1. Delineating Thyroid-Mediated Toxicity Pathways in an Amphibian Model System
Michael W. Hornung, Sigmund J. Degitz, Joseph E. Tietge
US Environmental Protection Agency
Office of Research and Development
National Health and Environmental Effects Research Laboratory
Mid-Continent Ecology Division
Duluth, MN, USA
McKim Conference on Predictive Toxicology
September 16-18, 2008
Duluth, MN

2. Outline Brief background on MED thyroid research
Approach to adverse outcome pathway research for
amphibian-based thyroid model
Investigating endpoints at steps in the pathway
Understanding toxicity in the context of pathway information

3. Background on EDC Assays
FQPA and SDWA directed U.S. EPA to evaluate chemicals for endocrine disruption
Endocrine Disrupter Screening and Testing Advisory Committee (EDSTAC) established
Screening and testing methods recommended by EDSTAC included:
Short-term fish reproduction assay to detect HPG effects
Short-term amphibian metamorphosis assay to detect HPT effects
Longer-term fish life-cycle assay for reproductive effects
Longer-term amphibian reproductive/developmental effects

4. Test Overview Initiated with tadpoles at onset of thyroid function
14-21 days exposure
Apical Endpoints
Developmental stage
Thyroid histology
100
200
300
400
500
600
700
Concentration (ng/dL)
Prometamorphosis
Climax
Developmental Stage
Thyroid function T4 T3

5. Amphibian Metamorphosis Assay
Methimazole 55 56 57 58 59 60
Perchlorate 55 56 57 58 59 60 61 62

6. In Vivo Gene Expression Following Exposure
NIS Gene Response
Exposure > response

7. The Need for Predictive Tools
Apical endpoints established with the amphibian metamorphosis assay.
However we can not test all the chemicals for which little is known about thyroid activity
Need to develop tools to aid in selecting chemicals that need to be tested and inform which chemicals are likely not active and do not need to be tested or can be assigned low priority for testing

8. Potential Endpoints for Thyroid Hormone Disruption
Hypothalamus
TRH/CRH
Tyrosine Iodination
and Hormone Production
Thyroid Peroxidase
Pituitary
TSH
T4 (-)
Thyroid Gland
Iodine Uptake
Sodium-Iodide Symporter
MIT
I + Tyr
DIT
NIS
TPO
Iodine
DIT
DIT
Receptor and Protein
Binding T4
Metabolizing Enzyme
Induction / Activity T4
Liver T4
Peripheral Tissue
metabolism/
conjugation
Deiodination
TH-gluc
T3 + TR  T3-TR:RXR  DNA  mRNA
elimination

9. Adverse Outcome Pathways for Thyroid Disruption
Subcellular
Target
Cells
Effected
Adverse
Outcome
Chemical
Tissue/Organ
Methimazole
TPO Enzyme
Inhibition
Thyroid
Follicular Cells
 T4 Synthesis
 Serum T4
Systemic T4
Insufficiency
Arrested
Amphibian
Metamorphosis
Perchlorate
NIS
Inhibition
Thyroid
Follicular Cells
 T4 Synthesis
 Serum T4
Systemic T4
Insufficiency
Arrested
Amphibian
Metamorphosis
Toxicity Pathway
Adverse Outcomes Pathway
Amphibian Metamorphosis Assay

10. Selection of a Pathway
Subcellular
Target
Cells
Effected
Adverse
Outcome
Chemical
Tissue/Organ
Thyroid
Follicular Cells
 T4 Synthesis
Methimazole
TPO Enzyme
Inhibition
Systemic T4
Insufficiency
Arrested
Amphibian
Metamorphosis
 Serum T4
Methimazole
TPO Enzyme
Inhibition
Thyroid
Follicular Cells
 T4 Synthesis
? Thyroid Tumor ?
 Serum T4
Increased
Serum TSH
Goiter
TPO-inhibition has potentially more types of chemicals
that can affect it than NIS. Assays available.
Single chemical with potential for multiple
adverse outcome pathways related to thyroid

