Bacillus thuringiensis toxins divert progenitor cells toward enteroendocrine fate by decreasing cell adhesion with intestinal stem cells in Drosophila

• Published in: eLife Vol. 12
• Main Authors: Jneid, Rouba, Loudhaief, Rihab, Zucchini-Pascal, Nathalie, Nawrot-Esposito, Marie-Paule, Fichant, Arnaud, Rousset, Raphael, Bonis, Mathilde, Osman, Dani, Gallet, Armel
• Format: Journal Article
• Language: English
• Published: England eLife Sciences Publication 27.02.2023; eLife Sciences Publications, Ltd; eLife Sciences Publications Ltd
• Subjects: Animals; bacillus thurigiensis; Bacillus thuringiensis; Bacillus thuringiensis Toxins - adverse effects; Bacteriology; Cell Adhesion; Cell Biology; Crops, Agricultural; Cry1A toxins; Drosophila melanogaster; E-Cadherins; enteroendocrine cells; intestinal stem cells; Life Sciences; Microbiology and Parasitology; Plants, Genetically Modified; Stem Cells - drug effects; Toxicology; Toxicology and food chain; enteroendocrine cells; bacillus thurigiensis; cell biology; E-Cadherins; intestinal stem cells; Cry1A toxins; D. melanogaster; Drosophila melanogaster
• ISSN: 2050-084X; 2050-084X
• DOI: 10.7554/eLife.80179

subsp. ( ) is a strong pathogen toward lepidopteran larvae thanks to specific Cry toxins causing leaky gut phenotypes. Hence, and its toxins are used worldwide as microbial insecticide and in genetically modified crops, respectively, to fight crop pests. However, belongs to the group, some strains of which are well known human opportunistic pathogens. Therefore, ingestion of along with food may threaten organisms not susceptible to infection. Here we show that Cry1A toxins induce enterocyte death and intestinal stem cell (ISC) proliferation in the midgut of , an organism non-susceptible to . Surprisingly, a high proportion of the ISC daughter cells differentiate into enteroendocrine cells instead of their initial enterocyte destiny. We show that Cry1A toxins weaken the E-Cadherin-dependent adherens junction between the ISC and its immediate daughter progenitor, leading the latter to adopt an enteroendocrine fate. Hence, although not lethal to non-susceptible organisms, Cry toxins can interfere with conserved cell adhesion mechanisms, thereby disrupting intestinal homeostasis and endocrine functions.