USEPA scientist grapples with difficult grapples with difficult ... Gray Jr.pdf · •Reproductive...
Transcript of USEPA scientist grapples with difficult grapples with difficult ... Gray Jr.pdf · •Reproductive...
L Earl Gray Jr.This presentation does not necessarily reflect USEPA policy, but rather
represents the author’s current view on the state of the science
Reproductive Toxicology Branch, NHEERL, ORD, USEPA
USEPA scientist USEPA scientist grapples with difficult grapples with difficult environmental issuesenvironmental issues
Effects of mixtures of phthalates and other toxicants on sexual differentiation in rats: A risk assessment framework based upon disruption of common developing systems
AR AntagonistsAR Antagonists
Compete with natural Compete with natural hormones T and DHT for AR, hormones T and DHT for AR, prevent AR-DNA binding in prevent AR-DNA binding in vitro, inhibit AR-dependent vitro, inhibit AR-dependent gene expression in vivo, and gene expression in vivo, and may induce malformations in may induce malformations in male reproductive tract and male reproductive tract and delay puberty in male rat delay puberty in male rat
VinclozolinVinclozolinProcymidoneProcymidoneLinuronLinuronProchlorazProchlorazp,p' DDE and other p,p' DDE and other o,p'- and p,p' DDT o,p'- and p,p' DDT metabolitesmetabolites
Inhibitors of fetal Inhibitors of fetal androgen synthesisandrogen synthesis
Prevent the synthesis of Prevent the synthesis of natural hormones T and natural hormones T and DHT and can induce DHT and can induce malformations in male malformations in male reproductive tract and reproductive tract and delay puberty in male rat delay puberty in male rat
DEHPDEHPDPP, DCHPDPP, DCHPBBP, DBP, DiBPBBP, DBP, DiBPDiHP, DHP,DHePDiHP, DHP,DHePDINP DINP Linuron Linuron ProchlorazProchloraz
EstrogensEstrogens Methoxychlor Methoxychlor Ethinyl Estradiol Ethinyl Estradiol Bisphenol A Bisphenol A
Fetal Germ Cell ToxicantsFetal Germ Cell Toxicants Busulfan Busulfan Diazo dyes Diazo dyes
Steroidogenesis inhibitorsSteroidogenesis inhibitors Prochloraz Prochloraz Linuron Linuron Ketoconazole Ketoconazole Fenarimol Fenarimol
AndrogensAndrogens Testosterone Testosterone Trenbolone Trenbolone
Dioxins and PCBsDioxins and PCBs Dioxin Dioxin PCB 169 congener PCB 169 congener
Developmental Reproductive Toxicants
•In Utero exposure and measure Hormone dependent endpoints male rat offspring as adults
•Anogenital distance at birth•Nipple/ areolar numbers in infants•Reproductive Malformations
•Undescended testes•Gubernacular abnormalities•Epididymal agenesis•Ventral prostate agenesis•Seminal vesicle agenesis•Vas deferens agenesis•Nipples•Hypospadias•Vaginal pouch
•Reproductive Organ Weights•Glans penis•Ventral prostate•Seminal vesicle•Testes•Epididymides•Levator ani bulbocavernosus•Cowper’s glands
•Testis and epididymal histopathology
DEHP DR Gray et al 2009
0 50 100
150
200
250
300
40
60
80
100
Testis/EPI malfs NOT
Testis weightEpididymal weightSeminal vesicle weight
AGD 2% no NIPS 13
% no PhSynFetal t Production KLH
No Hypopadias
DEHP mg/kg/d
Perc
ent o
f con
trol
F1 male rat offspring: Reproductive endpoints sensitive to lower dosage levels of phthalates in utero.Critical “adverse effects”: % with Phthalate Syndrome and Fetal
androgen production.
