Cancer is influenced by an individual's interaction with its physical and social environment, yet the underlying mechanisms are poorly defined. Epidemiological studies have revealed that social support is linked to improved health outcomes among cancer patients whereas social isolation predicts risk for mortality. Mechanistic studies in chronic stress models suggest that prolonged activation of the hypothalamic-pituitary-adrenal (HPA) axis and the sympathetic-adrenal medullary (SAM) axis may promote cancer progression. Our recent work has shown that environmental enrichment (EE), a housing environment boosting mental health, inhibits tumor growth by activating the hypothalamic- sympathoneural-adipocyte (HSA) axis. The stimulations provided in EE stimulate brain- derived neurotrophic factor (BDNF) expression in the hypothalamus leading to preferential sympathoneural activation of white fat. The elevated sympathetic drive activates adipocyte -adrenergic receptors inhibiting leptin expression and release, and thereby suppresses cancer growth. In contrast, social isolation (SI) is linked to increased tumor burden. However, both EE and SI increase the classical stress hormones, glucocorticoids and catecholamines, and -adrenergic blockers may abrogate their effects on cancer. This apparent paradox may in part lie in the lack of recognition of the difference between eustress (positive stress) and distress (negative stress) and their opposing health outcomes. The long-term goal of this project is to understand how the eustressful and distressful events trigger distinct molecular changes in the brain leading to an orchestrated differential activation of the three neuroendocrine axes: HPA, SAM and HSA, and subsequent opposite influences on cancer. Specifically we propose to use a multidisciplinary approach to provide a comprehensive and explicit comparison between the eustress model EE versus distress model SI on cancer progression, metabolism, and fat physiology. The analysis of the nature and magnitude of the 3 axes will help to elucidate the mechanisms underlying eustress-associated anticancer versus distress-associated pro- cancer phenotype. In addition we plan to profile the gene expression in the laser-capture microdissected hypothalamus nuclei to identify molecular mediators distinguishing eustress and distress. Furthermore we will investigate the role of hypothalamic BDNF in mediating SI impact on cancer. These studies may reveal novel therapeutic targets for cancer prevention and treatment.

Public Health Relevance

Cancer is influenced by physical and social environments with social support linked to improved health outcomes among cancer patients whereas social isolation predicts risk for mortality. The purpose of this project is to understand how the differet environmental events trigger distinct molecular changes in the brain leading to anti-cancer or pro-cancer effects, and to identify molecular mediators distinguishing eustress (positive stress) and distress (negative stress), which may reveal novel therapeutic targets for cancer prevention and treatment.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
4R01CA163640-04
Application #
9037607
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Green, Paige A
Project Start
2013-04-01
Project End
2018-03-31
Budget Start
2016-04-01
Budget End
2017-03-31
Support Year
4
Fiscal Year
2016
Total Cost
Indirect Cost
Name
Ohio State University
Department
Genetics
Type
Schools of Medicine
DUNS #
832127323
City
Columbus
State
OH
Country
United States
Zip Code
43210
McMurphy, Travis; Huang, Wei; Queen, Nicholas J et al. (2018) Implementation of environmental enrichment after middle age promotes healthy aging. Aging (Albany NY) 10:1698-1721
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Huang, Wei; Liu, Xianglan; Queen, Nicholas J et al. (2017) Targeting Visceral Fat by Intraperitoneal Delivery of Novel AAV Serotype Vector Restricting Off-Target Transduction in Liver. Mol Ther Methods Clin Dev 6:68-78
Siu, Jason J; Queen, Nicholas J; Liu, Xianglan et al. (2017) Molecular Therapy of Melanocortin-4-Receptor Obesity by an Autoregulatory BDNF Vector. Mol Ther Methods Clin Dev 7:83-95
McMurphy, Travis B; Huang, Wei; Xiao, Run et al. (2017) Hepatic Expression of Adenovirus 36 E4ORF1 Improves Glycemic Control and Promotes Glucose Metabolism Through AKT Activation. Diabetes 66:358-371
Zhang, Yanhui; Xie, Litao; Gunasekar, Susheel K et al. (2017) SWELL1 is a regulator of adipocyte size, insulin signalling and glucose homeostasis. Nat Cell Biol 19:504-517
Xie, Litao; Zhang, Yanhui; Gunasekar, Susheel K et al. (2017) Induction of adipose and hepatic SWELL1 expression is required for maintaining systemic insulin-sensitivity in obesity. Channels (Austin) 11:673-677
Ng, Raymond; Hussain, Nurul Attiqah; Zhang, Qiongyi et al. (2017) miRNA-32 Drives Brown Fat Thermogenesis and Trans-activates Subcutaneous White Fat Browning in Mice. Cell Rep 19:1229-1246
Siu, J J; Queen, N J; Huang, W et al. (2017) Improved gene delivery to adult mouse spinal cord through the use of engineered hybrid adeno-associated viral serotypes. Gene Ther 24:361-369
Foglesong, Grant D; Huang, Wei; Liu, Xianglan et al. (2016) Role of Hypothalamic VGF in Energy Balance and Metabolic Adaption to Environmental Enrichment in Mice. Endocrinology 157:983-96

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