Decipher Mechanisms by which Nuclear Respiratory Factor One (NRF1) Coordinates Changes in the Transcriptional and Chromatin Landscape Affecting Development and Progression of Invasive Breast Cancer

Ramos, Jairo

07 November 2018

Despite tremendous progress in the understanding of breast cancer (BC), gaps remain in our knowledge of the molecular basis underlying the aggressiveness of BC and BC disparities. Nuclear respiratory factor 1 (NRF1) is a transcription factor (TF) known to control breast cancer cell cycle progression. DNA response elements bound by NRF1 positively correlate with the progression of malignant breast cancer. Mechanistic aspects by which NRF1 contributes to susceptibility to different breast tumor subtypes are still not fully understood. Therefore, the primary objective of this dissertation was to decipher mechanisms by which NRF1 coordinates changes in the transcriptional and chromatin landscape affecting development and progression of invasive breast cancer. Our hypothesis was that NRF1 reprogramming the transcription of tumor initiating gene(s) and tumor suppressor gene(s) contribute in the development and progression of invasive breast cancer. To test this hypothesis, we proposed three specific aims: (a) Decipher regulatory landscape of NRF1 networks in breast cancer. (b) Determine the role of NRF1 gene networks in different subtypes of breast cancer. (c) Determine differential NRF1 gene network sensitivity contributing to breast cancer disparities. Our approach to test these aims consisted of a systematic integration of ChIP DNA-seq, RNA-Seq, NRF1 protein-DNA motif binding, signal pathway analysis, and Bayesian machine learning. We uncovered a novel oncogenic role for NRF1. This discovery strongly supported the supposition that NRF1 overexpression is sufficient to derive breast tumorigenesis. We also observed new roles for NRF1 in the acquisition of breast tumor initiating cells, regulation of epithelial to mesenchymal transition (EMT), and invasiveness of BC stem cells. Furthermore, through the use of Bayesian network structure learning we found that the NRF1 motif was enriched in 14 associated with HER2 amplified breast cancer. Three genes—GSK3B, E2F3, and PIK3CA—were able to predict HER2 breast tumor status with 96% to100% confidence. The findings of this study also showed the roles of NRF1 sensitivity to development of lobular A, Her2+, and TNBC in different racial/ethnic groups of breast cancer patients. In summary, our study revealed for the first time the role of NRF1 in the pathogenesis of invasive BC and BC disparities.

Breast cancer

NRF1

Nuclear respiratory factor 1

Bayesian networks

signal pathway analysis.

Clinical Epidemiology

Medicine and Health Sciences

Public Health

Exposure to Estrogenic Endocrine Disrupting Chemicals and Brain Health

Preciados, Mark

11 May 2018

The overall objective of this dissertation was to examine exposures to the estrogenic endocrine disrupting chemicals (EEDCs), phthalates, bisphenol-A (BPA), and the metalloestrogens cadmium (Cd), arsenic (As), and manganese (Mn) in an older geriatric aged-population and examine associations with brain health. Given the evidence that EEDCs affect brain health and play a role in the development of cognitive dysfunction and neurodegenerative disease, and the constant environmental exposure through foods and everyday products has led this to becoming a great public health concern. Using a bioinformatic approach to find nuclear respiratory factor 1 (NRF1) gene targets involved in mitochondrial dysfunction, that are both estrogen and EEDC-sensitive, we found several genes involved in the gene pathways of Alzheimer’s disease (AD): APBB2, EIF2S1, ENO1, MAPT, and PAXIP1. Using the Center for Disease Control and Prevention (CDC), National Health and Nutrition Examination Survey (NHANES) 2011-2014 datasets to assess EEDC bioburden and associations with surrogate indicators of brain health, which include cognitive scores, memory questions, and taste and smell data, we found phthalate bioburden to be significantly higher in those with adverse brain health vii and significantly higher in females. In our logistic regression model when controlling for all known and suspected covariates in AD, in females, the phthalates in females ECP, MBP, MOH, MZP, and MIB in males and the phthalates COP, ECP, MBP, MC1, MEP, MHH, MOH, and MIB were significantly associated with poor cognitive test scores, poor memory, and taste and smell dysfunction. Among the metalloestrogens, Cd bioburden was higher in those with poor cognitive performance, poor memory, and taste and smell dysfunction, with the trend more significant in males. Among oral contraceptive (OC) and HRT (hormone replacement therapy) use, in our logistic regression model when controlling for all known and suspected covariates in AD, past OC and HRT use was associated with better cognitive test scores. The study provides further evidence of the complex role EEDCs play in overall brain health through other biological mechanisms and fills a gap in knowledge that demonstrates EEDCs effects on brain health in a geriatric age population.

Estrogenic Chemicals

Endocrine Disrupting Chemicals

Brain Health

Phthalates

BPA

PCB

Arsenic

Cadmium

Manganese

Neurodegenerative Disease

Neurodegeneration

NHANES

Alzheimer's Disease

Memory

Nuclear Respiratory Factor 1

Gene Networks

Bioinformatics

Biostatistics

Environmental Public Health

Epidemiology

Genetics

Molecular Genetics