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AOP: 465
Title
Alcohol dehydrogenase leading to reproductive dysfunction
Short name
Graphical Representation
Point of Contact
Contributors
- Donggon Yoo
- Woo-Keun Kim
Coaches
OECD Information Table
OECD Project # | OECD Status | Reviewer's Reports | Journal-format Article | OECD iLibrary Published Version |
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This AOP was last modified on October 07, 2024 19:05
Revision dates for related pages
Page | Revision Date/Time |
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Increase, Alcohol dehydrogenase | August 28, 2022 20:31 |
Increased, Estrogen receptor (ER) activity | December 03, 2016 16:37 |
Increase, Vitellogenin mRNA | August 28, 2022 20:33 |
Delay, Ovarian maturation | August 28, 2022 20:34 |
Increase, Body volume of female adults | August 28, 2022 20:37 |
Increase, sex ratio (F/M) | August 28, 2022 20:39 |
Increase, developmental abnormalities | August 28, 2022 20:41 |
Increase, Mortality | October 26, 2020 05:18 |
Increase, Alcohol dehydrogenase leads to Increased, Estrogen receptor (ER) activity | August 28, 2022 20:36 |
Increased, Estrogen receptor (ER) activity leads to Increase, Vitellogenin mRNA | August 28, 2022 20:42 |
Increase, Vitellogenin mRNA leads to Delay, Ovarian maturation | August 28, 2022 20:42 |
Delay, Ovarian maturation leads to Increase, Body volume of female adults | August 28, 2022 20:42 |
Delay, Ovarian maturation leads to Increase, sex ratio (F/M) | August 28, 2022 20:43 |
Increase, Body volume of female adults leads to Increase, developmental abnormalities | August 28, 2022 20:43 |
Increase, sex ratio (F/M) leads to Increase, developmental abnormalities | August 28, 2022 20:43 |
Increase, developmental abnormalities leads to Increase, Mortality | August 28, 2022 20:44 |
Abstract
We propose this AOP associated with reproduction dysfunction based on literature. This AOP is defined as MIE when the expression of Alcohol dehydrogenase (ADH) gene is up-regulated when exposed to Di(2-ethylhexyl) phthalate (DEHP) in animal model. Di(2-ethylhexyl) phthalate (DEHP) is an industrial additive that is widely used as a plasticizer. DEHP is often found in freshwater ecosystems and many freshwater species have been exposed to natural aquatic systems. ADH is a metabolizing enzyme produced in response to exposure to DEHP. ADH could increase estrogen levels. It causes gynaecological cancers and reproductive dysfunction. We will make an AOP with a focus on reproduction dysfunction.
The estrogen-associated receptor gene (ERR), involved in reproductive metabolism, is one of the downstream components of the ADH signalling pathway. Vitellogenin mRNA is placed in ERR downstream and is involved in ovarian maturation and vitellogenesis expression/pathway inactivation. Vitellogenesis causes an imbalance between the sex ratio (F/M) and body length. It is the reason for developmental abnormalities and mortality.
AOP Development Strategy
Context
Strategy
Based on a literature review, we proposed the conceptual AOP framework associated with alcohol dehydrogenase leading to reproductive dysfunction. The molecular mechanism of alcohol dehydrogenase’s reproduction is relatively clear based on the paper. However, the supporting information on alcohol dehydrogenase and related KEs is not sufficient yet. We believe our animal model experiment data and further gene analysis can validate the key regulators in the suggested AOP. Then, we can suggest essentiality and evidence for each KEs based on animal model studies. The process for this AOP validation needs at least one year.
Summary of the AOP
Events:
Molecular Initiating Events (MIE)
Key Events (KE)
Adverse Outcomes (AO)
Type | Event ID | Title | Short name |
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MIE | 2045 | Increase, Alcohol dehydrogenase | Increase, Alcohol dehydrogenase |
KE | 748 | Increased, Estrogen receptor (ER) activity | Increased, Estrogen receptor (ER) activity |
KE | 2046 | Increase, Vitellogenin mRNA | Increase, Vitellogenin mRNA |
KE | 2047 | Delay, Ovarian maturation | Delay, Ovarian maturation |
KE | 2048 | Increase, Body volume of female adults | Increase, Body volume of female adults |
KE | 2049 | Increase, sex ratio (F/M) | Increase, sex ratio (F/M) |
KE | 2050 | Increase, developmental abnormalities | Increase, developmental abnormalities |
KE | 350 | Increase, Mortality | Increase, Mortality |
Relationships Between Two Key Events (Including MIEs and AOs)
Title | Adjacency | Evidence | Quantitative Understanding |
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Increase, Alcohol dehydrogenase leads to Increased, Estrogen receptor (ER) activity | adjacent | Moderate | Moderate |
Increased, Estrogen receptor (ER) activity leads to Increase, Vitellogenin mRNA | adjacent | Moderate | Moderate |
Increase, Vitellogenin mRNA leads to Delay, Ovarian maturation | adjacent | Moderate | Moderate |
Delay, Ovarian maturation leads to Increase, Body volume of female adults | adjacent | Moderate | Moderate |
Delay, Ovarian maturation leads to Increase, sex ratio (F/M) | adjacent | Moderate | Moderate |
Increase, Body volume of female adults leads to Increase, developmental abnormalities | adjacent | Moderate | Moderate |
Increase, sex ratio (F/M) leads to Increase, developmental abnormalities | adjacent | Moderate | Moderate |
Increase, developmental abnormalities leads to Increase, Mortality | adjacent | Moderate | Moderate |
Network View
Prototypical Stressors
Life Stage Applicability
Taxonomic Applicability
Sex Applicability
Overall Assessment of the AOP
Domain of Applicability
Essentiality of the Key Events
Evidence Assessment
Known Modulating Factors
Modulating Factor (MF) | Influence or Outcome | KER(s) involved |
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