Mycotoxin Fumonisin B1 Interferes Sphingolipid Metabolisms and Neural Tube Closure during Early Embryogenesis in Brown Tsaiya Ducks
Fumonisin B1 (FB1) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB1 has been known to cause physical or functional defects of embryos in humans and several animal species such as Syrian hamsters, rabbits, and rodents, little is known ab...
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| Published in | Toxins Vol. 13; no. 11; p. 743 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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20.10.2021
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| ISSN | 2072-6651 2072-6651 |
| DOI | 10.3390/toxins13110743 |
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| Abstract | Fumonisin B1 (FB1) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB1 has been known to cause physical or functional defects of embryos in humans and several animal species such as Syrian hamsters, rabbits, and rodents, little is known about the precise toxicity to the embryos and the underlying mechanisms have not been fully addressed. The present study aimed to investigate its developmental toxicity and potential mechanisms of action on sphingolipid metabolism in Brown Tsaiya Ducks (BTDs) embryos. We examined the effect of various FB1 dosages (0, 10, 20 and 40 µg/embryo) on BTD embryogenesis 72 h post-incubation. The sphingomyelin content of duck embryos decreased (p < 0.05) in the highest FB1-treated group (40 µg). Failure of neural tube closure was observed in treated embryos and the expression levels of a neurulation-related gene, sonic hedgehog (Shh) was abnormally decreased. The sphingolipid metabolism-related genes including N-acylsphingosine amidohydrolase 1 (ASAH1), and ceramide synthase 6 (CERS6) expressions were altered in the treated embryos compared to those in the control embryos. Apparently, FB1 have interfered sphingolipid metabolisms by inhibiting the functions of ceramide synthase and folate transporters. In conclusion, FB1-caused developmental retardation and abnormalities, such as neural tube defects in Brown Tsaiya Duck embryos, as well as are partly mediated by the disruption of sphingolipid metabolisms. |
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| AbstractList | Fumonisin B1 (FB1) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB1 has been known to cause physical or functional defects of embryos in humans and several animal species such as Syrian hamsters, rabbits, and rodents, little is known about the precise toxicity to the embryos and the underlying mechanisms have not been fully addressed. The present study aimed to investigate its developmental toxicity and potential mechanisms of action on sphingolipid metabolism in Brown Tsaiya Ducks (BTDs) embryos. We examined the effect of various FB1 dosages (0, 10, 20 and 40 µg/embryo) on BTD embryogenesis 72 h post-incubation. The sphingomyelin content of duck embryos decreased (p < 0.05) in the highest FB1-treated group (40 µg). Failure of neural tube closure was observed in treated embryos and the expression levels of a neurulation-related gene, sonic hedgehog (Shh) was abnormally decreased. The sphingolipid metabolism-related genes including N-acylsphingosine amidohydrolase 1 (ASAH1), and ceramide synthase 6 (CERS6) expressions were altered in the treated embryos compared to those in the control embryos. Apparently, FB1 have interfered sphingolipid metabolisms by inhibiting the functions of ceramide synthase and folate transporters. In conclusion, FB1-caused developmental retardation and abnormalities, such as neural tube defects in Brown Tsaiya Duck embryos, as well as are partly mediated by the disruption of sphingolipid metabolisms. Fumonisin B1 (FB1) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB1 has been known to cause physical or functional defects of embryos in humans and several animal species such as Syrian hamsters, rabbits, and rodents, little is known about the precise toxicity to the embryos and the underlying mechanisms have not been fully addressed. The present study aimed to investigate its developmental toxicity and potential mechanisms of action on sphingolipid metabolism in Brown Tsaiya Ducks (BTDs) embryos. We examined the effect of various FB1 dosages (0, 10, 20 and 40 µg/embryo) on BTD embryogenesis 72 h post-incubation. The sphingomyelin content of duck embryos decreased (p < 0.05) in the highest FB1-treated group (40 µg). Failure of neural tube closure was observed in treated embryos and the expression levels of a neurulation-related gene, sonic hedgehog (Shh) was abnormally decreased. The sphingolipid metabolism-related genes including N-acylsphingosine amidohydrolase 1 (ASAH1), and ceramide synthase 6 (CERS6) expressions were altered in the treated embryos compared to those in the control embryos. Apparently, FB1 have interfered sphingolipid metabolisms by inhibiting the functions of ceramide synthase and folate transporters. In conclusion, FB1-caused developmental retardation and abnormalities, such as neural tube defects in Brown Tsaiya Duck embryos, as well as are partly mediated by the disruption of sphingolipid metabolisms.Fumonisin B1 (FB1) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB1 has been known to cause physical or functional defects of embryos in humans and several animal species such as Syrian hamsters, rabbits, and rodents, little is known about the precise toxicity to the embryos and the underlying mechanisms have not been fully addressed. The present study aimed to investigate its developmental toxicity and potential mechanisms of action on sphingolipid metabolism in Brown Tsaiya Ducks (BTDs) embryos. We examined the effect of various FB1 dosages (0, 10, 20 and 40 µg/embryo) on BTD embryogenesis 72 h post-incubation. The