Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver

In aquafeeds, fish-meal has been commonly replaced with plant protein, which often causes enteritis. Currently, foodborne enteritis has few solutions in regards to prevention or cures. The recovery mechanism from enteritis in herbivorous fish may further help understand prevention or therapy. Howeve...

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Published in:Frontiers in Physiology
Main Authors: Wu, Nan, Wang, Biao, Cui, Zheng-Wei, Zhang, Xiang-Yang, Cheng, Ying-Yin, Xu, Xuan, Li, Xian-Mei, Wang, Zhao-Xi, Chen, Dan-Dan, Zhang, Yong-An
Format: Report
Language:English
Published: FRONTIERS MEDIA SA 2018
Subjects:
soybean meal induced enteritis
resilience
transcriptome
miRNAome
gut-liver immunity
grass carp
Physiology
SALMO-SALAR L
PROLIFERATOR-ACTIVATED RECEPTOR
CARP CTENOPHARYNGODON-IDELLA
INFLAMMATORY-BOWEL-DISEASE
ATLANTIC SALMON
T-CELLS
INTERLEUKIN-7 RECEPTOR
ULCERATIVE-COLITIS
DISTAL INTESTINE
Atlantic salmon
Salmo salar
Online Access:http://ir.ihb.ac.cn/handle/342005/29415
https://doi.org/10.3389/fphys.2018.01154
id ftchinacadsciihb:oai:ir.ihb.ac.cn:342005/29415
record_format openpolar
spelling ftchinacadsciihb:oai:ir.ihb.ac.cn:342005/29415 2023-05-15T15:32:50+02:00 Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver Wu, Nan Wang, Biao Cui, Zheng-Wei Zhang, Xiang-Yang Cheng, Ying-Yin Xu, Xuan Li, Xian-Mei Wang, Zhao-Xi Chen, Dan-Dan Zhang, Yong-An 2018-09-10 http://ir.ihb.ac.cn/handle/342005/29415 https://doi.org/10.3389/fphys.2018.01154 英语 eng FRONTIERS MEDIA SA FRONTIERS IN PHYSIOLOGY http://ir.ihb.ac.cn/handle/342005/29415 doi:10.3389/fphys.2018.01154 soybean meal induced enteritis resilience transcriptome miRNAome gut-liver immunity grass carp Physiology SALMO-SALAR L PROLIFERATOR-ACTIVATED RECEPTOR CARP CTENOPHARYNGODON-IDELLA INFLAMMATORY-BOWEL-DISEASE ATLANTIC SALMON T-CELLS INTERLEUKIN-7 RECEPTOR ULCERATIVE-COLITIS DISTAL INTESTINE 期刊论文 2018 ftchinacadsciihb https://doi.org/10.3389/fphys.2018.01154 2019-07-12T00:03:44Z In aquafeeds, fish-meal has been commonly replaced with plant protein, which often causes enteritis. Currently, foodborne enteritis has few solutions in regards to prevention or cures. The recovery mechanism from enteritis in herbivorous fish may further help understand prevention or therapy. However, few reports could be found regarding the recovery or resilience to fish foodborne enteritis. In this study, grass carp was used as an animal model for soybean meal induced enteritis and it was found that the fish could adapt to the soybeanmeal at a moderate level of substitution. Resilience to soybeanmeal stress was found in the 40% soybean meal group for juvenile fish at growth performance, morphological and gene expression levels, after a 7-week feeding trial. Furthermore, the intestinal transcriptomic data, including transcriptome and miRNAome, was applied to demonstrate resilience mechanisms. The result of this study revealed that in juvenile grass carp after a 7-week feeding cycle with 40% soybean meal, the intestine recovered via enhancing both an immune tolerance and wound healing, the liver gradually adapted via re-balancing immune responses, such as phagosome and complement cascades. Also, many immune factors in the gut and liver were systemically revealed among stages of on-setting, remising, and recovering (or relief). In addition, miRNA regulation played a key role in switching immune states. Thus, the present data systemically demonstrated that the molecular adaptation mechanism of fish gut-liver immunity is involved in the resilience to soybean meal stress. Report Atlantic salmon Salmo salar Institute of Hydrobiology, Chinese Academy of Sciences: IHB OpenIR Frontiers in Physiology 9
institution Open Polar
collection Institute of Hydrobiology, Chinese Academy of Sciences: IHB OpenIR
op_collection_id ftchinacadsciihb
language English
topic soybean meal induced enteritis
resilience
transcriptome
miRNAome
gut-liver immunity
grass carp
