# Dual-transcriptomics on microdissected cells reveals functional specialisation of symbiont-bearing-cells and contrasted responses to nutritional stress in the cereal weevil

**Authors:** Nikoletta Galambos, Nicolas Parisot, Agnès Vallier, Claudia Bevilacqua, Séverine Balmand, Carole Vincent-Monégat, Rita Rebollo, Benjamin Gillet, Sandrine Hughes, Abdelaziz Heddi, Anna Zaidman-Rémy

PMC · DOI: 10.1186/s40168-025-02164-0 · Microbiome · 2025-08-06

## TL;DR

This study explores how symbiotic bacteria in cereal weevils affect host cell functions and metabolism, revealing specialized roles in different cell types.

## Contribution

The study provides new insights into the functional specialization of bacteriocyte cell types and their responses to nutritional stress in the cereal weevil.

## Key findings

- Peripheral bacteriocytes show enhanced fatty-acid and amino acid metabolism when associated with endosymbionts.
- Central bacteriocytes overexpress transport and G-protein signaling-related genes compared to peripheral bacteriocytes.
- Diet composition significantly impacts gene expression in both host cells and endosymbionts.

## Abstract

Insects thriving on a nutritionally imbalanced diet often establish long-term relationships with intracellular symbiotic bacteria (endosymbionts), which complement their nutritional needs and improve their physiological performances. Endosymbionts are in host specialised cells, called the bacteriocytes, which in many insects group together to form a symbiotic organ, the bacteriome. The cereal weevil Sitophilus oryzae houses multiple bacteriomes at the adult mesenteric caeca.

Using microscopic cell imaging, we revealed that bacteriomes consist of several cell types, including progenitor cells, peripheral bacteriocytes, central bacteriocytes and epithelial cells. By combining laser capture microdissection and dual RNA-sequencing, we showed that both host cell types and their associated endosymbionts express distinct transcriptional profiles. The comparison between peripheral bacteriocytes and midgut cells from insects artificially deprived from endosymbionts (aposymbiotic) unravelled cellular pathways modulated by the presence of endosymbionts. The cell-specific response to endosymbionts in peripheral bacteriocytes includes a boost of fatty-acid and amino acid metabolisms. We found that central bacteriocytes overexpress transport and G-protein signalling-related genes when compared to peripheral bacteriocytes, indicating a signalling and/or transport function of these cells. Diet composition strongly impacts host and endosymbiont gene expression and reveals a molecular trade-off among metabolic pathways.

This study provides evidence on how endosymbionts interfere and enhance metabolic performances of insect bacteriocytes and highlights key genes involved in the bacteriocyte differentiation and metabolic pathways.

Video Abstract

Video Abstract

The online version contains supplementary material available at 10.1186/s40168-025-02164-0.

## Linked entities

- **Species:** Sitophilus oryzae (taxon 7048)

## Full-text entities

- **Chemicals:** acid (MESH:D000143), fatty-acid (MESH:D005227)
- **Species:** Sitophilus oryzae (rice weevil, species) [taxon 7048]

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12326831/full.md

## References

9 references — full list in the complete paper: https://tomesphere.com/paper/PMC12326831/full.md

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Source: https://tomesphere.com/paper/PMC12326831