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Main Authors: Gou, Donghui, Sun, Zhibin, Wang, Xinan, Ma, Aijun, Huang, Zhihui, Sun, Weiheng, Liu, Zhifeng, Tian, Mi, Gao, Yunyi
Format: Artículo científico
Language:en
Published: Fish & shellfish immunology 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41109540/
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author Gou, Donghui
Sun, Zhibin
Wang, Xinan
Ma, Aijun
Huang, Zhihui
Sun, Weiheng
Liu, Zhifeng
Tian, Mi
Gao, Yunyi
author_facet Gou, Donghui
Sun, Zhibin
Wang, Xinan
Ma, Aijun
Huang, Zhihui
Sun, Weiheng
Liu, Zhifeng
Tian, Mi
Gao, Yunyi
Gou, Donghui
Sun, Zhibin
Wang, Xinan
Ma, Aijun
Huang, Zhihui
Sun, Weiheng
Liu, Zhifeng
Tian, Mi
Gao, Yunyi
collection PubMed - marine biology
contents Mucosal tissue specificity of PAMP-related PRR gene expression in Scophthalmus maximus under different modes of Vibrio anguillarum stimulation. Gou, Donghui Sun, Zhibin Wang, Xinan Ma, Aijun Huang, Zhihui Sun, Weiheng Liu, Zhifeng Tian, Mi Gao, Yunyi Animals Vibrio Fish Diseases Flatfishes Vibrio Infections Fish Proteins Lipopolysaccharides Receptors, Pattern Recognition Immunity, Innate Gene Expression Regulation Pathogen-Associated Molecular Pattern Molecules Mucous Membrane Immunity, Mucosal Organ Specificity To investigate the immune responses of pathogen-associated molecular patterns (PAMPs) recognition-receptor genes in Scophthalmus maximus stimulated by the Gram-negative bacterium live/inactivated Vibrio anguillarum, and lipopolysaccharide (LPS), skin, gill, and intestinal tissues of fish at 0-96 h post-invasion were collected. mRNA was extracted from these mucosal tissues, and the gene expression of the following 7 PAMP recognition receptors was quantitatively analyzed using real-time fluorescence quantitative PCR: LEC, SAP, TLR2, TLR5, TLR14, PGRP2, and LIMP-2. Expression of SmTLR2, SmLEC, SmSAP, and SmPGRP2 were ubiquitously induced in mucosal tissues through invasion by V. anguillarum and related bacterial components. Under V. anguillarum stimulation, SmTLR2, SmTLR14, SmSAP, and SmPGRP2 exhibited the fastest expression in the skin. Under LPS stimulation, SmLEC showed the most rapid upregulation in the gills. Under inactivated V. anguillarum stimulation, the earliest expression of SmLIMP-2 occurred in the intestine. Peak expression under live/inactivated V. anguillarum, and LPS stimulation occurred at 24-48 h, 12-96 h, and 12-96 h post-immunization, reaching values that were 198.91-1.49-fold, 2.3-202.46-fold, and 2.27-96.10-fold higher than those of the control group, respectively. These results demonstrated that pattern recognition receptor (PRR) genes in turbot mucosal tissues were rapidly and abundantly expressed to mediate immune responses post-immunostimulation. We applied Genotype plus Genotype × Environment Interaction (GGE) biplot analysis to comprehensively evaluate immunostimulants and PRR genes regulation and then used the results to establish an optimal stimulation strategy for selective breeding against bacterial diseases. SmTLR14, SmPGRP2, SmLEC, and SmTLR2 were identified as optimal indicator genes in mucosal tissues following stimulation by live/inactivated V. anguillarum or LPS.
format Artículo científico
id pubmed_41109540
institution PubMed
language en
publishDate 2026
publisher Fish & shellfish immunology
record_format pubmed
spellingShingle Mucosal tissue specificity of PAMP-related PRR gene expression in Scophthalmus maximus under different modes of Vibrio anguillarum stimulation.
Gou, Donghui
Sun, Zhibin
Wang, Xinan
Ma, Aijun
Huang, Zhihui
Sun, Weiheng
Liu, Zhifeng
Tian, Mi
Gao, Yunyi
Animals
Vibrio
Fish Diseases
Flatfishes
Vibrio Infections
Fish Proteins
Lipopolysaccharides
Receptors, Pattern Recognition
Immunity, Innate
Gene Expression Regulation
Pathogen-Associated Molecular Pattern Molecules
Mucous Membrane
Immunity, Mucosal
Organ Specificity
Mucosal tissue specificity of PAMP-related PRR gene expression in Scophthalmus maximus under different modes of Vibrio anguillarum stimulation. Gou, Donghui Sun, Zhibin Wang, Xinan Ma, Aijun Huang, Zhihui Sun, Weiheng Liu, Zhifeng Tian, Mi Gao, Yunyi Animals Vibrio Fish Diseases Flatfishes Vibrio Infections Fish Proteins Lipopolysaccharides Receptors, Pattern Recognition Immunity, Innate Gene Expression Regulation Pathogen-Associated Molecular Pattern Molecules Mucous Membrane Immunity, Mucosal Organ Specificity To investigate the immune responses of pathogen-associated molecular patterns (PAMPs) recognition-receptor genes in Scophthalmus maximus stimulated by the Gram-negative bacterium live/inactivated Vibrio anguillarum, and lipopolysaccharide (LPS), skin, gill, and intestinal tissues of fish at 0-96 h post-invasion were collected. mRNA was extracted from these mucosal tissues, and the gene expression of the following 7 PAMP recognition receptors was quantitatively analyzed using real-time fluorescence quantitative PCR: LEC, SAP, TLR2, TLR5, TLR14, PGRP2, and LIMP-2. Expression of SmTLR2, SmLEC, SmSAP, and SmPGRP2 were ubiquitously induced in mucosal tissues through invasion by V. anguillarum and related bacterial components. Under V. anguillarum stimulation, SmTLR2, SmTLR14, SmSAP, and SmPGRP2 exhibited the fastest expression in the skin. Under LPS stimulation, SmLEC showed the most rapid upregulation in the gills. Under inactivated V. anguillarum stimulation, the earliest expression of SmLIMP-2 occurred in the intestine. Peak expression under live/inactivated V. anguillarum, and LPS stimulation occurred at 24-48 h, 12-96 h, and 12-96 h post-immunization, reaching values that were 198.91-1.49-fold, 2.3-202.46-fold, and 2.27-96.10-fold higher than those of the control group, respectively. These results demonstrated that pattern recognition receptor (PRR) genes in turbot mucosal tissues were rapidly and abundantly expressed to mediate immune responses post-immunostimulation. We applied Genotype plus Genotype × Environment Interaction (GGE) biplot analysis to comprehensively evaluate immunostimulants and PRR genes regulation and then used the results to establish an optimal stimulation strategy for selective breeding against bacterial diseases. SmTLR14, SmPGRP2, SmLEC, and SmTLR2 were identified as optimal indicator genes in mucosal tissues following stimulation by live/inactivated V. anguillarum or LPS.
title Mucosal tissue specificity of PAMP-related PRR gene expression in Scophthalmus maximus under different modes of Vibrio anguillarum stimulation.
topic Animals
Vibrio
Fish Diseases
Flatfishes
Vibrio Infections
Fish Proteins
Lipopolysaccharides
Receptors, Pattern Recognition
Immunity, Innate
Gene Expression Regulation
Pathogen-Associated Molecular Pattern Molecules
Mucous Membrane
Immunity, Mucosal
Organ Specificity
url https://pubmed.ncbi.nlm.nih.gov/41109540/