TESTIS MALFS OR HISTOPATHOLOGY
10 100 10000
20
40
60
80
100DEHP NTPDBP WINEBBP NAGAOBBP TYLDIBP SAILLENFAIT
DnHexyl P SAILLENFAITBBP ASODEHP GRAYDBP MYL 1999
mg/kg/d PE
Perc
ent A
ffect
ed
Testis weights are reduced by PE in uterotreatments. Logistic regressin with shared slope
10 100 100040
60
80
100DEHP NTPDBP WINEBBP NAGAOBBP TYLDIBP SAILLENFAITDnHexyl P SAILLENFAITBBP ASODEHP GRAYDBP MYL 1999
mg/kg/d PE
Perc
ent o
f con
trol
Epididymal Weight Reduction
10 100 100040
60
80
100 DEHP NTPBBP NAGAOBBP TYLDIBP SAILLENFAITDnHexyl P SAILLENFAITBBP ASODEHP GRAYDBP MYL 1999
mg/kg/d PE
Perc
ent o
f Con
trol
Seminal Vesicle Weight Reduction
10 100 1000
60708090
100110 DEHP NTP
DBP WINEBBP NAGAOBBP TYLDIBP SAILLENFAITDnHexyl P SAILLENFAITBBP ASODEHP GRAYDBP MYL 1999
mg/kg/d PE
Perc
ent A
ffect
ed
PE Dose Response reproductive effects on F1 Male rat offspring indicate that DEHP, DBP, DiBP, BBP and Dihexylphthalate are equipotent. DPP is more potent and DINP is
less potent than this group of PEs
Testis/EPI malfs data pooled studies
0.01 0.1 1 10 100 1000100000
20
40
60
80
100
LogEC50HillSlope
EC50
2.6172.572414.0
mg/kg/d PE
Perc
ent A
ffect
ed
Adult male F1 epididymal weight datapooled from several rat studies
10 100 100040
60
80
100
BottomTop
LogEC50HillSlope
EC50
= 0.0= 100.02.984-1.805964.7
mg/kg/d PE
Perc
ent o
f con
trol
Adult male F1 rat testis weight datapooled from several rat studies
10 100 100040
60
80
100
BottomTop
LogEC50HillSlope
EC50
= 0.0= 100.02.971-2.438935.1
mg/kg/d PE
Perc
ent o
f con
trol
Adult male F1 seminal weight datapooled from several rat studies
10 100 100040
60
80
100
BottomTop
LogEC50HillSlope
EC50
= 0.0= 100.03.068-1.7401170
mg/kg/d PE
Fetal endocrine changes demonstrate the relative potency (RP) ofindividual PEs is consistent with their RP to induce reproductive tract
alterations seen in postnatal life. Thus, changes in fetal androgen levels can be used to “screen” phthalates for their potential to induce
malformations and possibly as a “critical effect” in individual and cumulative risk assessments.
Fetal Phthalate screen (FPS) Dose dam with PE at a single high dosage group Gestational exposure during critical period of sexual differentiation On Gestational Day 18 necropsy dam
Measure testis fetal testis Testosterone (T) production Testis gene expression
STAR Insl3 Cyp11a
For “Positives” Run dose response studies Use potency factors to execute mixture studies For “important” PEs with data gaps run a postnatal study
FPS Results to date FPS Results to date
Positives DINP – both CAS #s * Diheptyl phthalate Diisoheptyl phthalate Dihexyl phthalate Dibutyl phthalate * Diisobutyl phthalate * Benzylbutyl phthalate Dicyclohexyl phthalate Dipentyl phthalate *
Negatives Diethyl phthalate Dioctyl terephthalate Hexamoll DINCH Di-2-ethylhexyl
tetrabromo phthalate
Future studies DMP, Diproply P,
DIDP, DPHP, others
* FPS DOSE RESPONSE STUDIES ONGOING
PE IN UTERO EFFECTS ONFETAL AND POSTNATAL MALE RATS
10 100 10000
20406080
100120
T Production
STAR mRNAInsl3 mRNACYP11a
Extracted Testis T
NORMAL EPI
Endpoint ED50
T Prod 231Extracted Testis T 275STAR mRNA 280insl3 mRNA 372CYP 11a 431Epididymal agenesis 567
Perc
ent o
f con
trol
Fetal T production is more sensitive to Phthlate ester (PE) disruption than are testis genes of postnatal effects (epididymal
malformations) and T prod is less variable resulting in lower NOELs and BMDs. Below is a generic example.
In utero mixture studiesSummary
Similar cellular and molecular mechanisms of action Binary mixtures – pairs of chemicals Mixture of 5 phthalates
Diverse cellular and molecular mechanisms of action Binary mixtures – pairs of chemicals Mixture of 7 chemicals including pesticides and phthalates Mixture of 10 chemicals
Initial Step in a Cumulative Risk Assessment as outlined by the USEPA
and other regulator agencies.
Identification of a group of chemicals to be included in a
Common Mechanism Group chemicals that induce a common toxic effect by a common mechanism
of toxicity.
Key Question: Should chemicals that disrupt differentiation of the same that disrupt differentiation of the same reproductive tissue but by different molecular mechanisms of reproductive tissue but by different molecular mechanisms of
action in different tissues action in different tissues be included in a Common Mechanism Group?
