Endocrine System Disruption: Difference between revisions
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Estrogen Receptor module provides an estimate of the risk of reproductive toxicity associated with compound binding to estrogen receptor alpha | The term "estrogen receptor" refers to a group of nuclear receptors activated by 17β-estradiol being a main target for endocrine disrupting chemicals which have adverse toxic effects like reproductive toxicity or cancer. | ||
Estrogen Receptor module provides an estimate of the risk of reproductive toxicity associated with compound binding to estrogen receptor alpha. Effects of binding to ER-α in the organism may include: | |||
* Mimicking hormone action | |||
* Inhibition of hormone action | |||
''In vitro'' measurement of estrogen receptor binding (LogRBA) estimates the relative affinity of compound to receptor, compared to estradiol. Compounds having LogRBA>0 are classified as strong estrogens, and having LogRBA<-3 may be classified as non-binders. | |||
===Features=== | ===Features=== | ||
* | * predicts probabilities of the test compound exhibiting Log RBA > 0 and Log RBA > 3, and classifies the analyzed chemicals according to their estrogen receptor binding affinity (strong binding, weak binding, no binding). | ||
* The classification is based on predicted probabilities of the estrogen receptor binding. | |||
* | * Substructure-based binomial PLS model | ||
* | * 1,500 compounds used in the training set | ||
* | * Provides a list of up to five most similar structures from the training set with the experimental values and references. | ||
* Provides a list of up to five most similar structures from the training set with the experimental values | |||
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# The | # The classification result of the estrogen receptor binding:<br>[[File:estrogen_receptor_scale.png|400px]] | ||
# Calculated | # Calculated probabilities of strong (LogRBA>0) and overall (LogRBA>-3) estrogen receptor binding. | ||
# Up to 5 records of similar compounds from the training set, including name, CAS number, LogRBA values, species and references. | |||
# Up to 5 records of similar compounds from the training set, including | |||
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Revision as of 12:51, 16 May 2012
Overview
The term "estrogen receptor" refers to a group of nuclear receptors activated by 17β-estradiol being a main target for endocrine disrupting chemicals which have adverse toxic effects like reproductive toxicity or cancer. Estrogen Receptor module provides an estimate of the risk of reproductive toxicity associated with compound binding to estrogen receptor alpha. Effects of binding to ER-α in the organism may include:
- Mimicking hormone action
- Inhibition of hormone action
In vitro measurement of estrogen receptor binding (LogRBA) estimates the relative affinity of compound to receptor, compared to estradiol. Compounds having LogRBA>0 are classified as strong estrogens, and having LogRBA<-3 may be classified as non-binders.
Features
- predicts probabilities of the test compound exhibiting Log RBA > 0 and Log RBA > 3, and classifies the analyzed chemicals according to their estrogen receptor binding affinity (strong binding, weak binding, no binding).
- The classification is based on predicted probabilities of the estrogen receptor binding.
- Substructure-based binomial PLS model
- 1,500 compounds used in the training set
- Provides a list of up to five most similar structures from the training set with the experimental values and references.
Interface
- The classification result of the estrogen receptor binding:
File:estrogen receptor scale.png - Calculated probabilities of strong (LogRBA>0) and overall (LogRBA>-3) estrogen receptor binding.
- Up to 5 records of similar compounds from the training set, including name, CAS number, LogRBA values, species and references.
Technical information
Calculated quantitative parameters
In vitro measurement of estrogen receptor binding affinity (Log RBA) estimates the relative affinity of compound to receptor compared to reference ligand estradiol: %RBA = IC50(reference)/IC50(test compound) * 100%. Here IC50 is the concentration at which the unlabeled ligand displaces half of specifically bound radiolabeled 17β-estradiol to the ER, (reference estrogen in a typical experiment is the same 17β-estradiol). Experimental data were converted to binary representation with two cut-offs at Log RBA = -3, and Log RBA = 0. Predicted values are probabilities that tested compound will have Log RBA higher than the defined cut-offs. Based on the predictions compounds are classified as strong binders (Log RBA > 0), weak binders (Log RBA most probably falling in the range from -3 to 0), and non-binders (Log RBA < -3).
Experimental data
Experimental data that was used for the development of predictive models was collected from various reference databases (Endocrine disruption - FDA Endocrine Disruptors DB, Risk Assessment of Endocrine Disruptors (METI)), as well as original publications. After thorough verification of the obtained values the final data sets contained nearly 1500 compounds with experimentally measured ER alpha binding affinities.
Model features & prediction accuracy
The predictive models of Endocrine System Disruption were built using binomial PLS method in Algorithm Builder. The models incorporated essential physicochemical properties of chemicals such as ionization and molecular size as well as fragmental descriptors including predefined substructures representing structural features known to have a profound influence on the analyzed property.
The resulting models are highly accurate: overall accuracy of ER alpha affinity predictions exceeds 85% in both training and test sets in case of general binding model (Log RBA > -3), and exceeds 90% in case of strong binding (Log RBA > 0).