Activation of Brown Adipose Tissue Metabolism Using Mirabegron

Sympathomimetics and Sympatholytics in Type 2 Diabetes: Teaching Old Drugs New Tricks

Status

Completed

Phases

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT04823442

Acronym

GB9

Enrollment

Registered

2021-03-30

Start date

2021-01-21

Completion date

2022-04-04

Last updated

2024-12-09

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Type 2 Diabetes

Brief summary

Could sympathomimetics and sympatholytics drugs safe for the management of Type 2 Diabetes (T2D)? Based on recent evidence, we propose that pharmacological stimulation of Beta-3 adrenergic receptor (ADBR3) at higher doses of Mirabegron may be required to elicit changes in glycemia, but should be combined with Beta-1 adrenergic receptor (ADRB1) antagonists to suppress the unwanted effects on the cardiovascular system. Together, several results establish a previously unappreciated cross-talk between Gs-coupled ADRB1 and ADRB3 in adipose tissue for the control of glucose homeostasis. Moreover, these data suggest that antagonizing ADRB1 may be a good way to significantly lower the dose of ADRB3 agonist required for glucose control. Therefore, we believe that there are therapeutic opportunities in targeting adrenergic receptors for the treatment of T2D at least in young/middle aged people.

Detailed description

In brief, participants will take part in 2 metabolic studies (A and B) performed in random order and at an interval of 7 to 14 days. Each metabolic study will last 8.5 hours with a baseline period of 2.5 hours. Participants will ingest either 200 mg of the ADRB3 agonist mirabegron (Myrbetriq, Astellas Pharma Canada) alone (study A) or in combination with 10 mg of bisoprolol, an ADRB1-antagonist (study B), at time 0. The radioactive PET tracers (PET: positron emission tomography) used in this study are the \[11C\]-acetate and \[18F\]-FDG to estimate BAT oxidative metabolism and glucose metabolism, respectively. The perfusion of \[6,6 D2\]-glucose, \[1,1,2,3,3-2H\]-glycerol and \[U-13C\]-palmitate stable isotopes will also be performed in this study from time -150 min. to +300 min to examine the systemic appearance rate of glucose, glycerol and fatty acids, respectively. These studies will be almost identical (same perfusion of stable and radioactive tracers, same number of PET acquisitions) except for the drug which will be administered orally at time 0.

Interventions

DRUGMirabegron

Mirabegron: a single dose of 200 mg mirabegron (4 tablets of 50 mg)

DRUGBisoprolol Fumarate

a single dose of 10 mg (2 tablets of 5 mg)

Study design

Allocation

RANDOMIZED

Intervention model

CROSSOVER

Primary purpose

BASIC_SCIENCE

Masking

NONE

Eligibility

Sex/Gender

MALE

Age

18 Years to 35 Years

Healthy volunteers

Yes

Inclusion criteria

* Healthy subjects with normal glucose tolerance determined according to an oral glucose tolerance test; * BMI ≤ 30 kg/m2.

Exclusion criteria

* Plasma triglycerides \> 5.0 mmol/L at fasting; * More than 2 alcohol consumption per day; * More than 1 cigarette per day; * History of total cholesterol level \> 7 mmol/L, of cardiovascular disease, hypertensive crisis; * Treatment with fibrates, thiazolidinedione, insulin,betablockers or other drugs with effects on insulin resistance or lipid metabolism (exception for antihypertensive drugs, statins or metformin); * Presence of a noncontrolled thyroid disease, renal or hepatic disease, history of pancreatitis, bleeding diatheses, cardiovascular disease or any other serious medical conditions; * History of serious gastrointestinal disorders (malabsorption, peptic ulcer, gastroesophageal reflux having required a surgery, etc.); reflux having required a surgery, etc.); * Presence of a pacemaker; * Have undergone of PET study or CT scan in the past year; * Chronic administration of any medication;

Design outcomes

Primary

Measure	Time frame	Description
Change in activation of Brown Adipose Tissue (BAT) (oxidative metabolism and blood flow)	30 minutes before and 210 minutes after drug administration	Measured with 11C-acetate using dynamic PET/CT acquisition.
BAT glucose uptake	240 minutes after drug administration	Assessed using i.v. injection of 18FDG with sequential dynamic PET/CT scanning

Secondary

Measure	Time frame	Description
Hepatic Glucose production	150 minutes before and mean of time 180, 240 and 300 minutes after drug administration (steady state).	Systemic appearance rate of glucose determined by perfusion of \[6,6 D2\]-glucose
Substrate utilisation	150 minutes before and mean of time 210 and 270 minutes after drug administration (steady state).	VO2 and VCO2 will be measured by indirect calorimetry to calculate carbohydrate and fatty acid oxidation rates.
Whole-body glucose partitioning	300 minutes after drug administration	Assessed using i.v. injection of 18FDG with static PET/CT scanning
Changes in pancreatic and gut hormones	150 minutes before and mean of time 180, 240 and 300 minutes after drug administration (steady state).	measured with ELISA and Milliplex.
BAT lipolysis	baseline and 300 minutes after drug administration	Estimated by quantifying changes in tissue radiodensity with CT.
Whole-body lipolysis	150 minutes before and mean of time 180, 240 and 300 minutes after drug administration (steady state).	Systemic appearance rate of glycerol and fatty acid determined by perfusion of \[1,1,2,3,3-2H\]-glycerol, \[U-13C\]-palmitate tracers. and concentration of total NEFA, triglycerides, palmitate, oleate, linoleate, glycerol.

Countries

Canada

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 6, 2026