11. Thyroid Explant Cultures and In Vitro Assays to Understand Responses Outside of the Compensatory Mechanisms of the Whole Animal

12. Thyroid Gland Explant Cultures
Ex Vivo:
Thyroid Gland Explant Cultures
Dissect thyroid glands from pro-metamorphic tadpoles
Culture in 96-well plates in L-15 media
Stimulate with TSH and treat with graded concentrations of test chemical
Measure T4 released to media by RIA
Measure TSH responsive gene expression by QPCR.
TSH
Chemical X T4
0.5 mm
Paired thyroid glands in
NF stage 59 X. laevis tadpole

13. Adverse Outcomes Pathway for Thyroid Toxicity
Subcellular
Target
Cells
Effected
Tissue/Organ
Chemical
Thyroid
Follicular Cells
 T4 Synthesis
Methimazole
TPO Enzyme
Inhibition
Systemic T4
Insufficiency
Arrested
Amphibian
Metamorphosis
 Serum T4
Toxicity Pathway
Adverse Outcomes Pathway
Verification of chemical activity
at organ level
Thyroid
Follicular Cells
 T4 Synthesis
Inhibition of
T4 released
from glands
Methimazole
TPO Enzyme
Inhibition T4
TSH X
Thyroid Explant Culture Assay

14. Thyroid Gland Explant Culture: Time & dose relationship of T4 release inhibition
1000 ng TSH/ml
1000 ng TSH/ml + MM1
2000 ng TSH/ml
2000 ng TSH/ml + MM1 

15. Gene Expression in Thyroid Gland Explant Cultures

16. Thyroid Gene Expression: Response to Inhibitors
Methimazole, PTU, and Perchlorate Treatment
NIS
TPO
Fresh 0h
(-) TSH
24h
(+) TSH
Freshly Dissected
No Inhibitor
Methimazole
PTU
Perchlorate

17. Thyroid Explant Culture Interpretation of compensatory and direct effects
In vitro…
Release T4 in response to TSH is dose related
T4 reserves must be depleted before synthesis inhibition significantly affects T4 release
In vivo…
Early stages are more sensitive to arrested metamorphosis by T4 inhibitors than late stages
At late prometamorphosis, thyroid glands are larger and reserve T4 is sufficient to complete metamorphosis
Exposure time 0 does not equal effect time 0 for circulating T4: NEED TO UNDERSTAND DOSIMETRY / PK & PD
Need to measure circulating hormone levels (T4, TSH) to interpret gene expression and protein responses in vivo

18. Inhibition of TSH-Stimulated T4 Release by Cultured Thyroid Glands
Thyroid glands from X. laevis tadpoles (NF stage 59) were cultured in L-15 media in the presence of 2000 ng TSH/ml alone or TSH and graded concentrations of chemical.
Media was collected and analyzed by RIA for T4.
IC50 = 1 µM
IC50 = 7 µM
IC50 = 11 µM
Perchlorate – Iodine uptake inhibition
PTU & Methimazole – TPO inhibition
Understand results in the context of the assay

19. Thyroid Explant Culture Assay
Assess Pathway for Thyroid Disruption vs Thyroid Follicular Cell Toxicity
Adverse
Outcome
Subcellular
Target
Cells
Effected
Tissue/Organ
Chemical
Thyroid
Follicular Cells
 T4 Synthesis
Inhibition of
T4 released
from glands
Chemical
TPO Enzyme
Inhibition
Chemical
? ? ?
mitochondria
Thyroid
Follicular Cells
MTT Assay
for mito function
Cell Death
Thyroid Explant Culture Assay T4
TSH X

20. Chemical Testing and Predictive Model Development
In Vitro
TPO Inhibition
Chemical
Selection
EPA Chemical Lists
Model T4 Synthesis Inhibitors
QSAR
Ex Vivo
T4 Release Inhibition
Literature – Thyroid Toxicity
Chemical Structure Similarities
In Vivo
Amphibian
Metamorphosis Assay

