It is estimated that cancer prevention efforts have the potential to reduce cancer incidence and cancer- related mortality by over 50% and 30% percent, respectively. Although many avoidable exposures are etiologically related to cancer, effective interventions have proven difficult to implement globally. Screening continues to be based primarily on clinical examination followed by histologic assessment of biopsies, perhaps followed by removal of preneoplastic lesions when they exist. However, unlike for advanced disease, effective molecularly driven interventions and risk assessment are not available for clinically normal tissues that may be have been exposed to carcinogens or for preneoplastic lesions. This is because we have not identified the key genomic drivers of progression from normal tissue to preneoplastic lesion to invasive cancer. The long-term goal of this project is use knowledge of key genomic changes that drive early cancer progression to identify and validate novel molecular targets for chemoprevention and risk assessment so that cancer incidences may be decreased. Squamous cell carcinomas (SCC) arising in various organ sites cause over 900,000 deaths worldwide annually. Because stratified squamous epithelia form environmental barriers in the airways, gastrointestinal / genitourinary tracts, and skin, the majority are drivenby carcinogenic exposures such as tobacco and solar radiation. Importantly, previous results and our own data show that SCCs from diverse sites share deep molecular commonalities including alterations in global gene expression and in TP53, TP63, NOTCH, and SOX2 signaling. Cutaneous squamous cell carcinoma (cuSCC) has the most accessible and clinically well-characterized progression sequence of any human cancer, from a distinct precancerous lesion, the actinic keratosis (AK), to invasive carcinoma. Therefore, it is an ideal model for establishing a paradigm of molecularly targeted cancer chemoprevention for SCC. Our central hypothesis is that specific microRNA-mRNA functional pairs and mutational events are key properties of clinically normal, but carcinogen (UV, tobacco) -exposed tissue, and that these are effective chemoprevention targets because they are early drivers of cuSCC development. To test this hypothesis, we have used next generation sequencing to bear on a clinic-pathologically well-defined development sequence that is both accessible and common. Our proposal contains significant innovation in its use of (1) matched isogenic normal skin, AK, and cuSCC from patients to minimize inter-individual variability, (2) a well- characterized UV-driven cuSCC mouse model for comparative and functional analysis, (3) cross-species genomic analysis, and (4) a novel surfactant-based non-invasive skin sampling technology to measure RNA expression and DNA mutations in-vivo. Our team includes expertise in dermatology, dermatopathology, chemical engineering, mouse cancer models, miRNA biology, and bioinformatics.

Public Health Relevance

Squamous cell carcinomas kill over 900,000 people worldwide annually for which there are only ineffective therapies, though it is estimated that cancer prevention efforts have the potential to reduce cancer incidence and cancer-related mortality by over 50% and 30% percent, respectively. Cutaneous squamous cell carcinoma (cuSCC), the 2nd most common skin cancer, has a well-ordered sequence of development beginning with chronically sun-exposed skin, progressing to the most common precancerous lesion in humans, the actinic keratosis (AK), and then ultimately to invasive cancer. Our studies will demonstrate that specific microRNAs and specific DNA mutations are the properties of cells in a preneoplastic field that will serve as the basis for both risk prediction and chemoprevention of SCC.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA194617-04
Application #
9249000
Study Section
Special Emphasis Panel (ZCA1-TCRB-U (J1))
Program Officer
Umar, Asad
Project Start
2016-09-01
Project End
2019-03-31
Budget Start
2017-04-01
Budget End
2018-03-31
Support Year
4
Fiscal Year
2017
Total Cost
$371,346
Indirect Cost
$97,113
Name
H. Lee Moffitt Cancer Center & Research Institute
Department
Type
Research Institutes
DUNS #
139301956
City
Tampa
State
FL
Country
United States
Zip Code
33612
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Ku, Amy T; Shaver, Timothy M; Rao, Ajay S et al. (2017) TCF7L1 promotes skin tumorigenesis independently of ?-catenin through induction of LCN2. Elife 6:
Chitsazzadeh, Vida; Coarfa, Cristian; Drummond, Jennifer A et al. (2016) Cross-species identification of genomic drivers of squamous cell carcinoma development across preneoplastic intermediates. Nat Commun 7:12601
Adelmann, Charles H; Truong, Kimberly A; Liang, Roger J et al. (2016) MEK Is a Therapeutic and Chemopreventative Target in Squamous Cell Carcinoma. J Invest Dermatol 136:1920-1924