Obesity Clinical Trial
Official title:
Leptin in Human Energy and Neuroendocrine Homeostasis
Previous work in our laboratory, and many others, has shown that body weight is regulated. When anyone, fat or thin, tries to maintain a reduced body weight, many systems affecting energy balance (skeletal muscle, neuroendocrine, and autonomic systems) conspire to slow metabolic rate thus favoring the regain of lost weight. Individuals with leptin deficiency are remarkably similar to weight-reduced individuals. Their metabolism, thyroid hormones, and sympathetic nervous system activity are all low despite their obesity. While administration of leptin to leptin-deficient humans results in substantial weight loss and increases in energy expenditure. However, leptin administration to leptin-sufficient humans at usual body weight has little or no effect on weight unless given in doses 10-20 times what would be considered to be in the normal physiological range. This study examines the hypothesis that leptin is "read" by various systems regulating energy balance as an indicator of how much energy we have stored and that the body perceives the weight-reduced state as a condition of relative leptin insufficiency. Within this model, restoration of leptin to levels present prior to weight loss should relieve much of the metabolic opposition to keeping weight off. Preliminary studies support this hypothesis.
The failure of obesity treatments to sustain weight reduction is widely recognized. The
central hypotheses of these studies are that: 1) Energy and neuroendocrine homeostatic
systems are altered during the maintenance of a reduced body weight in a manner that favors
weight regain; 2) These changes occur because weight-reduced individuals are in a state of
relative leptin deficiency due to loss of body fat; and 3) Therefore these changes
accompanying the maintenance of a reduced body weight will be reversed if circulating leptin
concentrations are restored to those that were present prior to weight reduction. Maintenance
of a reduced body weight is associated with integrated autonomic and neuroendocrine changes
that reduce energy expenditure and increase food intake in a manner that is similar to that
seen in rodents and humans who are deficient in, or resistant to, the adipocyte-derived
hormone leptin.
Systemic leptin administration to leptin-deficient rodents and humans reverses the metabolic
(hypometabolism, hyperphagia), autonomic (increased parasympathetic and decreased sympathetic
nervous system tone), and neuroendocrine changes that characterize the leptin-deficient
state. The proposed studies focus on the neuroendocrine, autonomic, and metabolic changes
that characterize the reduced-obese individual, and the effects on these phenotypes of
restoration of circulating concentrations of leptin to levels present prior to weight loss.
Healthy lean and overweight subjects are admitted to the General Clinical Research Center at
Columbia University Medical College and placed on a liquid formula diet. Calories are
adjusted until weight is stable and then subjects undergo testing of neuroendocrine,
autonomic, and metabolic function. All subjects undergo an in-patient 10% weight reduction.
Subjects are studied in a single blind placebo control design in which they are studied at
usual weight and while maintaining a 10% reduced weight. At either usual weight or reduced
state subjects undergo a single blind crossover placebo/control study in which they receive
placebo, leptin injections while on an isocaloric diet either at usual weight or following a
10% weight loss.
During each of these study periods, subjects will undergo detailed evaluation of 1) energy
expenditure; 2) autonomic nervous system tone (serial blockade of sympathetic and
parasympathetic inputs, heart rate variability analyses, and urinary catecholamine
excretion); 3) hypothalamic-pituitary-thyroid, -adrenal and -gonadal, axis function; 4)
adipose tissue gene expression; 5) other molecules (e.g., adiponectin, ghrelin, PYY) that may
influence neuroendocrine and metabolic function. The results of these studies will further
delineate the physiology of body weight regulation and of leptin.
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