Subacute Microcystin-LR Exposure Alters the Metabolism of Thyroid Hormones in Juvenile Zebrafish (Danio Rerio)

Liu, Zidong; Tang, Rong; Li, Dapeng; Hu, Qing; Wáng, Ying

doi:10.3390/toxins7020337

Cited by 31 publications

(15 citation statements)

References 53 publications

(65 reference statements)

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“…It is then not surprising to detect the alterations of relevant HPI-axis genes in the zebrafish brain induced by MC-LR since the brain is the center of neuroendocrinology. Marked up-regulation of the primary neurohormone, CRH, was also reported in zebrafish larvae exposed to 500 µg/L MC-LR for 96 h [37] and in juvenile zebrafish after exposure to 25 µg/L MC-LR for 7, 14, 21 or 28 d [38]. Similar adverse effects on brain CRH contents were observed in studies on other chemicals exposure such as prochloraz [20] and metyrapone [34].…”

Section: Discussionsupporting

confidence: 69%

Persistent Exposure to Environmental Levels of Microcystin-LR Disturbs Cortisol Production via Hypothalamic-Pituitary-Interrenal (HPI) Axis and Subsequently Liver Glucose Metabolism in Adult Male Zebrafish (Danio rerio)

Wang

Zha

et al. 2020

Toxins

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There is growing evidence that microcystin-LR (MC-LR) is a new endocrine disruptor, whereas the impacts of persistent exposure to MC-LR on the hypothalamic-pituitary-interrenal (HPI) axis and health hazards thereafter have not been investigated. In this work, adult male zebrafish (Danio rerio) were immersed into MC-LR solutions at concentrations of 0, 1, 5 and 25 μg/L for 30 d, respectively. The results showed that persistent MC-LR exposure caused an extensive upregulation of HPI-axis genes but an inhibition of brain nuclear receptors (gr and mr), which finally increased serum cortisol levels. Furthermore, the decreased expression of hepatic gr might partly be responsible for the strong inhibition on the expression of downstream genes involved in glucose metabolic enzymes, including gluconeogenesis-related genes (pepck, fbp1a, g6pca), glycogenolysis-related gene (pyg), glycolysis-related genes (gk, pfk1b, pk) and glycogenesis-related gene (gys2). These findings are in accordance with the decline in serum glucose, indicating that long-term MC-LR exposure caused a lower production of glucose relative to glucose lysis. Our above results firstly establish the link between persistent MC-LR exposure and impaired glucose metabolism, suggesting that long-term MC-LR-mediated stress might threaten fish’s health.

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Section: Discussionsupporting

confidence: 69%

Persistent Exposure to Environmental Levels of Microcystin-LR Disturbs Cortisol Production via Hypothalamic-Pituitary-Interrenal (HPI) Axis and Subsequently Liver Glucose Metabolism in Adult Male Zebrafish (Danio rerio)

Wang

Zha

et al. 2020

Toxins

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“…Besides modulating the HPG axis, it has also been previously demonstrated that MCs alter the metabolism of cortisol and thyroid hormone, through activating the hypothalamic-pituitary-adrenal/interrenal (for fish) (HPA/HPI) and hypothalamic-pituitary-thyroid (HPT) axis [130][131][132][133][134][135][136]. As mentioned above, the endocrine system is very complex and affected by many factors, and previous studies have shown that liver damage may not only induce sex hormone changes [127], but also reduce hepatic thyroxine deiodination in animals [137], which in turn causes a decline in peripheral triiodothyronine production [130].…”

Section: Sex Hormones Hpg Axis Liver and Endocrine-disrupting Effectsmentioning

confidence: 99%

A review of reproductive toxicity of microcystins

Chen

Zhang

et al. 2016

Journal of Hazardous Materials

299

126

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“…In recent years, the deleterious effect of environmental toxins on mitochondrial function has been studied extensively in humans (Eldakroory et al, 2016, Cremonese et al, 2017, Hongsibsong et al, 2017, Sittitoon et al, 2017) and model organisms such as rodents (O’Brien and Wallace, 2004, Suzuki et al, 2008, Butenhoff et al, 2009, Butenhoff et al, 2012), fish (Ge et al, 2017), zebrafish (Bestman et al, 2015, Liu et al, 2015, Jia et al, 2016, Chen et al, 2016, Raftery et al, 2017), Caenorhabditis elegans ( C. elegans ) (Zhou et al, 2013, Liu et al, 2015, Wyatt et al, 2017), and cellular models (Zieminska et al, 2016, D’Mello et al, 2017, Yang et al, 2017). A large number of environmental factors including l-methyl-4phenyl-l, 2, 3, 6-tetra-hydropyridine (MPTP), and pesticides such as rotenone and paraquat are now widely-recognized mitochondrial toxins (Backer and Weinstein, 1980, Harmon and Sanborn, 1982, Nicklas et al, 1987, Youngster et al, 1987) and specifically, neurotoxins.…”

Section: Environmental Toxins and Deleterious Effect On Mitochondriamentioning

confidence: 99%

Clinical effects of chemical exposures on mitochondrial function

Zolkipli‐Cunningham

Falk

2017

Toxicology

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Mitochondria are critical for the provision of ATP for cellular energy requirements. Tissue and organ functions are dependent on adequate ATP production, especially when energy demand is high. Mitochondria also play a role in a vast array of important biochemical pathways including apoptosis, generation and detoxification of reactive oxygen species, intracellular calcium regulation, steroid hormone and heme synthesis, and lipid metabolism. The complexity of mitochondrial structure and function facilitates its diverse roles but also enhances its vulnerability. Primary disorders of mitochondrial bioenergetics, or Primary Mitochondrial Diseases (PMD) are due to inherited genetic defects in the nuclear or mitochondrial genomes that result in defective oxidative phosphorylation capacity and cellular energy production. Secondary mitochondrial dysfunction is observed in a wide range of diseases such as Alzheimer’s and Parkinson’s disease. Several lines of evidence suggest that environmental exposures cause substantial mitochondrial dysfunction. Whereby literature from experimental and human studies on exposures associated with Alzheimer’s and Parkinson’s diseases exist, the significance of exposures as potential triggers in Primary Mitochondrial Disease (PMD) is an emerging clinical question that has not been systematically studied.

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Subacute Microcystin-LR Exposure Alters the Metabolism of Thyroid Hormones in Juvenile Zebrafish (Danio Rerio)

Cited by 31 publications

References 53 publications

Persistent Exposure to Environmental Levels of Microcystin-LR Disturbs Cortisol Production via Hypothalamic-Pituitary-Interrenal (HPI) Axis and Subsequently Liver Glucose Metabolism in Adult Male Zebrafish (Danio rerio)

Persistent Exposure to Environmental Levels of Microcystin-LR Disturbs Cortisol Production via Hypothalamic-Pituitary-Interrenal (HPI) Axis and Subsequently Liver Glucose Metabolism in Adult Male Zebrafish (Danio rerio)

A review of reproductive toxicity of microcystins

Clinical effects of chemical exposures on mitochondrial function

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