Physiology
SALMO-SALAR L
PROLIFERATOR-ACTIVATED RECEPTOR
CARP CTENOPHARYNGODON-IDELLA
INFLAMMATORY-BOWEL-DISEASE
ATLANTIC SALMON
T-CELLS
INTERLEUKIN-7 RECEPTOR
ULCERATIVE-COLITIS
DISTAL INTESTINE
spellingShingle soybean meal induced enteritis
resilience
transcriptome
miRNAome
gut-liver immunity
grass carp
Physiology
SALMO-SALAR L
PROLIFERATOR-ACTIVATED RECEPTOR
CARP CTENOPHARYNGODON-IDELLA
INFLAMMATORY-BOWEL-DISEASE
ATLANTIC SALMON
T-CELLS
INTERLEUKIN-7 RECEPTOR
ULCERATIVE-COLITIS
DISTAL INTESTINE
Wu, Nan
Wang, Biao
Cui, Zheng-Wei
Zhang, Xiang-Yang
Cheng, Ying-Yin
Xu, Xuan
Li, Xian-Mei
Wang, Zhao-Xi
Chen, Dan-Dan
Zhang, Yong-An
Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver
topic_facet soybean meal induced enteritis
resilience
transcriptome
miRNAome
gut-liver immunity
grass carp
Physiology
SALMO-SALAR L
PROLIFERATOR-ACTIVATED RECEPTOR
CARP CTENOPHARYNGODON-IDELLA
INFLAMMATORY-BOWEL-DISEASE
ATLANTIC SALMON
T-CELLS
INTERLEUKIN-7 RECEPTOR
ULCERATIVE-COLITIS
DISTAL INTESTINE
description In aquafeeds, fish-meal has been commonly replaced with plant protein, which often causes enteritis. Currently, foodborne enteritis has few solutions in regards to prevention or cures. The recovery mechanism from enteritis in herbivorous fish may further help understand prevention or therapy. However, few reports could be found regarding the recovery or resilience to fish foodborne enteritis. In this study, grass carp was used as an animal model for soybean meal induced enteritis and it was found that the fish could adapt to the soybeanmeal at a moderate level of substitution. Resilience to soybeanmeal stress was found in the 40% soybean meal group for juvenile fish at growth performance, morphological and gene expression levels, after a 7-week feeding trial. Furthermore, the intestinal transcriptomic data, including transcriptome and miRNAome, was applied to demonstrate resilience mechanisms. The result of this study revealed that in juvenile grass carp after a 7-week feeding cycle with 40% soybean meal, the intestine recovered via enhancing both an immune tolerance and wound healing, the liver gradually adapted via re-balancing immune responses, such as phagosome and complement cascades. Also, many immune factors in the gut and liver were systemically revealed among stages of on-setting, remising, and recovering (or relief). In addition, miRNA regulation played a key role in switching immune states. Thus, the present data systemically demonstrated that the molecular adaptation mechanism of fish gut-liver immunity is involved in the resilience to soybean meal stress.
format Report
author Wu, Nan
Wang, Biao
Cui, Zheng-Wei
Zhang, Xiang-Yang
Cheng, Ying-Yin
Xu, Xuan
Li, Xian-Mei
Wang, Zhao-Xi
Chen, Dan-Dan
Zhang, Yong-An
author_facet Wu, Nan
Wang, Biao
Cui, Zheng-Wei
Zhang, Xiang-Yang
Cheng, Ying-Yin
Xu, Xuan
Li, Xian-Mei
Wang, Zhao-Xi
Chen, Dan-Dan
Zhang, Yong-An
author_sort Wu, Nan
title Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver
title_short Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver
title_full Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver
title_fullStr Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver
title_full_unstemmed Integrative Transcriptomic and microRNAomic Profiling Reveals Immune Mechanism for the Resilience to Soybean Meal Stress in Fish Gut and Liver
title_sort integrative transcriptomic and micrornaomic profiling reveals immune mechanism for the resilience to soybean meal stress in fish gut and liver
publisher FRONTIERS MEDIA SA
publishDate 2018
url http://ir.ihb.ac.cn/handle/342005/29415
https://doi.org/10.3389/fphys.2018.01154
genre Atlantic salmon
Salmo salar
genre_facet Atlantic salmon
Salmo salar
op_relation FRONTIERS IN PHYSIOLOGY
http://ir.ihb.ac.cn/handle/342005/29415
doi:10.3389/fphys.2018.01154
op_doi https://doi.org/10.3389/fphys.2018.01154
container_title Frontiers in Physiology
container_volume 9
_version_ 1766363314809470976

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