Juan‐Ting Liu scite author profile

Autophagy is primarily an adaptive response to provide nutrients and energy following exposure to stress and starvation but can also regulate muscle mass and impact infectious disease susceptibility. Expression of 10 autophagy‐related (Atg) genes in rainbow trout was monitored throughout the autophagosome formation cycle. The Atg gene sequences of rainbow trout were compared to other species to identify highly conserved regions and to generate primers. Phylogeny trees created with rainbow trout and 14 other species demonstrate that rainbow trout Atg gene sequences have greatest similarity to Atlantic salmon and other fish species. RTgill‐W1 cells were subjected to nutrient restriction and compared to cells in normal nutrient conditions using quantitative reverse transcriptase polymerase chain reaction to assess changes in Atg gene expression. Nutrient restriction had a direct impact on Atg gene expression, with atg4, atg9, atg12, lc3, gabarap and becn1 undergoing the greatest differential expression (p < 0.05), most dramatically on Day 3. This was corroborated by Western blot detection of LC3, which also showed a peak of autophagy activity at Day 3 post‐nutrient restriction. Atg gene expression revealed autophagy flux in RTgill‐W1, as well as, those genes that were most significantly altered by nutrient restriction.

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VHSV IVb infection and autophagy modulation in the rainbow trout gill epithelial cell line RTgill‐W1

Liu

Pham

Wootton

et al. 2020

Journal of Fish Diseases

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Viral haemorrhagic septicaemia virus (VHSV) is a negative-stranded RNA virus and a member of the Rhabdoviridae family that can cause severe disease in fish (Lumsden, 2017; Skall, Olesen, & Mellergaard, 2005). Subgenotype IVb was identified from a mortality event in freshwater drum (Aplodinotus grunniens) in Lake Ontario (Lumsden et al., 2007). Experimentally, this virus causes high mortality in numerous species of fish including fathead minnow (Pimphales

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Impact of feed restriction, chloroquine and deoxynivalenol on viral haemorrhagic septicaemia virus IVb in fathead minnow Pimephales promelas Rafinesque

Liu

Lumsden

2020

Journal of Fish Diseases

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Autophagy can markedly alter host response to infectious disease, and several studies have demonstrated that a restricted diet or deoxynivalenol modulates autophagy and reduces mortality of fish due to bacterial disease. The picture is less clear for viral diseases of fish. Duplicate tanks of fathead minnow, Pimephales promelas Rafinesque, were fed a replete diet (control), 100 µM chloroquine, 5 µM deoxynivalenol, 10% (fasted) or 40% of a replete diet (pair‐fed) for 2 weeks and then experimentally infected by intraperitoneal injection with 2 × 105 viral haemorrhagic septicaemia virus IVb. Survival from highest to lowest for the different treatments was as follows: deoxynivalenol (average 43.3%); control (40.0%); pair‐fed (35.0%); fasted (33.3%); and chloroquine (21.7%). No treatment significantly altered the survival rate of fathead minnow after VHSV IVb infection when compared to controls; however, the fish fed with chloroquine had significantly lower survival rate than the fish fed deoxynivalenol (p < .05).

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Autophagy modulation in rainbow trout Oncorhynchus mykiss L. and resistance to experimental infection with Flavobacterium psychrophilum

Liu

Pham

Lumsden

2022

Journal of Fish Diseases

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Previously, rainbow trout fed deoxynivalenol (DON) or partially fed (pair‐fed) for 4 weeks before and during experimental infection with Flavobacterium psychrophilum had significantly decreased mortality rates. Similar results were obtained in the present study after 12 days, but not after 6 days, feeding 5 ppm DON or pair‐fed before infection. Furthermore, feeding 250 ppm chloroquine (CQ) also reduced mortality (p = .052) compared with controls and may have promise for treatment of some fish disease. Parallel groups of fish were maintained on the respective treatments for 15 days, with an additional group that was fasted, but were not infected to monitor autophagy. Fish that were fasted or fed DON had significantly increased LC3II in the liver and fasted fish had significantly decreased LC3II in muscle compared with controls using western blot. There was no difference in LC3II signal in the spleen of any treatment group. Fish that were fasted or pair‐fed had significant up‐regulation of the Atg genes atg4, atg7, lc3, gabarap and atg12 in muscle using quantitative PCR. Less alteration of Atg expression was seen in liver. Fish treated with CQ had significantly increased expression of atg4, becn1, lc3 and atg12 in the liver. Fish fed DON for 15 days had few alterations of Atg genes in either the liver or muscle. It is still not clear if autophagy is responsible for the resistance of rainbow trout fed DON, CQ or pair‐fed before F. psychrophilum infection.

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Juan‐Ting Liu

Pharmacological and nutritional modulation of autophagy in a rainbow trout (Oncorhynchus mykiss) gill cell line, RTgill-W1

Autophagy‐related genes in rainbow trout Oncorhynchus mykiss (Walbaum) gill epithelial cells and their role in nutrient restriction

VHSV IVb infection and autophagy modulation in the rainbow trout gill epithelial cell line RTgill‐W1

Impact of feed restriction, chloroquine and deoxynivalenol on viral haemorrhagic septicaemia virus IVb in fathead minnow Pimephales promelas Rafinesque

Autophagy modulation in rainbow trout Oncorhynchus mykiss L. and resistance to experimental infection with Flavobacterium psychrophilum

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