4.6 Article

Multi-Costimulatory Pathways Drive the Antagonistic Pseudoalteromonas piscicida against the Dominant Pathogenic Vibrio harveyi in Mariculture: Insights from Proteomics and Metabolomics

期刊

MICROBIOLOGY SPECTRUM
卷 10, 期 6, 页码 -

出版社

AMER SOC MICROBIOLOGY
DOI: 10.1128/spectrum.02444-22

关键词

pathogenic Vibrio harveyi; antagonistic bacteria; immune response; proteomic combined metabolomic analysis; costimulatory pathway; recirculating-mariculture system

资金

  1. Hainan Provincial Natural Science Foundation of China [321QN176]
  2. Hainan Province Science and Technology Special Fund [ZDYF2022XDNY216, ZDYF2022XDNY173, ZDYF2020095]
  3. National Key Research and Development Project of China [2019YFD0901304, 2020YFD0901104]
  4. Marine Economic and Innovative Demonstration City Project of State Oceanic Administration [HHCL201802, HHCL201813]
  5. Foundation of Hainan Agricultural and Rural Department [NY-2019-819]
  6. Scientific Research Foundation of Hainan University [KYQD[ZR] 21005, KYQD[ZR]1967, KYQD[ZR]1819, KYQD[ZR]20060]

向作者/读者索取更多资源

Vibrio harveyi is a dominant pathogen in mariculture, and the biocontrol of this pathogen using antagonistic probiotics is a challenging task. Pseudoalteromonas piscicida WCPW15003 has been found to effectively antagonize V. harveyi and protect mariculture animals from infection. This study investigated the molecular mechanisms of antagonism, revealing that WCPW15003 downregulated certain metabolic pathways and upregulated others, leading to a competitive advantage against V. harveyi.
Vibrio harveyi is the dominant pathogen in mariculture, and biocontrol of this pathogen using antagonistic probiotics is a long-standing biological challenge. Here, Pseudoalteromonas piscicida WCPW15003 as a probiotic effectively antagonized dominant pathogenic V. harveyi in a mariculture, with a growth-of-inhibition ratio of 6.3 h(-1). The antagonistic activities of cells and intracellular components of WCPW15003 made a greater contribution to the antagonistic process than did extracellular metabolites and caused the dominance of WCPW15003 during the antagonistic process in vitro. WCPW15003 was safe for the pearl gentian grouper (female Epinephelus fuscoguttatus x male Epinephelus lanceolatus) and, as a consequence of the antagonistic effect on V. harveyi, protected the fish from an immune response in vivo. A comprehensive combined proteomics and metabolomics analysis of antagonistic WCPW15003 and pathogenic V. harveyi in a coculture compared to a monoculture was performed to investigate the antagonistic molecular mechanisms. The results showed that during the antagonistic process, WCPW15003 in a coculture had significantly downregulated metabolic pathways for histidine metabolism, arginine biosynthesis, and phenylalanine metabolism, and upregulated glycerophospholipid metabolism, leading to a competitive advantage against the cooccurring species, V. harveyi. This defined a mechanism by which multi-costimulatory pathways drove P. piscicida WCPW15003 against V. harveyi. IMPORTANCE V. harveyi as a dominant pathogen has become a major hazard in mariculture development and seafood safety, and biocontrol of this pathogen using antagonistic probiotic agents is a long-standing biological challenge. P. piscicida WCPW15003 has promise as a novel, safe, and effective bioagent for specifically inhibiting dominant pathogenic V. harveyi and protects mariculture animals from infection by this pathogen by moderating the host immune response, which is heavily driven by multi-costimulatory pathways in a coculture of WCPW15003 and V. harveyi. This work identified a direction for comprehensively elucidating the molecular mechanism of WCPW15003 antagonism against the dominant pathogen in mariculture using modern molecular biology techniques and provided deep insights into the advantages and potential of this antagonistic probiotic against V. harveyi for the construction of an environmentally friendly, recirculating mariculture system.

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