The default answer has been:
NO because such a mixture would not be expected to produce adverse
effects if each chemical is administered below the NOAELResponse addition (RA)
0 + 0……+ 0 = No Adverse Effects
However if this assumption is incorrect Dose addition (DA)
0 + 0 +…….+ 0 = 100% Malformations
Objectives of our researchObjectives of our research Determine how chemicals with similar and
dissimilar mechanisms of toxicity interact during sexual differentiation
To provide a framework for deciding what chemicals to include in a cumulative risk assessment
Working Hypothesis:
Chemicals that disrupt the development of a Chemicals that disrupt the development of a common reproductive tissue/system during sexual common reproductive tissue/system during sexual differentiation will produce dose additive responses, differentiation will produce dose additive responses, regardless of the molecular mechanism or the regardless of the molecular mechanism or the signaling pathway that is disrupted signaling pathway that is disrupted
Cumulative effects:
Common mechanisms of toxicity
•Vinclozolin and Procymidone•We now know that – both fungicides
•Bind AR and antagonize androgen action in vitro
•Inhibit androgen-stimulated tissue growth in vivo
•Induce a common phenotype of male rat reproductive tract malformations
•Alter the same array of genes in the reproductive tract
AR antagonist mixture study
0 0 0
54.2
0
10.3
0
95.8
Control Vinclozolin Procymidone Combination0
10
20
30
40
50
60
70
80
90
100P
erce
nt o
f mal
es a
affe
cted
HypospadiasVaginal Pouch
Hypospadias: 10+0=96%Vaginal Pouch: 0+0=54%
DBP plus BBP mixture study. Phthalates with a common
metabolite
0 0
7.7
100
0
9
23
100
0 0 0
50
Control BBP DBP Combination0
20
40
60
80
100
Per
cent
of m
ales
aaf
fect
ed
HypospadiasEpididymal AgenesisGubernacular agenesis
DBP plus DEHP mixture studyphthalates with no common
metabolite (Howdeshell et al 2007)
03
27
75
0
26
4.7
65
0 3 0
25
Control DEHP DBP Combination0
102030405060708090
100
Per
cent
of m
ales
aaf
fect
ed
HypospadiasEpididymal AgenesisGubernacular agenesis
Cumulative effects of PhthalatesA Common Mechanism of Toxicity: Altered fetal Leydig
cell differentiation and reduced hormone synthesis
Hypospadias: 0+0=50%Epididymal agenesis: 9+23=100%
Hypospadias: 3+0=25%Epididymal agenesis: 26+5=65%
Common mechanism of ToxicityEffects of a mixture of five phthalates on fetal
testosterone production in the rat(Howdeshell et al, 2008)
Individual studies DBP, DiBP, BBP, DEHP, DPP administered at
several dosage levels on GD 8-18. Fetal testis collected on GD 18 and fetal T production measured.
Mixture study Five phthalates were administered as a mixture
and fetal T production measured on GD 18. Mixture ratio designed so that each phthalate
would contribute equally to reduction in fetal T production if the mixture behaved in a dose-additive manner.
Comparison of the contribution of eachof the five individual phthalates with theobserved effect of the mixture and the
effect predicted from dose additionmodeling
0 20 40 60 80 1000
20
40
60
80
100
Mixture of 5 Phthalates:Observed T reductionMixture of 5 phthalates: Dose Addition Prediction
Percent of Top dose
Test
oste
rone
(% c
ontro
l)
Top dose=300 mg/kg/d four PEs except DPP at 100 mg/kg/d
100 10000
20
40
60
80
100 ObservedDARA
Total phthalate dose (mg/kg/d)
% in
cide
nce
ofep
idid
ymal
mal
form
atio
ns100 1000
0
20
40
60
80
100ObservedDARA
Total phthalate dose (mg/kg/d)
% in
cide
nce
ofSV
age
nesi
s
Uterine and vaginal
agenesis
Shown here –uterus
unicornis with agenesis of the lower vaginal
canal and vaginal opening
Unexpected high incidence of reproductive tract malformations in female rat offspring in
the 5 phthalate mixture study
Cumulative effects:
Diverse mechanisms of toxicity that
disrupt the same signaling pathway
Disruption of the Androgen signaling
pathway in fetal tissues
Binary mixtures studies with chemicals that act via different mechanisms
The chemical pairs include: 1) a phthalate ester plus a herbicide that has dual
modes of action (linuron - 75 mg/kg/d and BBP 500 mg/kg/d)(Hotchkiss et al. 2004).
