Obesity and associated metabolic disease, including type II diabetes, is a public health crisis, the risks of which are elevated in military Veterans. Adipose tissue metabolism is dysregulated in obesity and is a central mediator of diabetes pathogenesis, but underlying mechanisms are not well-defined. The extracellular matrix (ECM) is an understudied component of adipose tissue, and our preliminary data demonstrate that that ECM regulates adipocyte metabolic dysfunction in the context of diabetes. These observations suggest adipose tissue ECM as a novel therapeutic target for diabetes. The scientific goals of this proposal are to define the role of the ECM in regulating adipocyte metabolism, and to develop novel in vitro engineered ECM-based adipose tissues as therapeutic vehicles to manipulate systemic insulin resistance. Our central hypothesis is that in diabetes, Advanced Glycation End-products (AGE)-modified adipose tissue ECM engages in crosstalk with adipocytes, with detrimental effects on tissue and systemic metabolism, contributing to disease pathogenesis. The rationale for this hypothesis is based on extensive literature linking alterations in adipose tissue ECM and metabolism to obesity and diabetes, and preliminary data confirming ECM regulation of adipocyte metabolism and implicating AGE and AGE-receptors in ECM-adipocyte crosstalk.
Aim 1 will define the role of AGE in regulating human adipose tissue AGE- receptor signaling balance in diabetes, and perform detailed proteomics analysis to define diabetes-specific alterations in the human adipose tissue ECM proteome.
Aim 2 will study the role of AGE and AGE receptors in regulating human adipose tissue metabolism in standard 2D culture and in sophisticated in vitro human 3D- ECM-adipocyte culture models.
Aim 3 will study the role of adipose tissue ECM in regulating systemic insulin resistance using an innovative murine ECM-adipocyte transplant model. This project is significant because it will define mechanisms of ECM-adipocyte crosstalk in diabetes, bridging an important knowledge gap and advancing an understanding of ECM control of adipose tissue and systemic metabolism. This project also studies transplant of engineered ECM-based adipose tissue in murine obesity, a novel treatment strategy for diabetes with significant translational potential. The PI of this project Robert O'Rourke, MD, is a VA clinician-scientist with extensive experience in adipose tissue biology and metabolic disease research. This proposal will establish a unique obesity-research program within the VA system.

Public Health Relevance

Obesity-associated type 2 diabetes is a public health crisis. Dysfunctional adipose (fat) plays a central role in diabetes development. Adipose tissue is composed not only of fat cells but tissues outside the cells that are referred to as extracellular matrix (ECM). We have shown that the ECM plays an important role in regulating fat cell function and that manipulation of the ECM may be a useful strategy to ?repair? dysfunctional fat cells as novel treatment for diabetes. This proposal studies the role of the ECM in regulating fat cell function and will identify strategies to alter ECM to repair adipose tissue dysfunction. Our approach includes study of human cells in the test tube-based experiments, and a mouse model of diabetes to determine if ECM-based adipose tissue engineered in the test tube can be used to treat diabetes. This proposal will generate important information regarding ECM-fat cell communication and generate novel ECM-based treatments for diabetes.

Agency
National Institute of Health (NIH)
Institute
Veterans Affairs (VA)
Type
Non-HHS Research Projects (I01)
Project #
1I01CX001811-01
Application #
9548027
Study Section
Endocriniology A (ENDA)
Project Start
2019-01-01
Project End
2022-12-31
Budget Start
2019-01-01
Budget End
2019-12-31
Support Year
1
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Veterans Health Administration
Department
Type
DUNS #
096318480
City
Ann Arbor
State
MI
Country
United States
Zip Code
48105