Leptin, soluble leptin receptors, free leptin index, and their relationship with insulin resistance and BMI: high normal BMI is the threshold for serum leptin increase in humans.

Leptin binds to the soluble form of its receptor (sOB-R). Leptin and sOB-R balance (free leptin index, FLI) reflect leptin activity. Leptin correlates with obesity and insulin resistance, but it remains uncertain whether sOB-R and FLI also do the same. Therefore, the aim of this study was to measure serum leptin, sOB-R, and FLI, and evaluate their associations with BMI and insulin resistance. We studied 145 obese and 49 nonobese humans. Obesity was defined according to WHO (BMI >30 kg/m (2)). Results are given as: median and interquartile range, obese vs. nonobese, respectively. Leptin (ng/ml): 30.83, 37.27 vs. 8.31, 10.04; sOB-R (ng/ml): 17.62, 17.05 vs. 27.25, 11.30; FLI: 231.2, 310.0 vs. 30.85, 27.77; HOMA: 5.99, 6.64 vs. 3.92, 4.52; p<0.001 for all. Serum leptin, sOB-R, and FLI did not correlate with insulin resistance separately in obese and nonobese humans. Leptin and FLI, but not sOB-R, were associated with insulin resistance in obese and nonobese subjects examined together. Leptin, sOB-R and FLI differed between obese and nonobese humans, and, except sOB-R, correlated with BMI. In piecewise linear regression, BMI threshold where leptin increased was 24.6 (r=0.5969, p=0.00016 and <0.00001). Leptin and its free index, but not sOB-R, correlate with BMI only in a mixed obese and nonobese human cohort, and not in isolated obese or nonobese groups. Moreover, BMI threshold where leptin starts to increase is 24.6 kg/m (2), which is lower than the cutoff for overweight. Under the conditions, metabolic abnormalities may occur in parallel to much lower BMI levels as expected so far. (c) Georg Thieme Verlag KG Stuttgart . New York.