Homologous genes shared between probiotics and pathogens affect the adhesion of probiotics and exclusion of pathogens in the gut mucus of shrimp
Clarifying mechanisms underlying the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine is a central theme for shrimp health. Under experimental manipulation of probiotic strain (i.e., Lactiplantibacillus plantarum HC-2) adhesion to the shrimp mucus, this study...
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| Published in | Frontiers in microbiology Vol. 14; p. 1195137 |
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| Main Authors | , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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14.06.2023
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| Abstract | Clarifying mechanisms underlying the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine is a central theme for shrimp health. Under experimental manipulation of probiotic strain (i.e.,
Lactiplantibacillus plantarum
HC-2) adhesion to the shrimp mucus, this study tested the core hypothesis that homologous genes shared between probiotic and pathogen would affect the adhesion of probiotics and exclusion of pathogens by regulating the membrane proteins of probiotics. Results indicated that the reduction of FtsH protease activity, which significantly correlated with the increase of membrane proteins, could increase the adhesion ability of
L. plantarum
HC-2 to the mucus. These membrane proteins mainly involved in transport (glycine betaine/carnitine/choline ABC transporter
choS
, ABC transporter, ATP synthase subunit a
atpB
, amino acid permease) and regulation of cellular processes (histidine kinase). The genes encoding the membrane proteins were significantly (
p
< 0.05) up-regulated except those encoding ABC transporters and histidine kinases in
L. plantarum
HC-2 when co-cultured with
Vibrio parahaemolyticus
E1, indicating that these genes could help
L. plantarum
HC-2 to competitively exclude pathogens. Moreover, an arsenal of genes predicted to be involved in carbohydrate metabolism and bacteria-host interactions were identified in
L. plantarum
HC-2, indicating a clear strain adaption to host’s gastrointestinal tract. This study advances our mechanistic understanding of the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine, and has important implications for screening and applying new probiotics for maintaining gut stability and host health. |
|---|---|
| AbstractList | Clarifying mechanisms underlying the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine is a central theme for shrimp health. Under experimental manipulation of probiotic strain (i.e.,
Lactiplantibacillus plantarum
HC-2) adhesion to the shrimp mucus, this study tested the core hypothesis that homologous genes shared between probiotic and pathogen would affect the adhesion of probiotics and exclusion of pathogens by regulating the membrane proteins of probiotics. Results indicated that the reduction of FtsH protease activity, which significantly correlated with the increase of membrane proteins, could increase the adhesion ability of
L. plantarum
HC-2 to the mucus. These membrane proteins mainly involved in transport (glycine betaine/carnitine/choline ABC transporter
choS
, ABC transporter, ATP synthase subunit a
atpB
, amino acid permease) and regulation of cellular processes (histidine kinase). The genes encoding the membrane proteins were significantly (
p
< 0.05) up-regulated except those encoding ABC transporters and histidine kinases in
L. plantarum
HC-2 when co-cultured with
Vibrio parahaemolyticus
E1, indicating that these genes could help
L. plantarum
HC-2 to competitively exclude pathogens. Moreover, an arsenal of genes predicted to be involved in carbohydrate metabolism and bacteria-host interactions were identified in
L. plantarum
HC-2, indicating a clear strain adaption to host’s gastrointestinal tract. This study advances our mechanistic understanding of the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine, and has important implications for screening and applying new probiotics for maintaining gut stability and host health. Clarifying mechanisms underlying the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine is a central theme for shrimp health. Under experimental manipulation of probiotic strain (i.e., Lactiplantibacillus plantarum HC-2) adhesion to the shrimp mucus, this study tested the core hypothesis that homologous genes shared between probiotic and pathogen would affect the adhesion of probiotics and exclusion of pathogens by regulating the membrane proteins of probiotics. Results indicated that the reduction of FtsH protease activity, which significantly correlated with the increase of membrane proteins, could increase the adhesion ability of L. plantarum HC-2 to the mucus. These membrane proteins mainly involved in transport (glycine betaine/carnitine/choline ABC transporter choS, ABC transporter, ATP synthase subunit a atpB, amino acid permease) and regulation of cellular processes (histidine kinase). The genes encoding the membrane proteins were significantly (p < 0.05) up-regulated except those encoding ABC transporters and histidine kinases in L. plantarum HC-2 when co-cultured with Vibrio parahaemolyticus E1, indicating that these genes could help L. plantarum HC-2 to competitively exclude pathogens. Moreover, an arsenal of genes predicted to be involved in carbohydrate metabolism and bacteria-host interactions were identified in L. plantarum HC-2, indicating a clear strain adaption to host’s gastrointestinal tract. This study advances our mechanistic understanding of the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine, and has important implications for screening and applying new probiotics for maintaining gut stability and host health. Clarifying mechanisms underlying the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine is a central theme for shrimp health. Under experimental manipulation of probiotic strain (i.e., Lactiplantibacillus plantarum HC-2) adhesion to the shrimp mucus, this study tested the core hypothesis that homologous genes shared between probiotic and pathogen would affect the adhesion of probiotics and exclusion of pathogens by regulating the membrane proteins of probiotics. Results indicated that the reduction of FtsH protease activity, which significantly correlated with the increase of membrane proteins, could increase the adhesion ability of L. plantarum HC-2 to the mucus. These membrane proteins mainly involved