Intestinal microbial profiling and immune responses of hybrid snakehead (Channa maculata ♀ × Channa argus ♂) challenged with Nocardia seriolae strain

Nocardiosis in fish, caused by Nocardia seriolae (a kind of filamentous bacterium), is a severe disease in aquaculture, affecting over 40 species of marine and freshwater fish and causing great losses. To investigate the relationship between fish nocardiosis and the gut microbiota, we first artifici...

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Published inAquaculture reports Vol. 36; p. 102030
Main Authors Zhou, Tingting, Cai, Ping, Li, Junwei, Li, Zhongsheng, Dan, Xueming
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2024
Elsevier
Subjects
Aeromonas
aquaculture
atrophy
bacteria
Bacteroidetes
Channa argus
Channa maculata
community structure
disease severity
enteropathogens
females
freshwater fish
gene expression
histopathology
Hybrid snakehead
hybrids
immune response
Intestinal microbiota
intestinal microorganisms
intestines
IRF2
Lactobacillus
males
microbial communities
Nocardia seriolae
nocardiosis
reverse transcriptase polymerase chain reaction
shrinkage
species
TLR2
Nocardia seriolae
Hybrid snakehead
Intestinal microbiota
IRF2
TLR2
Online AccessGet full text

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Abstract Nocardiosis in fish, caused by Nocardia seriolae (a kind of filamentous bacterium), is a severe disease in aquaculture, affecting over 40 species of marine and freshwater fish and causing great losses. To investigate the relationship between fish nocardiosis and the gut microbiota, we first artificially infected hybrid snakehead (female Channa maculata × male Channa argus) with N. seriolae (1.0 × 107 CFU/mL), then utilized techniques such as high-throughput sequencing of 16 S rRNA, histopathology, and quantitative reverse transcription-polymerase chain reaction (qRT-PCR) to analyze the changes in microbial community structure, intestinal histopathological characteristics, and related immune genes expression in hybrid snakehead. Changes in gut microbial community structure and diversity were observed starting from day 2, followed by fluctuations on day 4, and significant alterations on day 6. Four major phyla (Actinomycetes, Proteobacteria, Firmicutes, and Bacteroidetes), particularly Actinomycetes, reflected the temporal variations in the gut microbiota structure. The composition of the gut microbiota also underwent significant changes, with beneficial microorganisms such as Lactobacillus decreasing and harmful microorganisms such as Aeromonas and Nocardia increasing. The pathological sections showed that after N. seriolae injection, the fish intestinal villi became distorted and widely spaced, with increasing damage over time, leading to severe shrinkage and atrophy by the sixth day. Additionally, immune-related genes, such as TLR2 and IRF2, exhibited higher mRNA expression levels (P < 0.01) in the intestinal tissues of the infected fish. Overall, this study provides preliminary insights into the dynamic changes in gut microbial community, immune response, and intestinal pathogenic mechanisms during N. seriolae infection in hybrid snakehead, at both the levels of gut microbial composition and mRNA expression. These findings are important for better understanding and managing Nocardia infection in fish. •Nocardia seriolae significantly damaged hybrid snakehead intestinal tissues.•N. seriolae greatly altered the diversity and composition of the gut microbiota in snakehead.•The immune-related genes like TLR2 and IRF2 were highly expressed in intestinal tissues.
AbstractList Nocardiosis in fish, caused by Nocardia seriolae (a kind of filamentous bacterium), is a severe disease in aquaculture, affecting over 40 species of marine and freshwater fish and causing great losses. To investigate the relationship between fish nocardiosis and the gut microbiota, we first artificially infected hybrid snakehead (female Channa maculata × male Channa argus) with N. seriolae (1.0 × 107 CFU/mL), then utilized techniques such as high-throughput sequencing of 16 S rRNA, histopathology, and quantitative reverse transcription-polymerase chain reaction (qRT-PCR) to analyze the changes in microbial community structure, intestinal histopathological characteristics, and related immune genes expression in hybrid snakehead. Changes in gut microbial community structure and diversity were observed starting from day 2, followed by fluctuations on day 4, and significant alterations on day 6. Four major phyla (Actinomycetes, Proteobacteria, Firmicutes, and Bacteroidetes), particularly Actinomycetes, reflected the temporal variations in the gut microbiota structure. The composition of the gut microbiota also underwent significant changes, with beneficial microorganisms such as Lactobacillus decreasing and harmful microorganisms such as Aeromonas and Nocardia increasing. The pathological sections showed that after N. seriolae injection, the fish intestinal villi became distorted and widely spaced, with increasing damage over time, leading to severe shrinkage and atrophy by the sixth day. Additionally, immune-related genes, such as TLR2 and IRF2, exhibited higher mRNA expression levels (P < 0.01) in the intestinal tissues of the infected fish. Overall, this study provides preliminary insights into the dynamic changes in gut microbial community, immune response, and intestinal pathogenic mechanisms during N. seriolae infection in hybrid snakehead, at both the levels of gut microbial composition and mRNA expression. These findings are important for better understanding and managing Nocardia infection in fish.
