Insights into disruption of lipid metabolism in digestive gland of female scallop Chlamys farreri under B[a]P exposure

Lipids are the main energy support during gametogenesis. Digestive gland is the key organ of aquatic animal metabolism for storing nutrition and supplying energy. It participates in a variety of life activities (such as growth, digestion, immunity, and reproduction). Nutrients stored in digestive gl...

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Published inEnvironmental pollution (1987) Vol. 299; p. 118904
Main Authors Gao, Zhongyuan, Pan, Luqing, Xu, Ruiyi, Zhou, Yueyao, Li, Dongyu
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 15.04.2022
Subjects
Animals
aquatic animals
Azumapecten farreri
Benzo(a)pyrene - metabolism
Benzo[a]pyrene
Chlamys farreri
developmental stages
digestion
energy
Female
females
gametogenesis
Gene Expression Profiling
genomics
immunity
Lipid Metabolism
ovulation
Pectinidae
pollution
Reproduction
scallops
seawater
Transcriptome
transcriptomics
Reproduction
Benzo[a]pyrene
Chlamys farreri
Lipid metabolism
Transcriptome
Online AccessGet full text
ISSN0269-7491
1873-6424
DOI10.1016/j.envpol.2022.118904

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Abstract Lipids are the main energy support during gametogenesis. Digestive gland is the key organ of aquatic animal metabolism for storing nutrition and supplying energy. It participates in a variety of life activities (such as growth, digestion, immunity, and reproduction). Nutrients stored in digestive glands, especially lipids, provide energy for reproductive behaviors such as gametogenesis and ovulation. A large number of studies have confirmed the accumulation of lipids from digestive gland to gonad during gametogenesis. At present, the research on the interference mechanism of persistent organic pollutants (POPs) on lipid metabolism of aquatic animals and the adaptive response of aquatic animals to POPs stress focus on biochemical levels or a few genes. The potential molecular mechanism of lipid metabolism interference needs to be further studied. In addition, as an important stage of aquatic animals, the reproductive period is a vigorous period of lipid metabolism. However, at present, there is no report on the molecular mechanism of POPs interfering with the lipid metabolism of the digestive gland in the reproductive process of aquatic animals. In this study, female scallop C. farreri was cultured in natural seawater and exposed to 4 μg/L B[a]P in seawater. Transcriptome analysis of digestive glands at multiple stages (proliferative stage, growth stage, mature stage and spawn stage) was performed, and iPath pathway analysis was used to analyze lipid metabolism pathways and differential genes. The interference mechanism of lipid metabolism in bivalves during reproductive period was revealed. This study will provide valuable genomic information on the role of digestive glands in lipid metabolism and reproduction of C. farreri, and will contribute to further functional genomics of bivalves and other closely related species. [Display omitted] •Lipid effects of B[a]P on scallops Chlamys farreri was studied.•B[a]P caused lipid accumulation in digestive gland of reproductive female scallops.•Disturbance of lipid metabolism in bivalves during reproductive stages.•Function of mTOR pathway on lipid metabolism in bivalves have been discussed.
AbstractList Lipids are the main energy support during gametogenesis. Digestive gland is the key organ of aquatic animal metabolism for storing nutrition and supplying energy. It participates in a variety of life activities (such as growth, digestion, immunity, and reproduction). Nutrients stored in digestive glands, especially lipids, provide energy for reproductive behaviors such as gametogenesis and ovulation. A large number of studies have confirmed the accumulation of lipids from digestive gland to gonad during gametogenesis. At present, the research on the interference mechanism of persistent organic pollutants (POPs) on lipid metabolism of aquatic animals and the adaptive response of aquatic animals to POPs stress focus on biochemical levels or a few genes. The potential molecular mechanism of lipid metabolism interference needs to be further studied. In addition, as an important stage of aquatic animals, the reproductive period is a vigorous period of lipid metabolism. However, at present, there is no report on the molecular mechanism of POPs interfering with the lipid metabolism of the digestive gland in the reproductive process of aquatic animals. In this study, female scallop C. farreri was cultured in natural seawater and exposed to 4 μg/L B[a]P in seawater. Transcriptome analysis of digestive glands at multiple stages (proliferative stage, growth stage, mature stage and spawn stage) was performed, and iPath pathway analysis was used to analyze lipid metabolism pathways and differential genes. The interference mechanism of lipid metabolism in bivalves during reproductive period was revealed. This study will provide valuable genomic information on the role of digestive glands in lipid metabolism and reproduction of C. farreri, and will contribute to further functional genomics of bivalves and other closely related species. [Display omitted] •Lipid effects of B[a]P on scallops Chlamys farreri was studied.•B[a]P caused lipid accumulation in digestive gland of reproductive female scallops.•Disturbance of lipid metabolism in bivalves during reproductive stages.•Function of mTOR pathway on lipid metabolism in bivalves have been discussed.
