Activating brown adipose tissue (BAT) could provide a potential approach for the treatment of obesity and metabolic disease in humans. Obesity is associated with upregulation of the endocannabinoid system, and blocking the cannabinoid type 1 receptor (CB1R) has been shown to cause weight loss and to decrease cardiometabolic risk factors. These effects may be mediated partly via increased BAT metabolism, since there is evidence that CB1R antagonism activates BAT in rodents. To investigate the significance of CB1R in BAT function, we quantified the density of CB1R in human and rodent BAT using the positron emission tomography radioligand [F]FMPEP- and measured BAT activation in parallel with the glucose analog [F]fluorodeoxyglucose. Activation by cold exposure markedly increased CB1R density and glucose uptake in the BAT of lean men. Similarly, β3-receptor agonism increased CB1R density in the BAT of rats. In contrast, overweight men with reduced BAT activity exhibited decreased CB1R in BAT, reflecting impaired endocannabinoid regulation. Image-guided biopsies confirmed CB1R mRNA expression in human BAT. Furthermore, CB1R blockade increased glucose uptake and lipolysis of brown adipocytes. Our results highlight that CB1Rs are significant for human BAT activity, and the CB1Rs provide a novel therapeutic target for BAT activation in humans.
This first-inhuman study investigated the safety, biodistribution and radiation dosimetry of the novel 18 F-labeled radiohybrid prostate-specific membrane antigen (rhPSMA) positron emission tomography (PET) imaging agent, 18 F-rhPSMA-7.3. Methods: Six healthy volunteer subjects (3 males, 3 females) underwent multiple whole-body PET acquisitions at scheduled time points up to 248 minutes after the administration of 18 F-rhPSMA-7.3 (mean activity 220; range, 210-228 MBq). PET scans were conducted in three separate sessions and subjects were encouraged to void between sessions. Blood and urine samples were collected for up to 4 hours post-injection to assess metabolite-corrected radioactivity in whole blood, plasma and urine. Quantitative measurements of 18 F radioactivity in volumes of interest (VOIs) over target organs were determined directly from the PET images at 8 time points and normalized time-activity concentration curves were generated. These normalized cumulated activities were then inputted into the OLINDA/EXM package to calculate the internal radiation dosimetry and the subjects' effective dose. Results: 18 F-rhPSMA-7.3 was well tolerated. One adverse event (mild headache, not requiring medication) was considered possibly related to 18 F-rhPSMA-7.3. The calculated effective dose was 0.0141 mSv/MBq when using a 3.5-hour voiding interval. The organs with the highest absorbed dose per unit of administered radioactivity were the adrenals (mean absorbed dose, 0.1835 mSv/MBq), the kidneys (mean absorbed dose, 0.1722 mSv/MBq), the submandibular glands (mean absorbed dose, 0.1479 mSv) and the parotid glands (mean absorbed dose, 0.1137 mSv/MBq). At the end of the first scanning session (mean time, 111 min post-injection), an average of 7.2% (range, 4.4-9.0%) of the injected radioactivity of 18 F-rhPSMA-7.3 was excreted into urine. Conclusions: The safety, biodistribution and internal radiation dosimetry 18 F-rhPSMA-7.3 are considered favorable for PET imaging.
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