cycle and continuous access to 10% sucrose solution in cotton pads (19).…”

Section: Methodsmentioning

confidence: 99%

“…The paralogs display distinct spectra of protection for different pathogen classes (18–20). APL1A activity inhibits development of the human parasite P. falciparum , while APL1C activity inhibits rodent malaria species (16), and APL1B modulates protection against both P. falciparum and the rodent parasites (19).…”

Section: Introductionmentioning

confidence: 99%

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The APL1 immune factor is encoded by a single ancestral gene in mostAnophelesspecies and expanded to three paralogs with distinct function in theAnopheles gambiaecomplex

Mitri

Bischoff

Eiglmeier

et al. 2019

Preprint

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BackgroundThe recent reference genome assembly and annotation of the Asian malaria vector Anopheles stephensi revealed only one gene encoding the leucine-rich repeat immune factor APL1, while in Anopheles gambiae and sibling Anopheles coluzzii, APL1 factors are encoded by a family of three paralogs. The phylogeny and biological function of the unique APL1 gene in A. stephensi have not yet been specifically examined.MethodsThe APL1 locus was manually sequenced to confirm the computationally predicted single APL1 gene in A. stephensi, and APL1 evolution within Anopheles was explored by phylogenomic analysis. The single or paralogous APL1 genes were silenced in A. stephensi and A. coluzzii, respectively, followed by mosquito survival analysis, experimental infection with Plasmodium, and expression analysis.ResultsAPL1 is present as a single ancestral gene in most Anopheles including A. stephensi, but has expanded to three paralogs in an African lineage that includes only the Gambiae species complex and Anopheles christyi. Silencing of the unique APL1 copy in A. stephensi results in significant mosquito mortality. Elevated mortality of APL1-depleted A. stephensi is rescued by antibiotic treatment, suggesting that bacteria are the cause of mortality, and that the unique APL1 gene is essential for host survival. Successful Plasmodium development in A. stephensi depends upon APL1 activity for protection from high host mortality, probably caused by exposure to enteric bacteria when parasites cross the midgut epithelial barrier. In contrast, silencing of all three APL1 paralogs in A. coluzzii does not result in elevated mortality, either with or without Plasmodium infection. Expression of the single APL1 gene is regulated by both the Imd and Toll immune pathways, while control by the two pathways is subdivided to different paralogs in the expanded APL1 locus.ConclusionsAPL1 underwent neofunctionalization with both loss and gain of functions concomitant with expansion from a single ancestral gene to three paralogs in one lineage of African Anopheles. The evolution of an expanded APL1 gene family could be a factor contributing to the exceptional levels of malaria transmission mediated by human-feeding members of the Gambiae complex in Africa.

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Complement-Like System in the Mosquito Responses Against Malaria Parasites

Levashina

Baxter

2018

Complement Activation in Malaria Immunity and Pathogenesis

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An Evolution-Based Screen for Genetic Differentiation between Anopheles Sister Taxa Enriches for Detection of Functional Immune Factors

Cited by 19 publications

References 77 publications

Preferential suppression of Anopheles gambiae host sequences allows detection of the mosquito eukaryotic microbiome

Preferential suppression of Anopheles gambiae host sequences allows detection of the mosquito eukaryotic microbiome

The APL1 immune factor is encoded by a single ancestral gene in mostAnophelesspecies and expanded to three paralogs with distinct function in theAnopheles gambiaecomplex

Complement-Like System in the Mosquito Responses Against Malaria Parasites

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