Bladder cancer is a common and deadly disease and over 15,000 people will die of this disease in the US this year. Invasive bladder cancers, which account for 25% of newly-diagnosed bladder cancers, commonly recur as lethal metastatic disease for which few effective treatments exist. Invasive bladder cancers can be molecularly classified as either luminal or the more aggressive basal subtypes which have high expression of TP63 and share molecular features with other basal/squamous tumors. We have identified an oncogene, Ataxia-Telangiectasia Group D Complementing gene (ATDC, also known as TRIM29), which is commonly expressed in human bladder cancers and drives initiation and invasive progression of bladder tumors in transgenic mice. ATDC is known to bind p53, modulate DNA damage responses, up-regulates ?-catenin signaling, promotes silencing of PTEN and acts as a switch triggering tumor invasion. While ATDC is an important oncogenic driver in human bladder cancers, it is not commonly mutated or amplified and the mechanism(s) regulating its expression are unknown. We find that ATDC expression marks human invasive bladder cancers which display a basal phenotype and that the basal marker, TP63, which is also known to promote invasion, appears to regulate expression of ATDC. We therefore hypothesize that TP63 induces a basal gene expression program in bladder cancer (and likely other tumors as well), requiring upregulation of ATDC which promotes tumorigenesis and invasive progression. To better characterize the role of TP63 and ATDC in invasive basal bladder cancer, we propose the following studies:
SPECIFIC AIM 1 : To characterize the mechanism(s) of TP63 regulation of ATDC in vitro.
SPECIFIC AIM 2 : To examine the role of TP63 and ATDC in invasive progression.
SPECIFIC AIM 3 : To characterize the contribution of ATDC to development of basal bladder cancers in vivo. Compared to other malignancies, bladder cancer is less studied resulting in a limited understanding of the driving biology and no targeted therapeutic approaches. As a medical oncologist with a clinical and research focus on patients with bladder cancer, I believe the studies proposed here are significant because understanding ATDC and TP63?s oncogenic activity in bladder cancer may lead to improved therapeutic approaches and new prognostic biomarkers for my patients. This work is innovative because we will utilize novel transgenic model systems, human samples, 3D culture systems, and next generation sequencing technology (Bru-seq, ChIP-seq) to uncover the tumor promoting events driven by ATDC and TP63 in bladder cancer. This proposal will also support my career development as a basic/translational research with specific focus on bladder cancer, an area of unmet clinical need.

Public Health Relevance

Bladder cancer is the 6th most common malignancy in the United States. Invasive tumors are aggressive and 50% will recur as metastatic disease. Metastatic bladder cancer is uniformly fatal resulting in over 15,000 deaths per year in the United States. Compared to most malignancies very few new therapies for metastatic bladder cancer have been developed. This is due to incomplete knowledge about the biology driving the disease. This project will utilize human bladder cancer cell lines and tissues, transgenic mouse models, novel organoid invasion assays and RNA sequencing technology to uncover how ATDC and TP63 contribute to bladder cancer growth and progression and potentially identify new biomarkers and therapeutic targets.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Clinical Investigator Award (CIA) (K08)
Project #
1K08CA201335-01A1
Application #
9178727
Study Section
Subcommittee J - Career Development (NCI-J)
Program Officer
Lim, Susan E
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
$174,960
Indirect Cost
$12,960
Name
University of Michigan Ann Arbor
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
073133571
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Wang, Yin; Day, Mark L; Simeone, Diane M et al. (2018) 3-D Cell Culture System for Studying Invasion and Evaluating Therapeutics in Bladder Cancer. J Vis Exp :
Tamura, Shuzo; Wang, Yin; Veeneman, Brendan et al. (2018) Molecular Correlates of In Vitro Responses to Dacomitinib and Afatinib in Bladder Cancer. Bladder Cancer 4:77-90