The interaction of secreted phospholipase A2-IIA with the microbiota alters its lipidome and promotes inflammation
Etienne Doré, … , Arnaud Droit, Eric Boilard
Etienne Doré, … , Arnaud Droit, Eric Boilard
Published January 25, 2022
Citation Information: JCI Insight. 2022;7(2):e152638. https://doi.org/10.1172/jci.insight.152638.
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Research Article Inflammation Microbiology

The interaction of secreted phospholipase A2-IIA with the microbiota alters its lipidome and promotes inflammation

Abstract

Secreted phospholipase A2-IIA (sPLA2-IIA) hydrolyzes phospholipids to liberate lysophospholipids and fatty acids. Given its poor activity toward eukaryotic cell membranes, its role in the generation of proinflammatory lipid mediators is unclear. Conversely, sPLA2-IIA efficiently hydrolyzes bacterial membranes. Here, we show that sPLA2-IIA affects the immune system by acting on the intestinal microbial flora. Using mice overexpressing transgene-driven human sPLA2-IIA, we found that the intestinal microbiota was critical for both induction of an immune phenotype and promotion of inflammatory arthritis. The expression of sPLA2-IIA led to alterations of the intestinal microbiota composition, but housing in a more stringent pathogen-free facility revealed that its expression could affect the immune system in the absence of changes to the composition of this flora. In contrast, untargeted lipidomic analysis focusing on bacteria-derived lipid mediators revealed that sPLA2-IIA could profoundly alter the fecal lipidome. The data suggest that a singular protein, sPLA2-IIA, produces systemic effects on the immune system through its activity on the microbiota and its lipidome.

Authors

Etienne Doré, Charles Joly-Beauparlant, Satoshi Morozumi, Alban Mathieu, Tania Lévesque, Isabelle Allaeys, Anne-Claire Duchez, Nathalie Cloutier, Mickaël Leclercq, Antoine Bodein, Christine Payré, Cyril Martin, Agnes Petit-Paitel, Michael H. Gelb, Manu Rangachari, Makoto Murakami, Laetitia Davidovic, Nicolas Flamand, Makoto Arita, Gérard Lambeau, Arnaud Droit, Eric Boilard

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Figure 3

Impact of the housing environment on the immune phenotype.

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Impact of the housing environment on the immune phenotype. WT and sPLA2-...
WT and sPLA2-IIATGN mice were housed in an Elite SPF+ animal facility for 14 months before the severity of the immune phenotype was assessed. (A) Representative mandibular lymph nodes (MDLN, white arrows) of sPLA2-IIATGN mice (n = 12). (B) Weight of MDLNs (n = 24), ILNs (n = 8–10), PLNs (n = 8–10), and spleen (n = 12) of both mouse groups. (CE) Flow cytometric analysis with markers targeting T cells (CD3+CD19), B cells (CD19+CD3), and granulocytes (Gr1+). (CE) Counts are displayed for MDLNs (n = 5), and the proportion of each cell type is displayed for the BM (n = 5–6) and spleen (n = 5–6) of WT and sPLA2-IIATGN mice. (F) Quantification of IgG (n = 10–11) and IgA (n = 5) by ELISA and IL-17A (n = 13–17) by cytometric bead array in the serum of WT and sPLA2-IIATGN mice. (BE) Fold decrease of sPLA2-IIATGN mice housed in the Elite environment compared with sPLA2-IIATGN mice housed in the SPF animal facility is represented as a number in parentheses over each graph. Dotted line represents mean of sPLA2-IIATGN mice housed in the SPF animal facility (see Figure 1). Data from 3–4 separate experiments are presented as mean ± SEM. Statistical analysis included unpaired t test. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.