Deciphering a Novel and Unique Brown Adipose Tissue Depot in Women — DEBATE  

Cardiometabolic Diseases Clinical Trial

Official title: Deciphering the Molecular and Secretory Functions of a Novel and Unique Brown Adipose Tissue Depot in Women

Status Not yet recruiting

Clinical Trial Summary

Type of Study: Clinical Trial Goal: The goal of this clinical trial is to investigate specific brown and beige fat cells in the dorsocervical area of young, lean adult women. Participant Population/Health Conditions: The study will involve 40 young, lean adult women. Main Questions: The main questions this study aims to answer are: - Are there active brown or beige adipocytes in the subcutaneous fat of the dorsocervical area (i.e., iBAT)? - What is the secretory function of these adipocytes? - How do traditional interventions like cold exposure, as well as new approaches like Beta-2 agonist stimulation and exercise, affect the thermogenesis of these fat cells at the cellular and molecular levels? Participants Will: Be randomized into one of four groups: thermoneutral exposure, cold exposure, aerobic exercise, or Beta-2 agonist treatment. Follow their assigned regimen for 4 weeks. Provide tissue samples from the dorsocervical area and abdomen before and after the 4-week intervention. Undergo analysis of these samples using advanced techniques to understand the presence and activity of brown and beige fat cells. Comparison Group: Researchers will compare the effects of different interventions (thermoneutral exposure, cold exposure, aerobic exercise, Beta-2 agonist treatment) on the presence and thermogenesis of brown and beige fat cells in the dorsocervical area.

Clinical Trial Description

Cardiometabolic diseases affect almost 50% of the population in the Western World. While lifestyle plus pharmacological interventions may provide short-term benefits, more research is needed to understand the long-term effectiveness and underlying molecular mechanisms. Brown adipose tissue (BAT) is a thermogenic tissue that combusts large amounts of glucose and lipids to generate heat and secretes signalling molecules known as 'batokines' that can influence cardiometabolic health. Previous research has shown that BAT is active in adults, primarily in the supraclavicular region, as demonstrated by the uptake of 18F-Fluorodeoxyglucose. Recently, it has been demonstrated that a rare subpopulation of brown adipocytes increases their abundance at higher temperatures and can regulate the thermogenesis of neighbouring adipocytes. Thus, it is plausible that classical (e.g., cold exposure) and novel interventions (i.e., Beta-2 stimulation and exercise) that can activate BAT, would induce a remodelling in the brown/beige subpopulation adipocytes that govern whole tissue thermogenesis. These unstudied changes in human BAT physiology could potentially explain how BAT activation could enhance cardiometabolic health. However, despite over a decade of research, our understanding of the role of BAT in human physiology in humans is limited. This lack of knowledge may be mainly explained because i) obtaining biological samples of human BAT is very difficult and ii) the seasonal variation strongly influences the current gold standard (PET-CT scan). Given the pilot data found in this proposal, young, lean adult women may have a novel and undescribed thermogenic active BAT depot at the dorsocervical area (i.e., interscapular BAT=iBAT). Based on that, the main hypothesis is that there are brown and/or beige adipocytes present within the subcutaneous adipose tissue of the dorsocervical area (i.e., iBAT) that have a unique composition of adipocyte subpopulations and specific secretory functions. Additionally, the specific subpopulations of brown and/or beige adipocytes related to thermogenesis in iBAT can be increased through exposure to cold temperatures, Beta-2 agonist stimulation, and exercise in young, lean women. Thus, the main objective of this study is to investigate whether the subcutaneous fat in the dorsocervical area contains active brown and/or beige adipocytes (i.e., iBAT), understand its secretory function, and study the impact of traditional (e.g. cold exposure) and new interventions (e.g. Beta-2 agonist and exercise) on iBAT thermogenesis at the cellular and molecular levels. Thus, the DEBATE project will carry out a randomized controlled trial where 40 young, lean adult women will be randomized into a thermoneutral exposure group (2 hours/day at 32ºC; 5 days/week) or a cold exposure group (2 hours/day at 18ºC; 5 days/week) or an aerobic exercise group (5 days/week at 65% heart rate reserve for 60 minutes) or a Beta-2 agonist group (salbutamol 12 mg/day. 7 days week). Before and after the 4-week intervention, iBAT tissue samples from the dorsocervical area and subcutaneous white adipose tissue (scWAT) from the abdomen will be collected. In these biological samples, the investigators will apply a set of cutting-edge omics (e.g., single nucleus RNA-seq) that will allow us to investigate whether iBAT is present and metabolically active in adults. The investigators will also conduct a set of in vitro experiments to discover the secretory function of this novel depot. ;

Related Conditions & MeSH terms

• Cardiometabolic Diseases

• NCT number: NCT06426082
• Study type: Interventional
• Source: Universidad de Almeria
• Contact: Borja Martinez Tellez, PhD
• Phone: +34 950215334
• Email: borjammt@ual.es
• Status: Not yet recruiting
• Phase: N/A
• Start date: November 1, 2024
• Completion date: August 2026