Informace o projektu
Environmental chemicals as obesogens
(OBESOGENS)
- Kód projektu
- 707241
- Období řešení
- 7/2016 - 6/2019
- Investor / Programový rámec / typ projektu
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Evropská unie
- Horizon 2020
- MSCA Marie Skłodowska-Curie Actions (Excellent Science)
- Fakulta / Pracoviště MU
- Přírodovědecká fakulta
- Spolupracující organizace
-
University of Florida
- Odpovědná osoba Assoc. Prof. Christopher Martyniuk
Obesity is a serious health risk that has reached epidemic proportions worldwide. Obesity is traditionally considered a as disorder of energy imbalance imposed on a background of genetic disposition. In addition to risk factors such as diet and genetics, chemicals in our environment have emerged as contributing factors associated with an increased risk for obesity (i.e. obesogens). Phthalate esters, a ubiquitous class of chemicals used as plasticizers in products such as toys and hospital supplies, are suspected of being obesogens. Despite studies demonstrating that phthalate urine levels are associated with increased risk to obesity in children, meta-analyses report that current data are insufficient for determining whether phthalates do in fact increase the prevalence of obesity. Moreover, data are sparse on how obesogens affect metabolism and the feeding axis and there are fundamental gaps in our understanding of the precise mechanisms by which environmental chemicals exacerbate this human disease. The central hypothesis of this proposal is that exposures to phthalates will exacerbate molecular responses in the hypothalamus and gut that are observed during a regime of overfeeding. Further, the modification of the gut microbiota may be a relevant consequence of obesogens. The zebrafish (ZF) is one of the most important models in environmental toxicology and developmental biology, and is rapidly becoming a major
model for studies in human health and metabolic diseases. ZF will be used to determine mechanisms that are associated to diet and chemical induced obesity, novel regulatory pathways in the hypothalamus and gut will be identified; this is important as these two tissues communicate via the endocrine system and there is direct innervation of the gut by the central nervous system. To be in line with 3R principles, high throughput screen method using ZF embryo will be developed to test environmental chemicals for their “obesogenic” potential.
Publikace
Počet publikací: 4
2022
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Sex-dependent host-microbiome dynamics in zebrafish: Implications for toxicology and gastrointestinal physiology
Comparative Biochemistry and Physiology Part D: Genomics and Proteomics, rok: 2022, ročník: 42, vydání: June 2022, DOI
2020
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Evaluation of Microbiome-Host Relationships in the Zebrafish Gastrointestinal System Reveals Adaptive Immunity Is a Target of Bis(2-ethylhexyl) Phthalate (DEHP) Exposure
Environmental Science & Technology, rok: 2020, ročník: 54, vydání: 9, DOI
2019
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Biological effects of the benzotriazole ultraviolet stabilizers UV-234 and UV-320 in early-staged zebrafish (Danio rerio)
Environmental Pollution, rok: 2019, ročník: 245, vydání: February, DOI
2018
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The gut microbiome and aquatic toxicology: An emerging concept for environmental health
Environmental Toxicology and Chemistry, rok: 2018, ročník: 37, vydání: 11, DOI