Increasing numbers of children are being diagnosed with autism spectrum disorders (ASD and related neurobehavioral disorders. Based on the rising incidence that is not explained by genetics alone, it has been postulated that in utero exposure to environmental chemicals may increase the risk for these disorders. Perinatal exposure of children through the mother to endocrine disrupting chemicals (EDCs), including bisphenol A (BPA), has been linked to ASD. To establish potential causation and underlying mechanisms, it is important to test these chemicals in a relevant animal model species, where the clinical core behavioral symptoms exhibited by ASD children can be replicated. Most ASD animal model studies to date have employed transgenic mice. However, these animals often fail to replicate all of the core ASD-like behaviors. The monogamous, biparental, and highly communicative California mouse (Peromyscus californicus) provides a complementary animal model for ASD research. We have previously demonstrated that neurobehavioral programming in California mice is especially vulnerable to BPA. Developmentally exposed males demonstrate compromised socio-sexual behaviors, and their female siblings exhibit heightened anxiety, reminiscent of children with ASD. Both males and females developmentally exposed to BPA go on to become poor parents as adults. We will test the hypothesis that early exposure to BPA and genistein (G), a phytoestrogen present in soy products- including baby formulas, results in ASD-like behavioral disorders in California mice. The first goal will be to ascertain whether early exposure to BPA, G, and the combination of the two EDCs results in behavioral deficits observed in ASD patients. The second goal will be to determine whether males and females exposed to these chemicals show gene expression/DNA methylation/miRNA (miR) changes in the brain sub- regions (amygdala, hypothalamus and hippocampus) governing these traits that may underlie the disrupted behavioral phenotypes.
Specific Aims are to: 1) Test whether developmental exposure of male and female F1 California mice to BPA, G, and BPA + G affects behavioral domains disrupted in ASD children, such as social-sexual-communicative, cognitive, anxiety/neuro-affective, and repetitive behaviors. 2) Test whether these individual and combined EDCs affect global transcriptomic profiles in the amygdala, hippocampus and hypothalamus in F1 males and females that may underpin the EDC-induced behavioral disruptions. 3) Determine whether these treatments induce DNA methylation and miR changes in the amygdala, hippocampus and hypothalamus in both F1 sexes and perform a comprehensive correlation analysis to link the various bio-molecular and behavioral disturbances. Data will likely provide novel candidate biomarkers that can be used to diagnose and in potential preventative/remediation strategies in children at-risk for ASD due to early exposure to these EDCs.

Public Health Relevance

It is increasingly apparent that environmental factors can have dramatic consequences on offspring development, including potentially increasing in the risk for autism spectrum disorders (ASD) and other neurobehavioral diseases. Such factors can alter the turning on and off of select genes, otherwise termed epigenetic changes, which govern key neurobehavioral processes. This project will determine which behaviors are susceptible to epigenetics effects of environmental factors bisphenol A (an endocrine disrupting chemical that is present in a wide variety of commonly used items) and genistein (a plant estrogen present in soy-based formulas), and whether such effects are linked to behavioral disruptions that resemble those exhibited by ASD patients.

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Research Project (R01)
Project #
1R01ES025547-01A1
Application #
9132587
Study Section
Special Emphasis Panel (ZRG1-DKUS-C (50)R)
Program Officer
Lawler, Cindy P
Project Start
2016-09-01
Project End
2021-08-31
Budget Start
2016-09-01
Budget End
2017-08-31
Support Year
1
Fiscal Year
2016
Total Cost
$375,874
Indirect Cost
$124,504
Name
University of Missouri-Columbia
Department
Veterinary Sciences
Type
Schools of Veterinary Medicine
DUNS #
153890272
City
Columbia
State
MO
Country
United States
Zip Code
65211
Rosenfeld, Cheryl S; Cooke, Paul S (2018) Endocrine disruption through membrane estrogen receptors and novel pathways leading to rapid toxicological and epigenetic effects. J Steroid Biochem Mol Biol :
Shay, Dusti A; Vieira-Potter, Victoria J; Rosenfeld, Cheryl S (2018) Sexually Dimorphic Effects of Aromatase on Neurobehavioral Responses. Front Mol Neurosci 11:374
Johnson, Sarah A; Farrington, Michelle J; Murphy, Claire R et al. (2018) Multigenerational effects of bisphenol A or ethinyl estradiol exposure on F2 California mice (Peromyscus californicus) pup vocalizations. PLoS One 13:e0199107
Cheong, Ana; Johnson, Sarah A; Howald, Emily C et al. (2018) Gene expression and DNA methylation changes in the hypothalamus and hippocampus of adult rats developmentally exposed to bisphenol A or ethinyl estradiol: a CLARITY-BPA consortium study. Epigenetics 13:704-720
Johnson, Sarah A; Ellersieck, Mark R; Rosenfeld, Cheryl S (2018) Hypothalamic gene expression changes in F1 California mice (Peromyscus californicus) parents developmentally exposed to bisphenol A or ethinyl estradiol. Heliyon 4:e00672
Wright, E C; Johnson, S A; Hao, R et al. (2017) Exposure to extrinsic stressors, social defeat or bisphenol A, eliminates sex differences in DNA methyltransferase expression in the amygdala. J Neuroendocrinol 29:
Rosenfeld, Cheryl S (2017) Gut Dysbiosis in Animals Due to Environmental Chemical Exposures. Front Cell Infect Microbiol 7:396
Johnson, Sarah A; Spollen, William G; Manshack, Lindsey K et al. (2017) Hypothalamic transcriptomic alterations in male and female California mice (Peromyscus californicus) developmentally exposed to bisphenol A or ethinyl estradiol. Physiol Rep 5:
Rosenfeld, Cheryl S (2017) Brain Sexual Differentiation and Requirement of SRY: Why or Why Not? Front Neurosci 11:632
Rosenfeld, Cheryl S (2017) Neuroendocrine disruption in animal models due to exposure to bisphenol A analogues. Front Neuroendocrinol 47:123-133

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