Hypoxia Causes Transgenerational Impairment of Ovarian Development and Hatching Success in Fish

Keng Po Lai; Simon Yuan Wang; Jing Woei Li; Yin Tong; Ting Fung Chan; Nana Jin; Anna Tse; Jiang Wen Zhang; Miles Teng Wan; Nathan Tam; Doris Wai Ting Au; Bo-Young Lee; Jae-Seong Lee; Alice Sze Tsai Wong; Richard Yuen Chong Kong; Rudolf Shiu Sun Wu

doi:10.1021/acs.est.8b07250

Hypoxia Causes Transgenerational Impairment of Ovarian Development and Hatching Success in Fish

Keng Po Lai, Simon Yuan Wang, Jing Woei Li, Yin Tong, Ting Fung Chan, Nana Jin, Anna Tse, Jiang Wen Zhang, Miles Teng Wan, Nathan Tam, Doris Wai Ting Au, Bo-Young Lee, Jae-Seong Lee, Alice Sze Tsai Wong, Richard Yuen Chong Kong, Rudolf Shiu Sun Wu^*

^*Corresponding author for this work

Department of Chemistry

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

55 Citations (Scopus)

Abstract

Hypoxia is a pressing environmental problem in both marine and freshwater ecosystems globally, and this problem will be further exacerbated by global warming in the coming decades. Recently, we reported that hypoxia can cause transgenerational impairment of sperm quality and quantity in fish (in F0, F1, and F2 generations) through DNA methylome modifications. Here, we provide evidence that female fish (Oryzias melastigma) exposed to hypoxia exhibit reproductive impairments (follicle atresia and retarded oocyte development), leading to a drastic reduction in hatching success in the F2 generation of the transgenerational group, although they have never been exposed to hypoxia. Further analyses show that the observed transgenerational impairments in ovarian functions are related to changes in the DNA methylation and expression pattern of two gene clusters that are closely associated with stress-induced cell cycle arrest and cell apoptosis. The observed epigenetic and transgenerational alterations suggest that hypoxia may pose a significant threat to the sustainability of natural fish populations.

Original language	English
Pages (from-to)	3917-3928
Journal	Environmental Science and Technology
Volume	53
Issue number	7
Online published	7 Mar 2019
DOIs	https://doi.org/10.1021/acs.est.8b07250
Publication status	Published - 2 Apr 2019

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Lai, K. P., Wang, S. Y., Li, J. W., Tong, Y., Chan, T. F., Jin, N., Tse, A., Zhang, J. W., Wan, M. T., Tam, N., Au, D. W. T., Lee, B.-Y., Lee, J.-S., Wong, A. S. T., Kong, R. Y. C., & Wu, R. S. S. (2019). Hypoxia Causes Transgenerational Impairment of Ovarian Development and Hatching Success in Fish. Environmental Science and Technology, 53(7), 3917-3928. https://doi.org/10.1021/acs.est.8b07250

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title = "Hypoxia Causes Transgenerational Impairment of Ovarian Development and Hatching Success in Fish",

abstract = "Hypoxia is a pressing environmental problem in both marine and freshwater ecosystems globally, and this problem will be further exacerbated by global warming in the coming decades. Recently, we reported that hypoxia can cause transgenerational impairment of sperm quality and quantity in fish (in F0, F1, and F2 generations) through DNA methylome modifications. Here, we provide evidence that female fish (Oryzias melastigma) exposed to hypoxia exhibit reproductive impairments (follicle atresia and retarded oocyte development), leading to a drastic reduction in hatching success in the F2 generation of the transgenerational group, although they have never been exposed to hypoxia. Further analyses show that the observed transgenerational impairments in ovarian functions are related to changes in the DNA methylation and expression pattern of two gene clusters that are closely associated with stress-induced cell cycle arrest and cell apoptosis. The observed epigenetic and transgenerational alterations suggest that hypoxia may pose a significant threat to the sustainability of natural fish populations.",

author = "Lai, {Keng Po} and Wang, {Simon Yuan} and Li, {Jing Woei} and Yin Tong and Chan, {Ting Fung} and Nana Jin and Anna Tse and Zhang, {Jiang Wen} and Wan, {Miles Teng} and Nathan Tam and Au, {Doris Wai Ting} and Bo-Young Lee and Jae-Seong Lee and Wong, {Alice Sze Tsai} and Kong, {Richard Yuen Chong} and Wu, {Rudolf Shiu Sun}",

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doi = "10.1021/acs.est.8b07250",

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AU - Lai, Keng Po

AU - Wang, Simon Yuan

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AU - Tong, Yin

AU - Chan, Ting Fung

AU - Jin, Nana

AU - Tse, Anna

AU - Zhang, Jiang Wen

AU - Wan, Miles Teng

AU - Tam, Nathan

AU - Au, Doris Wai Ting

AU - Lee, Bo-Young

AU - Lee, Jae-Seong

AU - Wong, Alice Sze Tsai

AU - Kong, Richard Yuen Chong

AU - Wu, Rudolf Shiu Sun

PY - 2019/4/2

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N2 - Hypoxia is a pressing environmental problem in both marine and freshwater ecosystems globally, and this problem will be further exacerbated by global warming in the coming decades. Recently, we reported that hypoxia can cause transgenerational impairment of sperm quality and quantity in fish (in F0, F1, and F2 generations) through DNA methylome modifications. Here, we provide evidence that female fish (Oryzias melastigma) exposed to hypoxia exhibit reproductive impairments (follicle atresia and retarded oocyte development), leading to a drastic reduction in hatching success in the F2 generation of the transgenerational group, although they have never been exposed to hypoxia. Further analyses show that the observed transgenerational impairments in ovarian functions are related to changes in the DNA methylation and expression pattern of two gene clusters that are closely associated with stress-induced cell cycle arrest and cell apoptosis. The observed epigenetic and transgenerational alterations suggest that hypoxia may pose a significant threat to the sustainability of natural fish populations.

AB - Hypoxia is a pressing environmental problem in both marine and freshwater ecosystems globally, and this problem will be further exacerbated by global warming in the coming decades. Recently, we reported that hypoxia can cause transgenerational impairment of sperm quality and quantity in fish (in F0, F1, and F2 generations) through DNA methylome modifications. Here, we provide evidence that female fish (Oryzias melastigma) exposed to hypoxia exhibit reproductive impairments (follicle atresia and retarded oocyte development), leading to a drastic reduction in hatching success in the F2 generation of the transgenerational group, although they have never been exposed to hypoxia. Further analyses show that the observed transgenerational impairments in ovarian functions are related to changes in the DNA methylation and expression pattern of two gene clusters that are closely associated with stress-induced cell cycle arrest and cell apoptosis. The observed epigenetic and transgenerational alterations suggest that hypoxia may pose a significant threat to the sustainability of natural fish populations.

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Hypoxia Causes Transgenerational Impairment of Ovarian Development and Hatching Success in Fish

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