The Effects of Acute Weight Gain and Acute Calorie Deprivation on Marrow Adipose Tissue

Marrow adipocytes have been identified as a component of the bone marrow micro-environment. Evidence exists suggesting that marrow fat plays an important physiologic role in both bone mineral and energy metabolism in humans. Studies have shown that nutritional status, particularly body fat distribution, may be important in marrow fat. For example, anorexia nervosa, a state of low body fat, is associated with elevated marrow adiposity and low bone mineral density. However, it is not known whether this is in direct response to nutritional deprivation or other hormonal changes that occur in anorexia nervosa. Drugs known to cause adipose redistribution and associated with low bone mass, such as the thiazolidinediones and glucocorticoids, have also been shown to stimulate the accumulation of marrow adipocytes. Therefore, the relationship between bone marrow fat, bone mass, body fat depots and their hormone regulators is a dynamic one and not yet well understood. Although studies have shown an inverse relationship between high marrow adiposity and low bone mineral density (BMD), the physiologic role of marrow adipose tissue has not been defined nor its relationship to hormonal factors in humans. A role for marrow adipose tissue (MAT) in mineral and energy metabolism is further supported by the fact that a number of pathologic states are associated with increased marrow adiposity. Visceral adipose tissue, intramyocellular lipids (IMCL), intrahepatic lipids (IHL) and serum triglycerides, all of which are elevated in obesity, are also positive predictors of MAT, but whether acute weight gain in humans results in elevated marrow adiposity is unknown. Therefore observing changes in marrow fat during acute weight gain and acute nutritional deprivation will further the understanding of the role of marrow adiposity in energy homeostasis. While it is known that markers of bone formation dramatically decrease after only 4 days of fasting, it is not known how quickly marrow fat can change in response to physiologic cues. In a rat model, increases in marrow fat were observed after 14 days in space suggesting that changes in marrow adiposity may occur acutely in the human model as well.