in transport (glycine betaine/carnitine/choline ABC transporter choS, ABC transporter, ATP synthase subunit a atpB, amino acid permease) and regulation of cellular processes (histidine kinase). The genes encoding the membrane proteins were significantly (p < 0.05) up-regulated except those encoding ABC transporters and histidine kinases in L. plantarum HC-2 when co-cultured with Vibrio parahaemolyticus E1, indicating that these genes could help L. plantarum HC-2 to competitively exclude pathogens. Moreover, an arsenal of genes predicted to be involved in carbohydrate metabolism and bacteria-host interactions were identified in L. plantarum HC-2, indicating a clear strain adaption to host's gastrointestinal tract. This study advances our mechanistic understanding of the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine, and has important implications for screening and applying new probiotics for maintaining gut stability and host health.Clarifying mechanisms underlying the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine is a central theme for shrimp health. Under experimental manipulation of probiotic strain (i.e., Lactiplantibacillus plantarum HC-2) adhesion to the shrimp mucus, this study tested the core hypothesis that homologous genes shared between probiotic and pathogen would affect the adhesion of probiotics and exclusion of pathogens by regulating the membrane proteins of probiotics. Results indicated that the reduction of FtsH protease activity, which significantly correlated with the increase of membrane proteins, could increase the adhesion ability of L. plantarum HC-2 to the mucus. These membrane proteins mainly involved in transport (glycine betaine/carnitine/choline ABC transporter choS, ABC transporter, ATP synthase subunit a atpB, amino acid permease) and regulation of cellular processes (histidine kinase). The genes encoding the membrane proteins were significantly (p < 0.05) up-regulated except those encoding ABC transporters and histidine kinases in L. plantarum HC-2 when co-cultured with Vibrio parahaemolyticus E1, indicating that these genes could help L. plantarum HC-2 to competitively exclude pathogens. Moreover, an arsenal of genes predicted to be involved in carbohydrate metabolism and bacteria-host interactions were identified in L. plantarum HC-2, indicating a clear strain adaption to host's gastrointestinal tract. This study advances our mechanistic understanding of the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine, and has important implications for screening and applying new probiotics for maintaining gut stability and host health. Clarifying mechanisms underlying the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine is a central theme for shrimp health. Under experimental manipulation of probiotic strain (i.e., HC-2) adhesion to the shrimp mucus, this study tested the core hypothesis that homologous genes shared between probiotic and pathogen would affect the adhesion of probiotics and exclusion of pathogens by regulating the membrane proteins of probiotics. Results indicated that the reduction of FtsH protease activity, which significantly correlated with the increase of membrane proteins, could increase the adhesion ability of HC-2 to the mucus. These membrane proteins mainly involved in transport (glycine betaine/carnitine/choline ABC transporter , ABC transporter, ATP synthase subunit a , amino acid permease) and regulation of cellular processes (histidine kinase). The genes encoding the membrane proteins were significantly ( < 0.05) up-regulated except those encoding ABC transporters and histidine kinases in HC-2 when co-cultured with E1, indicating that these genes could help HC-2 to competitively exclude pathogens. Moreover, an arsenal of genes predicted to be involved in carbohydrate metabolism and bacteria-host interactions were identified in HC-2, indicating a clear strain adaption to host's gastrointestinal tract. This study advances our mechanistic understanding of the selective adhesion of probiotics and competitive exclusion of pathogens in the intestine, and has important implications for screening and applying new probiotics for maintaining gut stability and host health. |
| Author | Sha, Yujie Yan, Qingyun Xu, Shicai Qu, Jie Yu, Jiafeng Liu, Jian Zheng, Shiying Dong, Weiying Ren, Jing Wang, Guomin He, Zhili |
| AuthorAffiliation | 2 Shandong Engineering Laboratory of Swine Health Big Data and Intelligent Monitoring, Institute of Biophysics, Dezhou University , Dezhou , China 1 Shandong Key Laboratory of Biophysics, Institute of Biophysics, Dezhou University , Dezhou , China 3 Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai) , Zhuhai , China |
| AuthorAffiliation_xml | – name: 3 Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai) , Zhuhai , China – name: 2 Shandong Engineering Laboratory of Swine Health Big Data and Intelligent Monitoring, Institute of Biophysics, Dezhou University , Dezhou , China – name: 1 Shandong Key Laboratory of Biophysics, Institute of Biophysics, Dezhou University , Dezhou , China |
| Author_xml | – sequence: 1 givenname: Yujie surname: Sha fullname: Sha, Yujie – sequence: 2 givenname: Qingyun surname: Yan fullname: Yan, Qingyun – sequence: 3 givenname: Jian surname: Liu fullname: Liu, Jian – sequence: 4 givenname: Jiafeng surname: Yu fullname: Yu, Jiafeng – sequence: 5 givenname: Shicai surname: Xu fullname: Xu, Shicai – sequence: 6 givenname: Zhili surname: He fullname: He, Zhili – sequence: 7 givenname: Jing surname: Ren fullname: Ren, Jing – sequence: 8 givenname: Jie surname: Qu fullname: Qu, Jie – sequence: 9 givenname: Shiying surname: Zheng fullname: Zheng, Shiying – sequence: 10 givenname: Guomin surname: Wang fullname: Wang, Guomin – sequence: 11 givenname: Weiying surname: Dong fullname: Dong, Weiying |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37389343$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © 2023 Sha, Yan, Liu, Yu, Xu, He, Ren, Qu, Zheng, Wang and Dong. Copyright © 2023 Sha, Yan, Liu, Yu, Xu, He, Ren, Qu, Zheng, Wang and Dong. 2023 Sha, Yan, Liu, Yu, Xu, He, Ren, Qu, Zheng, Wang and Dong |
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| Keywords | competitive exclusion adhesion Lactiplantibacillus plantarum mucus probiotics |
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| Title | Homologous genes shared between probiotics and pathogens affect the adhesion of probiotics and exclusion of pathogens in the gut mucus of shrimp |
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