2) a phthalate ester plus an AR antagonist (DBP 500 mg/kg/d and procymidone 50 mg/kg/d) Two studies
SD rats were dosed on GD 14-18 with chemicals singly or in pairs at dosage levels equivalent to about one half of the effective dose which causes a 50% incidence (ED50) of hypospadias and/or epididymal agenesis.
Binary mixture studies with a phthalate plus a pesticide
Linuron plus BBP mixture study. A pesticide that is an AR antagonist and inhibits
testosterone synthesis plus a phthalate (Hotchkiss et al. 2004)
0
12
63
97
0 0 0
40
0 0 0
56
Control BBP Linuron Combination0
20
40
60
80
100
Per
cent
of m
ales
aaf
fect
ed
HypospadiasVaginal PouchEpididymal Agenesis
AR Antagonist plus Phthalate mixture study (Hotchkiss et al, 2010)
0 0
24.1
28.9
0 0 0
26.7
01.5
0
48.8
Control Procymidone DBP Combination0
10
20
30
40
50
60
Per
cent
of m
ales
aaf
fect
ed
HypospadiasVaginal Pouch
EpididymalAgenesis
Hypospadias: 0+0=56% Hypospadias: 1.5+0=49%
Disrupting the AR Pathway by Multiple mechanisms of toxicity.
IN UTERO EXPOSURE TO THE FUNGICIDE PROCYMIDONE AND DIBUTYL PHTHALATE
Hotchkiss et al, Reproductive Toxicology 2010.
Timed-pregnant Sprague-Dawley dams (n=4-10/dosage group) were gavaged daily from gestational day 14-18 with a mixture at 100, 83, 67, 50, 33, 17, 8, 4, or 0% of the top dose.
The top dose of the mixture contained PRO at 150 mg/kg/d and DBP at 1125 mg/kg/d and was expected to induce 100% incidence of malformations.
IN UTERO EXPOSURE TO THE FUNGICIDE PROCYMIDONE AND DIBUTYL PHTHALATE PRODUCE DOSE-ADDITIVE
DISRUPTIONS OF MALE RAT SEXUAL DIFFERENTIATION
In addition, we observed a dose-related increase in testicular tumors with the mixture.
Similar tumors have been seen with DBP at a lower incidence but not with procymidone
0 20 40 60 80 1000
20406080
100120
OBSERVEDDARA
Hypospadias
% of top dose of the mixture
Perc
ent
“MegaMix1” Study: 7 antiandrogensRider et al. 2008. Int J Androl
Pregnant rats were dosed from GD 14-18 and male offspring were examined assessed for effects through adult life.
The “high dose” group, termed the ED100, included the 7 chemicals, each at 1/7th their ED100 for malformations vinclozolin 15 mg/kg/d, procymidone 15 mg/kg/d,
prochloraz 35 mg/kg/d, linuron 20 mg/kg/d, and BBP, DBP and DEHP at 150 mg/kg/d per phthalate
Doses: ED100 and 75%, 50% and 25% of the ED100
Percent of Top Dose of the Mixture
Values are no. affected/total no. Not litter means by Cynthia
Hypospadias
0 25 50 75 100
0102030405060708090
100ObservedDA
RAIA
Perc
ent A
ffect
edEpididymal Agenesis
0 25 50 75 100
01020304050607080 Observed
DA
RAIA
Perc
ent A
ffect
ed
Undescended Testes
0 25 50 75 100
01020304050607080 Observed
DA
RAIA
Perc
ent A
ffect
ed
Seminal vesicle weight0 25 50 75 100
010203040506070 Observed
DA
RAIA
Perc
ent R
educ
ed
Disrupting the AR Pathway by Multiple mechanisms of toxicity.
Ten chemical mixture study. Rider et al 2010
Ten “antiandrogenic” chemicals were administered orally to pregnant rats on gestational days 14-18 and the reproductive development of the male offspring was evaluated.
Data were analyzed to determine if the chemicals behaved in a response-, integrated or dose-additive fashion.