sphingomyelin content of duck embryos decreased (p < 0.05) in the highest FB1-treated group (40 µg). Failure of neural tube closure was observed in treated embryos and the expression levels of a neurulation-related gene, sonic hedgehog (Shh) was abnormally decreased. The sphingolipid metabolism-related genes including N-acylsphingosine amidohydrolase 1 (ASAH1), and ceramide synthase 6 (CERS6) expressions were altered in the treated embryos compared to those in the control embryos. Apparently, FB1 have interfered sphingolipid metabolisms by inhibiting the functions of ceramide synthase and folate transporters. In conclusion, FB1-caused developmental retardation and abnormalities, such as neural tube defects in Brown Tsaiya Duck embryos, as well as are partly mediated by the disruption of sphingolipid metabolisms. Fumonisin B 1 (FB 1 ) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB 1 has been known to cause physical or functional defects of embryos in humans and several animal species such as Syrian hamsters, rabbits, and rodents, little is known about the precise toxicity to the embryos and the underlying mechanisms have not been fully addressed. The present study aimed to investigate its developmental toxicity and potential mechanisms of action on sphingolipid metabolism in Brown Tsaiya Ducks (BTDs) embryos. We examined the effect of various FB 1 dosages (0, 10, 20 and 40 µg/embryo) on BTD embryogenesis 72 h post-incubation. The sphingomyelin content of duck embryos decreased ( p < 0.05) in the highest FB 1 -treated group (40 µg). Failure of neural tube closure was observed in treated embryos and the expression levels of a neurulation-related gene, sonic hedgehog ( Shh ) was abnormally decreased. The sphingolipid metabolism-related genes including N -acylsphingosine amidohydrolase 1 ( ASAH1 ), and ceramide synthase 6 ( CERS6 ) expressions were altered in the treated embryos compared to those in the control embryos. Apparently, FB 1 have interfered sphingolipid metabolisms by inhibiting the functions of ceramide synthase and folate transporters. In conclusion, FB 1 -caused developmental retardation and abnormalities, such as neural tube defects in Brown Tsaiya Duck embryos, as well as are partly mediated by the disruption of sphingolipid metabolisms. |
| Author | Lumsangkul, Chompunut Fan, Yang-Kwang Tso, Ko-Hua Chiang, Hsin-I Ju, Jyh-Cherng |
| AuthorAffiliation | 4 Center for the Integrative and Evolutionary Galliformes Genomics, National Chung Hsing University, Taichung 40227, Taiwan 1 Department of Animal and Aquatic Sciences, Faculty of Agriculture, Chiang Mai University, Chiang Mai 50200, Thailand; chompunut.lum@cmu.ac.th 3 Department of Animal Science, National Chung Hsing University, Taichung 40227, Taiwan; d100037004@mail.nchu.edu.tw (K.-H.T.); ykfan@dragon.nchu.edu.tw (Y.-K.F.) 2 Science and Technology Research Institute, Chiang Mai University, Chiang Mai 50200, Thailand 6 Translational Medicine Research Center, China Medical University Hospital, Taichung 40402, Taiwan 7 Department of Bioinformatics and Medical Engineering, College of Information and Electrical Engineering, Asia University, Taichung 41354, Taiwan 5 Graduate Institute of Biomedical Sciences, China Medical University, Taichung 40402, Taiwan |
| AuthorAffiliation_xml | – name: 3 Department of Animal Science, National Chung Hsing University, Taichung 40227, Taiwan; d100037004@mail.nchu.edu.tw (K.-H.T.); ykfan@dragon.nchu.edu.tw (Y.-K.F.) – name: 2 Science and Technology Research Institute, Chiang Mai University, Chiang Mai 50200, Thailand – name: 6 Translational Medicine Research Center, China Medical University Hospital, Taichung 40402, Taiwan – name: 4 Center for the Integrative and Evolutionary Galliformes Genomics, National Chung Hsing University, Taichung 40227, Taiwan – name: 5 Graduate Institute of Biomedical Sciences, China Medical University, Taichung 40402, Taiwan – name: 7 Department of Bioinformatics and Medical Engineering, College of Information and Electrical Engineering, Asia University, Taichung 41354, Taiwan – name: 1 Department of Animal and Aquatic Sciences, Faculty of Agriculture, Chiang Mai University, Chiang Mai 50200, Thailand; chompunut.lum@cmu.ac.th |
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| CitedBy_id | crossref_primary_10_1111_jfs_13155 crossref_primary_10_1080_10408398_2022_2134290 crossref_primary_10_1111_1541_4337_13242 crossref_primary_10_3390_foods13233886 crossref_primary_10_3390_toxins14120821 crossref_primary_10_1016_j_ecoenv_2023_115697 crossref_primary_10_3390_foods13213502 crossref_primary_10_1016_j_fct_2022_113467 crossref_primary_10_3390_toxins14100678 crossref_primary_10_3390_toxins14120828 crossref_primary_10_3390_ijms23052512 crossref_primary_10_3389_fvets_2022_923238 |
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| Snippet | Fumonisin B1 (FB1) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB1 has been known to cause... Fumonisin B 1 (FB 1 ) is among the most common contaminants produced by Fusarium spp. fungus from corns and animal feeds. Although FB 1 has been known to cause... |
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| SubjectTerms | Abnormalities Animal feed Animal species Aquatic birds Biosynthesis Ceramide Contaminants Defects duck embryos early embryogenesis Embryogenesis Embryonic growth stage Embryos Feeds Folic acid Food contamination & poisoning Fumonisin B1 Gene expression Hamsters Hedgehog protein Lipid metabolism Mammals Metabolism Morphology Mycotoxins Neural tube defects Rabbits Sphingomyelin Toxicity Waterfowl |
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| Title | Mycotoxin Fumonisin B1 Interferes Sphingolipid Metabolisms and Neural Tube Closure during Early Embryogenesis in Brown Tsaiya Ducks |
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