Ontogenesis of leptin expression in different adipose tissue depots in the rat

Serum leptin levels and leptin mRNA expression by adipose tissue increase with age and are mainly associated with an increase in adiposity. Regional changes in both leptin production and fat distribution contribute to circulating leptin levels and may play a role in the regulation of body weight, a capacity that changes during development. Here, we have studied leptin mRNA expression in four different white adipose tissue depots (epididymal, retroperitoneal, mesenteric, inguinal; namely, EWAT, RWAT, MWAT, IWAT) and in interscapular brown adipose tissue (IBAT). We have also studied their relationship with lipid content and adiposity changes, together with serum leptin levels in male rats at different ages (18, 55, 93, 159, 212, 294 and 355 days). Serum leptin levels increased during development, reaching st-able levels at the age of 7 months, and, as expected, were highly correlated with both the adiposity index (r=0.908, P <0.01) and body weight (r=0.906, P<0.01). Leptin mRNA expression also increased with age, following characteristic ontogenic patterns in every adipose tissue depot. The patterns were similar in EWAT and RWAT: leptin expression increased very rapidly during the first 55 days for EWAT and 3 months for RWAT, with a peak in the latter at 7 months, and high expression levels were retained for the rest of the study period. In IWAT and IBAT, leptin expression increased steadily during the 12-month period studied and was significantly lower than levels in EWAT and RWAT. Leptin expression in MWAT increased progressively with age to reach levels close to those of EWAT and RWAT in 10-month-old animals. The pattern of leptin expression in both EWAT and RWAT paralleled their lipid content, and leptin mRNA expression per unit of tissue lipid content was maintained high and constant from a very young age (about 2 and 3 months, respectively). However, the expression of mRNA for leptin (expressed per unit of tissue lipid concentration) in MWAT, IWAT and IBAT increased steadily during the whole period studied, without attaining the maximal levels observed in EWAT and RWAT. MWAT, IWAT and IBAT maintained their capacity to increase leptin mRNA expression in response to at? additional accumulation of lipids. Our data demonstrate that there are regional-specific differences and different rates of increase of leptin gene expression within distinct depots of WAT and BAT. These changes cannot be uniquely explained by changes in adiposity or lipid content, implying that there are regional-specific regulatory mechanisms that may depend on the attenuation with age of the -adrenergic inhibitory signalling pathway upon leptin expression or on other factors.