5 research outputs found

    Microbiota-induced peritrophic matrix regulates midgut homeostasis and prevents systemic infection of malaria vector mosquitoes

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    <div><p>Manipulation of the mosquito gut microbiota can lay the foundations for novel methods for disease transmission control. Mosquito blood feeding triggers a significant, transient increase of the gut microbiota, but little is known about the mechanisms by which the mosquito controls this bacterial growth whilst limiting inflammation of the gut epithelium. Here, we investigate the gut epithelial response to the changing microbiota load upon blood feeding in the malaria vector <i>Anopheles coluzzii</i>. We show that the synthesis and integrity of the peritrophic matrix, which physically separates the gut epithelium from its luminal contents, is microbiota dependent. We reveal that the peritrophic matrix limits the growth and persistence of <i>Enterobacteriaceae</i> within the gut, whilst preventing seeding of a systemic infection. Our results demonstrate that the peritrophic matrix is a key regulator of mosquito gut homeostasis and establish functional analogies between this and the mucus layers of the mammalian gastrointestinal tract.</p></div

    The peritrophic matrix regulates immune resistance to the microbiota.

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    <p><b>(A)</b> RNA-seq transcriptional profiles of <i>CEC1</i> and <i>GAM1</i> in the midgut of control (black lines) and antibiotic fed (grey lines) mosquitoes over a two blood meal (BM1 and BM2) time course. Dots indicate normalized counts in each of four biological replicates, with the line connecting the means. Statistical significance of a pairwise comparison of counts at each time point was assessed by a Wald test with a Benjamini-Hochberg correction. ‘*’ p<0.05; ‘**’ p<0.01; ‘***’ p<0.001 (<b>B)</b> <i>GAM1</i> expression, relative to AgS7, in the midgut 24h after feeding with blood supplemented with 100μM polyoxin D (PxD) or an equal volume of water (control), plus or minus antibiotic treatment, as determined by qRT-PCR. Mean plus/minus standard error is indicated. Statistical significance was assessed by an ANOVA on a linear mixed effect regression model. Each dot represents a pool of 8–10 guts, derived from 4–5 independent experiments. Ratios are normalized within biological replicates to the mean of the control pools (no polyoxin D, no antibiotics). <b>(C)</b> <i>Enterobacteriaceae</i> load, relative to AgS7, as determined by qRT-PCR using <i>Enterobacteriaceae</i> specific 16S primers. Normalization and statistical analysis were performed as described for (B). <b>(D)</b> Scatter plots of the load of specific bacteria families commonly found in the mosquito gut against <i>GAM1</i> expression in the midguts of control (top row) or polyoxin D-treated (bottom row) mosquitoes. Spearman’s rank correlation coefficient (r) and associated p-values (p) are indicated.</p

    The peritrophic matrix prevents microbiota dissemination and systemic immune induction.

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    <p><b>(A-C)</b><i>CEC1</i> expression (A), <i>16S rRNA</i> quantification (B) and <i>Enterobacteriaceae 16S rRNA</i> quantification (C) in the carcass 72h after feeding with a blood meal supplemented with 100μM polyoxin D or water as a control, plus or minus antibiotic treatment, as determined by qRT-PCR. Each dot represents a pool of 8–10 carcasses, derived from 4 independent experiments. Data show mean and standard error. In A, ratios are normalized within biological replicates to the mean of the control pools (no polyoxin D, no antibiotics). In B-C, ratios are normalized within each biological replicate to the highest value across all conditions (‘100%’). In A-C, statistical significance was assessed by an ANOVA on a linear mixed effect regression model. <b>(D)</b> Scatter plots of relative <i>Enterobacteriaceae</i> load against <i>CEC1</i> expression in the carcass at 72h post blood feeding. Each dot represents a pool of 8–10 carcasses, derived from 4 independent experiments; data are normalized as in B and C. Spearman’s rank correlation coefficient and associated p-values are indicated. ‘*’ p<0.05.</p

    Effect of oral antibiotic treatment on the gene expression of the mosquito midgut.

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    <p><b>(A)</b> Bacterial load in the guts of 4 control and 4 antibiotic treated mosquito cohorts throughout a two blood meal (BM1 and BM2) time course assessed by qRT-PCR using universal 16S primers. Data were normalized within each biological replicate to the bacterial load in the control 96h sample. The mean plus/minus the standard error is shown. <b>(B)</b> Principal components analysis (PCA) plot of the 40 sequenced midgut samples after variance stabilizing transformation of count data. <b>(C)</b> Number of genes that were significantly upregulated (white bars) or downregulated (black bars) in each of the time points following antibiotic treatment. Genes showing an adjusted p-value <0.1 (Wald test with a Benjamini-Hochberg correction) were considered to be significantly regulated.</p

    The peritrophic matrix promotes restoration of gut homeostasis after blood feeding.

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    <p><b>(A)</b> Midgut bacterial load at 24h and 48h after a blood meal, as determined by qRT-PCR. At 48h, midguts were pooled according to whether (+) or not (-) the blood bolus was present. Each dot represents a pool of 5 guts, derived from two independent experiments. Ratios are normalized within biological replicates to the mean of the 24h pools. Mean plus/minus standard error is indicated. Statistical significance was assessed by an ANOVA on a linear mixed effect regression model. ‘*’ p<0.05; ‘**’ p<0.01; ‘***’ p<0.001. <b>(B)</b> <i>Enterobacteriaceae</i> and <i>Acetobacteraceae</i> load in midguts 72h after feeding on blood supplemented with 100μM polyoxin D (PxD) or an equal volume of water (control), as determined by qRT-PCR. Each dot represents a pool of 8–10 guts, derived from 4 independent experiments. Ratios are normalized within biological replicates to the mean of the control pools. Mean plus/minus standard error is indicated. Statistical significance was assessed and is presented as described above. <b>(C)</b> Thin abdominal section 24h post blood meal stained with anti-LPS antibody. White arrowheads indicate LPS staining. <b>(D)</b> Gram-stained thin abdominal sections 24h post blood meal, with or without polyoxin D supplementation. Bacteria are stained light purple. “Lu” lumen; “Ep” epithelium.</p
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