The goals of this research study are to: 1) understand why some people with obesity are protected from developing conditions such as type 2 diabetes and cardiovascular disease while others are more likely to develop obesity-related conditions; 2) assess the effect of small extracellular vesicles (sEVs also called exosomes), obtained from human participants, on metabolic function in cultured cells and in mice.
Insulin resistance is commonly associated with obesity and is a major contributor to the development of obesity-related metabolic diseases, including nonalcoholic fatty liver disease, the metabolic syndrome, and type 2 diabetes (T2D). Most persons with obesity are "metabolically unhealthy" (MUO), often defined by having insulin resistance and the metabolic syndrome. However, a subset of people with obesity are metabolically healthy (MHO) and protected from the adverse metabolic effects of excess adiposity. The mechanisms that determine the differences in metabolic health between people with MUO and MHO are not unclear. This project will examine the effects of plasma and adipose tissue small extracellular vesicles (sEVs) on multi-organ insulin action. The investigators will isolate sEVs from subcutaneous abdominal adipose tissue biopsies and blood samples obtained from human participants with MHO, MUO or who are metabolically healthy and lean (MHL) and examine the effects of these sEVs on insulin resistance in muscle, liver and fat cells in culture and on multi-organ insulin sensitivity in lean and obese mice. The investigators will also identify differences in the potential bioactive molecules, namely miRNA and bioactive lipids, that are carried by sEVs. The results from this study will help determine whether plasma or adipose tissue sEVs in people who are MHL, MHO, or MUO are involved in regulating liver, muscle and adipose tissue insulin sensitivity. These results could identify novel pathways that regulate metabolic health in people and provide the foundation for exploring the potential of sEVs as a therapeutic target to prevent and treat the metabolic complications of obesity.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
72
Consumption of a low-calorie diet with caloric intake reduced by \~25% to achieve \~10% weight loss in about 4 to 5 months.
Washington University School of Medicine
St Louis, Missouri, United States
RECRUITINGEffect of exosomes on insulin sensitivity in cultured cells
Exosomes obtained from the plasma and adipose tissue of metabolically healthy lean participants, and participants with metabolically healthy or metabolically unhealthy obesity will be tested in cultured cells and mice to determine their effect on insulin sensitivity.
Time frame: Baseline only (cross-sectional comparison of metabolically healthy lean, and of people with metabolically healthy or metabolically unhealthy obesity).
Change in the effect of exosomes on insulin sensitivity
Exosomes obtained from the plasma and adipose tissue of participants with metabolically unhealthy obesity before and after 10% weight loss will be tested in cultured cells and mice to determine their effect on insulin sensitivity.
Time frame: Before and after ~10% weight loss (~4-5 months) in people with metabolically abnormal obesity
Differences in the content of microRNAs within exosomes obtained from plasma and adipose tissue
Exosomes obtained from the plasma and adipose tissue of metabolically healthy lean participants, and participants with metabolically healthy or metabolically unhealthy obesity will be analyzed to determine their microRNA composition.
Time frame: Baseline only (cross-sectional comparison of metabolically healthy lean, and of people with metabolically healthy or metabolically unhealthy obesity).
Differences in the content of lipids within exosomes obtained from plasma and adipose tissue
Exosomes obtained from the plasma and adipose tissue of metabolically healthy lean participants, and participants with metabolically healthy or metabolically unhealthy obesity will be analyzed to determine their lipid composition.
Time frame: Baseline only (cross-sectional comparison of metabolically healthy lean, and of people with metabolically healthy or metabolically unhealthy obesity).
Changes in the content of microRNAs within exosomes obtained from plasma and adipose tissue
Exosomes obtained from the plasma and adipose tissue of metabolically unhealthy obesity before and after weight loss will be analyzed to determine changes in their microRNA content after weight loss.
Time frame: Before and after ~10% weight loss (~4-5 months) in people with metabolically abnormal obesity
Changes in the content of lipids within exosomes obtained from plasma and adipose tissue
Exosomes obtained from the plasma and adipose tissue of metabolically unhealthy obesity before and after weight loss will be analyzed to determine changes in their lipid content after weight loss.
Time frame: Before and after ~10% weight loss (~4-5 months) in people with metabolically abnormal obesity
Insulin sensitivity
Whole-body insulin sensitivity will be assessed by using the hyperinsulinemic-euglycemic clamp procedure
Time frame: Baseline only (cross-sectional comparison of metabolically healthy lean, and people with metabolically healthy or metabolically unhealthy obesity).
Change in insulin sensitivity
Whole-body insulin sensitivity will be assessed by using the hyperinsulinemic-euglycemic clamp procedure
Time frame: Before and after ~10% weight loss (~4-5 months) in people with metabolically abnormal obesity
Fat mass and fat free mass
Fat mass and fat free mass will be assessed using dual-energy x-ray absorptiometry (DXA)
Time frame: Baseline only (cross-sectional comparison of metabolically healthy lean, and people with metabolically healthy or metabolically unhealthy obesity).
Change in fat mass and fat free mass
Fat mass and fat free mass will be assessed using dual-energy x-ray absorptiometry (DXA)
Time frame: Before and after 10% weight loss (~4-5 months) in people with metabolically abnormal obesity
Abdominal adipose tissue volumes
Abdominal subcutaneous and intra-abdominal adipose tissue volumes will be assessed by magnetic resonance imagining (MRI)
Time frame: Baseline only (cross-sectional comparison of metabolically healthy lean, and people with metabolically healthy or metabolically unhealthy obesity).
Change in abdominal adipose tissue volumes
Abdominal subcutaneous and intra-abdominal adipose tissue volumes will be assessed by magnetic resonance imagining (MRI)
Time frame: Before and after ~10% weight loss (~4-5 months) in people with metabolically abnormal obesity
Intra-hepatic triglyceride content
Intra-hepatic triglyceride content will be assessed by magnetic resonance techniques
Time frame: Baseline only (cross-sectional comparison of metabolically healthy lean, and people with metabolically healthy or metabolically unhealthy obesity).
Change in intra-hepatic triglyceride content
Intra-hepatic triglyceride content will be assessed by magnetic resonance techniques
Time frame: Before and after ~10% weight loss (~4-5 months) in people with metabolically abnormal obesity
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