21. Adverse Outcomes Pathway for Thyroid Toxicity
Subcellular
Target
Cells
Effected
Adverse
Outcome
Chemical
Tissue/Organ
Thyroid
Follicular Cells
 T4 Synthesis
Methimazole
TPO Enzyme
Inhibition
 Serum T4
 Serum TSH
Systemic T4
Insufficiency
Arrested
Amphibian
Metamorphosis
Toxicity Pathway
Methimazole
TPO Enzyme
Inhibition
In Vitro TPO Inhibition Assay
QSAR = Chemical + Cellular Target

22. Thyroid Peroxidase Inhibition Guaiacol Oxidation Assay
In Vitro:
Prepare microsomes containing thyroid peroxidase activity from pig thyroid glands
Test chemicals for potency for inhibiting two TPO-mediated reactions
1. Tyrosine Iodination: Conversion of Tyrosine to MIT/DIT
2. Guaiacol Oxidation: Surrogate coupling reaction (DIT + DIT = T4)
Guaiacol Oxidation Assay
TPO
H2O2
Abs (470 nm)

23. Relative Potency of Model T4 Synthesis Inhibitors for TPO Inhibition
IC50 (µM)
Methimazole
PTU
Perchlorate 13,400
Methimazole is the most potent of the model T4 synthesis inhibitors in the TPO inhibition assay. Perchlorate had very low potency for TPO inhibition, but was the most potent of the three inhibitors in the ex vivo and in vivo assays. The primary mechanism of action for perchlorate inhibition of T4 synthesis is by inhibiting iodide uptake into the follicular cells.

24. TPO Inhibition: Alkylphenol Series
All alkylphenols tested exhibited no inhibition of TPO activity

25. Screening Chemicals for Higher Tier Testing
24 chemicals tested in vitro in TPO Inhibition Assay
Active
Inactive
7 Inhibit TPO In Vitro
17 Did Not Inhibit TPO
Model TPO Inhibitors
Alkylphenol series
Phthalates
Isothiazoline
Mixed Iodo Phenyl
OH-PCDE
Triazole
Triazines
Conazole
Thyroid Gland Explant Culture: T4 Release
Cytotoxic / Negative
Positive:
Inhibits T4 Release
Test In Vivo
Amphibian Metamorphosis Assay

26. TPO Assay Summary
The TPO assay can be used to rapidly screen chemicals for further
testing in the higher level thyroid toxicity assays, and can be used to
begin to develop predictive models incorporating structure activity
relationships between chemical structure and T4 synthesis inhibition
This suite of assays can be an effective tool to determine the capacity
of previously untested or unsuspected classes of chemicals to disrupt
normal thyroid hormone production

27. Adverse Outcomes Pathways for Thyroid Disruption
Subcellular
Target
Cells
Effected
Adverse
Outcome
Chemical
Tissue/Organ
Methimazole
TPO Enzyme
Inhibition
Thyroid
Follicular Cells
 T4 Synthesis
 Serum T4
Systemic T4
Insufficiency
Arrested
Amphibian
Metamorphosis
In Vitro - QSAR
Ex Vivo Gland/Tissue Culture
Toxicity Pathway
Amphibian Metamorphosis Assay
Adverse Outcomes Pathway

28. MED Thyroid Project Team
Post Docs
Kara Thoemke
Jasim Chowdhury
Robin Sternberg
Student Contractors
Hollie Kerr
Megan Bugge
Lisa Korte
Jessica Olson
Emily Burgess
Scott Moen
Mike Hornung
Sig Degitz
Joe Tietge
John Nichols
Jose Serrano
Joe Korte
Gary Holcombe
Pat Kosian
Dean Hammermeister
Jon Haselman
Brian Butterworth
Sherri Batterman