Multiomics Integration for the Function of Bacterial Outer Membrane Vesicles in the Larval Settlement of Marine Sponges

Overview

Journal Front Microbiol

Specialty Microbiology

Date 2024 Mar 12

PMID 38468855

Authors

Beibei Zhang

Chenzheng Jia

Mingyu Li

Kai Wang

Jun Chen

Jing Zhao

Affiliations

Soon will be listed here.

Abstract

Bacterial outer membrane vesicles (OMVs) contain a variety of chemical compounds and play significant roles in maintaining symbiotic relationships in a changing ocean, but little is known about their function, particularly in sponge larval development. During the growth of sponge sp., OMVs from species significantly promoted larval settlement, and SP-7-OMVs were selected as a representative strain for further investigation. According to OMVs metabolomics, larval settlement might be connected to organic acids and derivatives. The multiomics analysis of the genome, SP-7-OMVs metabolome, and larval transcriptome revealed 47 shared KEGG pathways. Among the number of candidate metabolites, arginine was chosen for its greater ability to increase the settlement rate and its role as the principal substrate for nitric oxide (NO) synthesis of sponge larvae. In summary, these results demonstrated that sponge-associated bacteria might utilize OMVs and their cargo to support host development and make up for host metabolic pathway deficiencies. This study enhances our fundamental knowledge of OMVs in interactions between metazoan hosts and microorganisms that are crucial in the coevolution of marine ecosystems and the complex marine environment.

Citing Articles

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