“MegaMix 2” Study: 10 antiandrogens
The “high dose” group, termed the ED100, included vinclozolin (30 mg/kg/d) procymidone (30) prochloraz (60) linuron (40) Six phthalates: DPP (50) and BBP, DBP, DiBP, DiHP and
DEHP (150 per phthalate)
Doses: 100%, 80, 60,40, 20, 10 and 0% of the top dose
Hypospadias Obs vs predicted
10 1000
20
40
60
80
100DA
RAIA
OBS
Percent of Top Dose
Perc
ent A
ffect
ed
Epididymal Agenesis
10 1000
20
40
60
80
100 OBSDARAIA
Percent of Top Dose
Perc
ent A
ffect
ed
Undescended testes
10 1000
20
40
60
80
100 OBSDARAIA
Percent of Top dose
Perc
ent a
ffect
ed
Malformations in F1 male rats: Megamix 2
Ten chemical mixture studyTen chemical mixture studySeminal vesicle wt obs vs predicted
10 1000
25
50
75
100 OBSDAIARA
Percent of Top dose
Perc
ent o
f Con
trol
Epididymal WT obs vs predictions
10 1000
25
50
75
100 OBSDAIARA
Percent of Top Dose
Perc
ent o
f Con
trol
Ventral Prostate weight
1 10 1000
20406080
100 OBSDAIARA
Percent of Top dose
Perc
ent o
f Con
trol
LABC wt obs vs predicted
10 1000
25
50
75
100 OBSDAIARA
Percent of Top Dose
Perc
ent o
f Con
trol
Organ weights from F1 male rats: Megamix 2 data
Summary of results on the AR Pathway Dose Addition is the most logical model for the dataDose Addition is the most logical model for the data Response addition does not explain the results DA is consistent with the biology of hormone action Phthalates, vinclozolin, procymidone, linuron and
prochloraz all act on the fetal tissues by disrupting a “Common Pathway”
What the tissues “see” is a reduction in AR bound to an androgen so in both cases androgen-dependent gene expression is attenuated AR antagonists do this by preventing T from binding AR AR antagonists do this by preventing T from binding AR T synthesis inhibitors do this by reducing T levelsT synthesis inhibitors do this by reducing T levels The disrupted developing tissue does not distinguish
among these two events.
Disrupting Multiple Pathways in common tissues:
Altered sexual differentiation throughdisruption of AhR and AR signaling pathways
Dibutyl phthalate (DBP) disrupts male development by decreasing testosterone production by the testes and decreasing expression of insl3 (a protein involved in testiculardescent).
2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) disrupts male reproductive tract development through an unknown mechanism of action that apparently does not involve the androgen signaling pathway.
Disrupting Multiple Pathways in common tissues:
Altered sexual differentiation throughdisruption of AhR and AR signaling pathways
Dibutyl phthalate (DBP) disrupts male development by decreasing testosterone production by the testes and decreasing expression of insl3 (a protein involved in testiculardescent).
2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) disrupts male reproductive tract development through an unknown mechanism of action that apparently does not involve the androgen signaling pathway.
DBP+TCDD malformations and organ weight reductions that exceeded Response Addition
predictions
Rider et al 2010
Control
DBPTCDD
Mix low
Mix high
0
20
40
60
80
RA
Epididymal and Testicular Malformations
% M
alfo
rmed
Control
DBPTCDD
Mix low
Mix high
500
750
1000
1250
1500
RA
Epididymal Weight
Wei
ght (
mg)
Control
DBPTCDD
Mix low
Mix high
0
20
40
60
RA
Agenesis of the Vas deferens
% M
alfo
rmed
Control
DBPTCDD
Mix low
Mix high
0
50
100
150
200
RA
Epididymal Sperm Numbers
Sper
m c
ount
(milli
ons)
Control
DBPTCDD
Mix low
Mix high
2.0
2.5
3.0
3.5
4.0
RA
Paired Testis Weight
Wei
ght (
mg)
Malformed External genitalia
ControlTCDD 2
DBP 500
TCDD 1.3 DBP 320
TCDD 2 DBP 50005
10152025303540
RA% M
alfo
rmed
Cumulative risk assessment using a Framework based upon Disruption of a Common System/developing tissue
•Cumulative Risk assessments would be conducted on all the chemicals that disrupted common reproductive tissues
•Differentiation of androgen-dependent tissues depends upon critical interactions of dynamic interconnnected pathways.
•All the chemicals that affect the same tissue would be considered in a single cumulative risk assessment and the effects of a mixture would be predicted using the relative potencies on a tissue-by-tissue basis.
The “Team”Dr. L. Earl Gray Jr. USEPADr. Vickie Wilson. USEPADr. Phillip Hartig. USEPAJohnathan Furr. USEPADr. Andrew Hotchkiss USEPAChristy Lambright USEPAMary Cardon USEPA
Dr. Cynthia Rider Duke University
Dr. Jerry LeBlanc North Carolina State University
Dr Paul Foster NIEHSDr. Chad Blystone NIEHSDr. Kembra Howdeshell NIEHS
Supported in part by an NTP, NIEHS/EPA Interagency Cooperative Research Agreement
HHS Y1-ES-8014-01; EPA RW75922855-01-0.
“AGD is forever”