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AOP: 112
Title
Increased dopaminergic activity leading to endometrial adenocarcinomas (in Wistar rat)
Short name
Graphical Representation
Point of Contact
Contributors
- Charles Wood
- Cataia Ives
Coaches
OECD Information Table
OECD Project # | OECD Status | Reviewer's Reports | Journal-format Article | OECD iLibrary Published Version |
---|---|---|---|---|
1.29 |
This AOP was last modified on May 26, 2024 20:39
Revision dates for related pages
Page | Revision Date/Time |
---|---|
Increase, Dopaminergic activity | September 16, 2017 10:16 |
Decreased, Prolactin | September 16, 2017 10:16 |
Increased, Estrogen receptor (ER) activity | December 03, 2016 16:37 |
Decreased, Progesterone from corpus luteum | September 16, 2017 10:16 |
Increase, Hyperplasia (glandular epithelial cells of endometrium) | September 16, 2017 10:16 |
Increase, Endometrial adenocarcinomas | September 16, 2017 10:16 |
Increase, Dopaminergic activity leads to Decreased, Prolactin | December 03, 2016 16:37 |
Decreased, Prolactin leads to Increased, Estrogen receptor (ER) activity | December 03, 2016 16:37 |
Increased, Estrogen receptor (ER) activity leads to Decreased, Progesterone from corpus luteum | December 03, 2016 16:37 |
Increase, Hyperplasia (glandular epithelial cells of endometrium) leads to Increase, Endometrial adenocarcinomas | December 03, 2016 16:38 |
Decreased, Progesterone from corpus luteum leads to Increase, Hyperplasia (glandular epithelial cells of endometrium) | December 03, 2016 16:38 |
Abstract
This putative adverse outcome pathway (AOP) outlines potential key events leading to a tumor outcome in standard carcinogenicity models. This information is based largely on modes of action described previously in cited literature sources and is intended as a resource template for AOP development and data organization. Presentation in this Wiki does not indicate EPA acceptance of a particular pathway for a given reference agent, only that the information has been proposed in some manner. In addition, this putative AOP relates to the model species indicated and does not directly address issues of human relevance.
AOP Development Strategy
Context
Strategy
Summary of the AOP
Events:
Molecular Initiating Events (MIE)
Key Events (KE)
Adverse Outcomes (AO)
Type | Event ID | Title | Short name |
---|
MIE | 746 | Increase, Dopaminergic activity | Increase, Dopaminergic activity |
KE | 747 | Decreased, Prolactin | Decreased, Prolactin |
KE | 748 | Increased, Estrogen receptor (ER) activity | Increased, Estrogen receptor (ER) activity |
KE | 749 | Decreased, Progesterone from corpus luteum | Decreased, Progesterone from corpus luteum |
KE | 772 | Increase, Hyperplasia (glandular epithelial cells of endometrium) | Increase, Hyperplasia (glandular epithelial cells of endometrium) |
AO | 773 | Increase, Endometrial adenocarcinomas | Increase, Endometrial adenocarcinomas |
Relationships Between Two Key Events (Including MIEs and AOs)
Title | Adjacency | Evidence | Quantitative Understanding |
---|
Network View
Prototypical Stressors
Life Stage Applicability
Taxonomic Applicability
Term | Scientific Term | Evidence | Link |
---|---|---|---|
Rattus norvegicus | Rattus norvegicus | NCBI |
Sex Applicability
Sex | Evidence |
---|---|
Female |
Overall Assessment of the AOP
Domain of Applicability
Essentiality of the Key Events
Evidence Assessment
Known Modulating Factors
Quantitative Understanding
Considerations for Potential Applications of the AOP (optional)
References
Gunin, A. G., Emelianov, V., Tolmachev, A. S., & Tolmacheva, A. (2002). Effect of prolactin and dopaminergic drugs on uterine response to chronic estrogen exposure. J Endocrinol, 172(1), 61-69.
Harleman, J. H., Hargreaves, A., Andersson, H., & Kirk, S. (2012). A review of the incidence and coincidence of uterine and mammary tumors in Wistar and Sprague-Dawley rats based on the RITA database and the role of prolactin. Toxicol Pathol, 40(6), 926-930. doi: 10.1177/0192623312444621
O'Connor, J. C., Plowchalk, D. R., Van Pelt, C. S., Davis, L. G., & Cook, J. C. (2000). Role of prolactin in chloro-S-triazine rat mammary tumorigenesis. Drug Chem Toxicol, 23(4), 575-601. doi: 10.1081/DCT-100101972