SCIENTIFIC ABSTRACT Accumulating evidence suggests that disruption of circadian rhythm by shift-work increases the risk of breast, prostate, and colon cancers, prompting the International Agency for Research on Cancer to classify shift-work as a probable human carcinogen. Identification and validation of mechanistically-based biomarkers is essential to the development of preventive strategies for individuals who may be at elevated risk of breast cancer due to shift-work. We've demonstrated that carcinogen N-Nitroso-N-methylurea (NMU) reduced intracellular circadian cycling and levels of NAD+/NADH and decreased SIRT1 activity, disrupting circadian expression of core circadian genes (CGs) (e.g., Per2) and circadian controlled genes (CCGs), including DNA damage response and repair (DDRR) genes. In contrast, chemopreventive methylselenocysteine (MSC) counteracted the inhibitory effects of NMU on NAD+/NADH and SIRT1 activity and restored the circadian expression of these genes during early stages of carcinogenesis, leading to 63% reduction of mammary tumor incidence in rats. Consistently, accumulating evidence indicates that modulation of NAD+/NADH levels by pharmacological inhibitors or by NAD+ precursors alter mammary tumor growth and metastasis in animals. We further revealed that jet-lag also disrupted the rhythmic expression of Per2 and DDRR, and accelerated mammary tumorigenesis and metastasis in rodents. Therefore, we posit that NAD+-dependent SIRT1 activity functions as a central integrator of cellular circadian responses to environmental stressors, and hence could serve as novel mechanistically-linked biomarkers of increased risk of breast cancer due to circadian disruption in shift workers. We also demonstrated that working night- vs day-shift significantly changed Per2 gene expression pattern in peripheral blood samples, as we observed in mammary glands of rodents. Therefore, we hypothesize that shift-work associated disruption of circadian rhythm reduces intracellular rhythms and levels of NAD+/NADH and SIRT1 activity, which may in turn increase the risk of breast cancer by inducing abnormal expression of CCGs, including most DDRR. To test our hypothesis, and to identify and validate novel mechanistic biomarkers of circadian disruption for use in future intervention trials in shift workers, we propose to determine intracellular rhythms and levels of the NAD+/NADH and SIRT1 activity in peripheral blood mononuclear cells (PBMCs) of both day-shift and night-shift workers over 24 hr. We also propose to validate NAD+/NADH and SIRT1 activity in PBMCs as biomarkers of disrupted circadian rhythm in night-shift workers under real-working conditions. These studies will provide baseline and circadian data on NAD+/NADH and SIRT1 activity in shift workers, and we will evaluate them as biomarkers of disrupted circadian rhythm that may increase the risk of breast cancer. These biomarkers can then be used in future studies to explore preventive strategies with dietary agents in women at elevated risk of breast cancer due to shift-work.

Public Health Relevance

The proposal will test the hypotheses that disruption of circadian rhythm associated with shift work increases the risk of breast cancer by inducing abnormal circadian cycling and reducing levels of intracellular redox power and survival enzyme activity. Our overall goal is to test this hypothesis and develop mechanistic biomarkers of disrupted circadian rhythm for future intervention study in individuals with aberrant circadian rhythm due to shift work.

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Exploratory/Developmental Grants (R21)
Project #
5R21ES026802-02
Application #
9437812
Study Section
Cancer, Heart, and Sleep Epidemiology A Study Section (CHSA)
Program Officer
Reinlib, Leslie J
Project Start
2017-03-01
Project End
2019-02-28
Budget Start
2018-03-01
Budget End
2019-02-28
Support Year
2
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Rbhs-School of Public Health
Department
Public Health & Prev Medicine
Type
Schools of Public Health
DUNS #
078795880
City
Piscataway
State
NJ
Country
United States
Zip Code
Fang, Mingzhu; Kang, Hwan-Goo; Park, Youngil et al. (2017) In Vitro Bioluminescence Assay to Characterize Circadian Rhythm in Mammary Epithelial Cells. J Vis Exp :
Fang, Mingzhu; Ohman Strickland, Pamela A; Kang, Hwan-Goo et al. (2017) Uncoupling genotoxic stress responses from circadian control increases susceptibility to mammary carcinogenesis. Oncotarget 8:32752-32768