The regulation of the disease resistance, mTOR and NF-kB signaling pathway of Aristichthys nobilis using Rhodopseudomonas wastewater treatment

The employment of traditional feed and medicament in freshwater aquaculture causes the frequent occurrence of environmental pollution and disease. Effluent collected after Rhodopseudomonas-mediated wastewater treatment could be re-utilized as microbial feeds, and aquaculture water to culture Aristic...

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Bibliographic Details
Published in:Developmental and comparative immunology 2020-03, Vol.104, p.103517
Main Authors: Wu, Pan, Liu, Yaxin, Li, Xiaoting, Gu, Yonghu, Liu, Yuxin, Hu, Yuqiao, Wang, Yanling, Wu, Yuan, Li, Ning, Zhang, Ying, Chen, Zhaobo, Jin, Hua
Format: Article
Language:English
Subjects:
Aquaculture
Aquaculture effluents
Aristichthys nobilis
Body composition
Disease resistance
Effluents
Fish diseases
Freshwater aquaculture
Gene expression
Medical treatment
Microorganisms
NF-κB protein
Phagocytes
Pollution control
Rhodopseudomonas
Signal transduction
Signaling
TOR protein
Wastewater discharges
Wastewater pollution
Wastewater treatment
Water discharge
Water pollution
Water quality
Water treatment
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Summary:The employment of traditional feed and medicament in freshwater aquaculture causes the frequent occurrence of environmental pollution and disease. Effluent collected after Rhodopseudomonas-mediated wastewater treatment could be re-utilized as microbial feeds, and aquaculture water to culture Aristichthys nobilis. Therefore, a novel integrated system of wastewater treatment using effluent containing Rhodopseudomonas that improves yield, increases disease resistance, and enhances the quality of aquaculture water for Aristichthys nobilis culture was proposed and investigated. Aristichthys nobilis can grow well in effluent containing Rhodopseudomonas (ER). The survival rate, yield, and whole body composition of the ER group were all increased compared to the control group (CK). The biochemical (B vitamin) and other substances in the effluent of Rhodopseudomonas enhanced the activity of AKP, ACP, phagocytic, SOD, and CAT by upregulating the expression of AKP, ACP, SOD, and CAT genes. Moreover, Rhodopseudomonas and biochemical substances improved mTOR and NF-kB signaling pathway. Furthermore, Rhodopseudomonas inhibited Aeromonas hydrophila that increases resistance against fish disease. Meanwhile, Rhodopseudomonas in the effluent also improved the aquaculture water quality. This technology would save the aquaculture water, reduce water pollution and wastewater discharge, and increase the output and disease resistance of Aristichthys nobilis, simultaneously.
ISSN:0145-305X
1879-0089
DOI:10.1016/j.dci.2019.103517