Lipids are the main energy support during gametogenesis. Digestive gland is the key organ of aquatic animal metabolism for storing nutrition and supplying energy. It participates in a variety of life activities (such as growth, digestion, immunity, and reproduction). Nutrients stored in digestive glands, especially lipids, provide energy for reproductive behaviors such as gametogenesis and ovulation. A large number of studies have confirmed the accumulation of lipids from digestive gland to gonad during gametogenesis. At present, the research on the interference mechanism of persistent organic pollutants (POPs) on lipid metabolism of aquatic animals and the adaptive response of aquatic animals to POPs stress focus on biochemical levels or a few genes. The potential molecular mechanism of lipid metabolism interference needs to be further studied. In addition, as an important stage of aquatic animals, the reproductive period is a vigorous period of lipid metabolism. However, at present, there is no report on the molecular mechanism of POPs interfering with the lipid metabolism of the digestive gland in the reproductive process of aquatic animals. In this study, female scallop C. farreri was cultured in natural seawater and exposed to 4 μg/L B[a]P in seawater. Transcriptome analysis of digestive glands at multiple stages (proliferative stage, growth stage, mature stage and spawn stage) was performed, and iPath pathway analysis was used to analyze lipid metabolism pathways and differential genes. The interference mechanism of lipid metabolism in bivalves during reproductive period was revealed. This study will provide valuable genomic information on the role of digestive glands in lipid metabolism and reproduction of C. farreri, and will contribute to further functional genomics of bivalves and other closely related species.
Lipids are the main energy support during gametogenesis. Digestive gland is the key organ of aquatic animal metabolism for storing nutrition and supplying energy. It participates in a variety of life activities (such as growth, digestion, immunity, and reproduction). Nutrients stored in digestive glands, especially lipids, provide energy for reproductive behaviors such as gametogenesis and ovulation. A large number of studies have confirmed the accumulation of lipids from digestive gland to gonad during gametogenesis. At present, the research on the interference mechanism of persistent organic pollutants (POPs) on lipid metabolism of aquatic animals and the adaptive response of aquatic animals to POPs stress focus on biochemical levels or a few genes. The potential molecular mechanism of lipid metabolism interference needs to be further studied. In addition, as an important stage of aquatic animals, the reproductive period is a vigorous period of lipid metabolism. However, at present, there is no report on the molecular mechanism of POPs interfering with the lipid metabolism of the digestive gland in the reproductive process of aquatic animals. In this study, female scallop C. farreri was cultured in natural seawater and exposed to 4 μg/L B[a]P in seawater. Transcriptome analysis of digestive glands at multiple stages (proliferative stage, growth stage, mature stage and spawn stage) was performed, and iPath pathway analysis was used to analyze lipid metabolism pathways and differential genes. The interference mechanism of lipid metabolism in bivalves during reproductive period was revealed. This study will provide valuable genomic information on the role of digestive glands in lipid metabolism and reproduction of C. farreri, and will contribute to further functional genomics of bivalves and other closely related species.
ArticleNumber 118904
Author Zhou, Yueyao
Gao, Zhongyuan
Xu, Ruiyi
Li, Dongyu
Pan, Luqing
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Keywords Reproduction
Benzo[a]pyrene
Chlamys farreri
Lipid metabolism
Transcriptome
Language English
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Snippet Lipids are the main energy support during gametogenesis. Digestive gland is the key organ of aquatic animal metabolism for storing nutrition and supplying...
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SubjectTerms Animals
aquatic animals
Azumapecten farreri
Benzo(a)pyrene - metabolism
Benzo[a]pyrene
Chlamys farreri
developmental stages
digestion
energy
Female
females
gametogenesis
Gene Expression Profiling
genomics
immunity
Lipid Metabolism
ovulation
Pectinidae
pollution
Reproduction
scallops
seawater
Transcriptome
transcriptomics
Title Insights into disruption of lipid metabolism in digestive gland of female scallop Chlamys farreri under B[a]P exposure
URI https://dx.doi.org/10.1016/j.envpol.2022.118904
https://www.ncbi.nlm.nih.gov/pubmed/35091022
https://www.proquest.com/docview/2636459794
Volume 299
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