The observation that potentially competing populations of tumor infiltrating myeloid and lymphocytic cells in undifferentiated pleomorphic sarcomas (UPS) and the balance between these cellular populations may belie treatment response to radiation therapy (RT) provides a clinical diagnostic and treatment dilemma. However this is also an opportunity to utilize multi-modal quantitative measures on the cell and tissue levels in order to construct computational models that characterize the functional metabolic states of the tumor microenvironments and potential therapeutic targeting strategies by modulating the myeloid vs lymphocytic cell populations. Dr. Neema Jamshidi hypothesizes that RT affects the metabolic state of myeloid tumor infiltrating cells, infiltrating T cells, as well as tumors and that hierarchical measurements (cellular omics with quantitative mpMRI) provide a means to classify different RT treatment responsive tumors across multiple spatial scales. This hypothesis will be addressed through the use of a systems approach for metabolic characterization of the multi-cellular interactions in the sarcoma microenvironment using multi-parametric magnetic resonance imaging (mpMRI) in conjunction with tissue-cleared imaging and multi-omics characterization of cells in order to construct spatially hierarchical models of metabolism building upon the constraint-based integrative modeling framework. A systematic approach will be employed that will 1) characterize different cellular populations in the tumor microenvironment (tumor-stromal cells, infiltrating myeloid cells, and infiltrating lymphocytes) through cell cytometry, targeted metabolomics through mass spectrometry, and transcriptomics RNA exome sequencing, as well as 2) provide tissue level characterization of UPS microenvironments through light sheet microscopy and multi-parametric magnetic resonance (spectroscopy, diffusion, and perfusion) imaging. In developing Dr. Neema Jamshidi's career path as a physician-scientist-engineering, this KL2 supplement application aligns well with his motivation to develop a research program that characterizes biological systems at multiple spatial hierarchies, 1) in order to select cases in which altered cellular phenotypes are manifested as organ level and systemic pathophysiological processes that can subsequently be used to 2) explore different strategies for manipulation of these phenotypes through targeted, precision therapies. The crux of the approach is to us quantitative measurements at multiple spatial scales (cross-sectional imaging at the tissue/organ level and high-throughput profiling at the cellular level) to construct predictive, data-driven models of biological processes. In the coming years he intends to pursue a systematic understanding of cell-cell interactions in oncologic diseases through integration of multi-omic profiling studies with clinical functional and cross sectional imaging studies (integrative radiogenomic/imaging genomic studies with constraint-based modeling) for Hierarchical Data-Driven Modeling of tumor microenvironments.

Public Health Relevance

Undifferentiated pleomorphic sarcoma (UPS), are tumors that do not all respond to radiation treatment as expected and this variation is likely attributable at least in part due to differences in the populations of immune cells that infiltrate the tumors. In order to understand why some of these tumors respond to radiation and others don't we will isolate the different cell populations within each tumor in order to understand how the different populations of cells interact, how they different metabolically, and how they might be targeted to respond to new drug therapies. To this end we will carry out multiple quantitative measurements of the molecules and proteins in the cells and tissues of the tumors and construct quantitative models of how these different cellular populations are interacting.

Agency
National Institute of Health (NIH)
Institute
National Center for Advancing Translational Sciences (NCATS)
Type
Mentored Career Development Award (KL2)
Project #
3KL2TR001882-04S2
Application #
9836583
Study Section
Special Emphasis Panel (ZTR1)
Program Officer
Chang, Soju
Project Start
2016-07-01
Project End
2021-05-31
Budget Start
2019-07-16
Budget End
2020-05-31
Support Year
4
Fiscal Year
2019
Total Cost
Indirect Cost
Name
University of California Los Angeles
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
092530369
City
Los Angeles
State
CA
Country
United States
Zip Code
90095
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