Nocardiosis in fish, caused by Nocardia seriolae (a kind of filamentous bacterium), is a severe disease in aquaculture, affecting over 40 species of marine and freshwater fish and causing great losses. To investigate the relationship between fish nocardiosis and the gut microbiota, we first artificially infected hybrid snakehead (female Channa maculata × male Channa argus) with N. seriolae (1.0 × 107 CFU/mL), then utilized techniques such as high-throughput sequencing of 16 S rRNA, histopathology, and quantitative reverse transcription-polymerase chain reaction (qRT-PCR) to analyze the changes in microbial community structure, intestinal histopathological characteristics, and related immune genes expression in hybrid snakehead. Changes in gut microbial community structure and diversity were observed starting from day 2, followed by fluctuations on day 4, and significant alterations on day 6. Four major phyla (Actinomycetes, Proteobacteria, Firmicutes, and Bacteroidetes), particularly Actinomycetes, reflected the temporal variations in the gut microbiota structure. The composition of the gut microbiota also underwent significant changes, with beneficial microorganisms such as Lactobacillus decreasing and harmful microorganisms such as Aeromonas and Nocardia increasing. The pathological sections showed that after N. seriolae injection, the fish intestinal villi became distorted and widely spaced, with increasing damage over time, leading to severe shrinkage and atrophy by the sixth day. Additionally, immune-related genes, such as TLR2 and IRF2, exhibited higher mRNA expression levels (P < 0.01) in the intestinal tissues of the infected fish. Overall, this study provides preliminary insights into the dynamic changes in gut microbial community, immune response, and intestinal pathogenic mechanisms during N. seriolae infection in hybrid snakehead, at both the levels of gut microbial composition and mRNA expression. These findings are important for better understanding and managing Nocardia infection in fish. •Nocardia seriolae significantly damaged hybrid snakehead intestinal tissues.•N. seriolae greatly altered the diversity and composition of the gut microbiota in snakehead.•The immune-related genes like TLR2 and IRF2 were highly expressed in intestinal tissues.
Nocardiosis in fish, caused by Nocardia seriolae (a kind of filamentous bacterium), is a severe disease in aquaculture, affecting over 40 species of marine and freshwater fish and causing great losses. To investigate the relationship between fish nocardiosis and the gut microbiota, we first artificially infected hybrid snakehead (female Channa maculata × male Channa argus) with N. seriolae (1.0 × 10⁷ CFU/mL), then utilized techniques such as high-throughput sequencing of 16 S rRNA, histopathology, and quantitative reverse transcription-polymerase chain reaction (qRT-PCR) to analyze the changes in microbial community structure, intestinal histopathological characteristics, and related immune genes expression in hybrid snakehead. Changes in gut microbial community structure and diversity were observed starting from day 2, followed by fluctuations on day 4, and significant alterations on day 6. Four major phyla (Actinomycetes, Proteobacteria, Firmicutes, and Bacteroidetes), particularly Actinomycetes, reflected the temporal variations in the gut microbiota structure. The composition of the gut microbiota also underwent significant changes, with beneficial microorganisms such as Lactobacillus decreasing and harmful microorganisms such as Aeromonas and Nocardia increasing. The pathological sections showed that after N. seriolae injection, the fish intestinal villi became distorted and widely spaced, with increasing damage over time, leading to severe shrinkage and atrophy by the sixth day. Additionally, immune-related genes, such as TLR2 and IRF2, exhibited higher mRNA expression levels (P < 0.01) in the intestinal tissues of the infected fish. Overall, this study provides preliminary insights into the dynamic changes in gut microbial community, immune response, and intestinal pathogenic mechanisms during N. seriolae infection in hybrid snakehead, at both the levels of gut microbial composition and mRNA expression. These findings are important for better understanding and managing Nocardia infection in fish.
ArticleNumber 102030
Author Zhou, Tingting
Li, Zhongsheng
Dan, Xueming
Li, Junwei
Cai, Ping
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  organization: College of Marine Sciences, South China Agricultural University, Guangzhou 510642, PR China
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  givenname: Ping
  surname: Cai
  fullname: Cai, Ping
  organization: Guangdong Haid Group Co., Ltd., Guangzhou 511400, PR China
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Keywords Nocardia seriolae
Hybrid snakehead
Intestinal microbiota
IRF2
TLR2
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Snippet Nocardiosis in fish, caused by Nocardia seriolae (a kind of filamentous bacterium), is a severe disease in aquaculture, affecting over 40 species of marine and...
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SubjectTerms Aeromonas
aquaculture
atrophy
bacteria
Bacteroidetes
Channa argus
Channa maculata
community structure
disease severity
enteropathogens
females
freshwater fish
gene expression
histopathology
Hybrid snakehead
hybrids
immune response
Intestinal microbiota
intestinal microorganisms
intestines
IRF2
Lactobacillus
males
microbial communities
Nocardia seriolae
nocardiosis
reverse transcriptase polymerase chain reaction
shrinkage
species
TLR2
Title Intestinal microbial profiling and immune responses of hybrid snakehead (Channa maculata ♀ × Channa argus ♂) challenged with Nocardia seriolae strain
URI https://dx.doi.org/10.1016/j.aqrep.2024.102030
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