Effect on Energy Metabolism at Cellular Level of Diet Plus Treatment With Ephedrine and Caffeine in Obesity

This trial was part of a sub-project of a multicentre study named "Interaction between nutritional, social-behavioral and metabolic factors for prevention of cardiovascular disease: development of nutritional strategies on general population" approved by the Italian Ministry of Health. The sub-project was specifically addressed to diet, thermogenesis and obesity.

1. Ephedrine and caffeine (EC) combination has been widely used in human obesity treatment, and is still present in many herbal preparations sold widespread in many countries for weight loss. It is well known that this drug increases the metabolic rate in both animals and humans. Ephedrine is an agonist of both α and β-adrenoceptors; moreover, it induces norepinephrine release from sympathetic neurons, and thus is a sympatho-mimetic drug with a mixed profile. Caffeine increases both norepinephrine and dopamine release and stimulates the neuronal activity in several brain regions. In addition, caffeine antagonizes the inhibitory effects of adenosine on sympathetic nervous system (SNS). This modulation of SNS activity may be a possible explanation for the thermic effect of EC. In fact, epinephrine activates the uncoupling protein 1 (UCP1), a member of mitochondrial carriers localized on the inner mitochondrial membrane in brown adipocytes. The physiological role of UCP1 is to uncouple oxidative phosphorylation, therefore most of the energy is dissipated as heat rather than being converted to ATP. UCP1 is unique to brown adipocyte mitochondria, although brown-like multilocular adipocytes expressing UCP1 interspersed within human WAT have been observed. Actually, UCP1 mRNA has been detected in all adipose tissues in adult humans, and it has been estimated that 1 in 100-200 adipocytes in human intraperitoneal adipose tissue expresses UCP1. It has been shown that the cold-induced occurrence of brown-like adipocytes and UCP1 requires the presence of the β3-adrenoceptor in previously white adipose tissue and the presence of the β3-adrenoceptor is required for full stimulation of energy expenditure and oxygen consumption in white adipose tissue.

   In addition to UCP1, expressed exclusively in brown adipose tissue (BAT), another member of the mitochondrial anion carrier protein family i.e. uncoupling protein 3 (UCP3) could play a physiological role in energy homeostasis. It is expressed almost exclusively in skeletal muscle and exhibits two transcriptional isoforms: a long form (UCP3L) and a short form (UCP3S). A brief caloric restriction resulted in ~2- to 3-fold increase in UCP3 mRNA levels in lean and obese humans.

2. Because only a few, small studies have been done in humans to investigate the thermogenic effects of EC as compared to diet only, in the present study we examined the UCP3 expression in skeletal muscle and the beta-3 adrenoceptor expression in adipose tissue of pre-menopausal morbidly obese females treated with either placebo or EC for 30 days who subsequently underwent bariatric surgery.

3. Study subjects are adult females with morbid obesity i.e. body mass index ≥ 40 kg/m2 selected from the waiting list for bariatric surgery at Department of Surgery (Molinette Hospital, Turin, Italy. During the treatment period all patients are fed a hypocaloric diet (total energy content of ~70% of energy expenditure, as measured by indirect calorimetry), and containing 20% proteins, 55% carbohydrates, 25% fat half of which was monounsaturated, and 35 g/day fibres. Patients are randomised to 30-day treatment with either EC (200/20mg t.i.d.) or placebo. They are hospitalised, during the whole treatment period, at the metabolic unit of San Giuseppe Hospital-Istituto Auxologico Italiano at Piancavallo (VB, Italy). The EC administration starts with an initial dose of 100/10 mg t.i.d. for the first week and then proceeds with the full dose of 200/20 mg t.i.d. Resting energy expenditure is measured by indirect calorimetry at baseline and at the end of the study. The study pills (active compound and placebo) were prepared by the Hospital's Pharmacy.

4. In order to evaluate drug safety and effect on cardiac function, the blood pressure is measured three times a day; both electrocardiography and echocardiography are being recorded at baseline and every week. After diet and drug period, the patients are transferred to the Department of Surgery (Molinette Hospital, Turin) for the bariatric surgery. The drug treatment (EC and placebo) is stopped the day before surgical intervention. Small biopsies of rectus abdominis and of subcutaneous and omental adipose tissues are taken during surgery, immediately frozen in liquid nitrogen, and stored at -80°C for subsequent analysis.

5. UCP3S and UCP3L mRNA levels are measured by quantitative polymerase chain reaction at the Department of Pharmacology, University of Milan. Presence of beta-3 adrenoceptor in adipose tissue is evaluated by immunohistochemistry by the avidin-biotin peroxidase technique using monoclonal anti-human beta 3-adrenoceptor antibody at the Department of Human Anatomy, University of Ancona.