Physiologic concentrations of inorganic phosphate accelerate fructosamine synthesis.

The effect of physiologic concentrations of inorganic phosphate (Pi) on fructosamine (FRA) synthesis was studied. After 75 g oral glucose administration (OGTT), 'delta FRA/24 h', defined as delta FRA after incubating serum or other specimens at 37 degrees C for 24 h after adding 1000 mg/dl glucose, was significantly decreased in parallel to the decrease of plasma Pi concentrations. 'The FRA index', defined as the FRA value divided by the corresponding glucose concentration, both at fasting, correlated significantly with plasma Pi concentrations. In vitro incubation of serum total protein (TP), albumin (ALB), gamma-globulin (GLB), free lysine (Lys), and free valine (Val) with glucose at different concentrations of Pi showed a Pi-dependent increase of FRA synthesis throughout 48 h of incubation. The accelerating effect of 5 mg/dl Pi on FRA synthesis from TP, ALB, GLB, Lys, and Val at pH 7.4 was, respectively, as great as 48, 20, 24, 13 or 25% of those without Pi. Increase of pH from 6 to 10 logarithmically increased delta FRA/24 h in contrast to a logarithmic decrease of the accelerating effect of Pi on delta FRA/24 h. These data show that physiologic concentrations of Pi accelerate protein glycation by accelerating dehydrogenation during the Amadori rearrangement through the negative charge of Pi. Because this accelerating effect of physiologic Pi presumably exists in vivo, Pi concentration must be taken into account as an accelerating factor for FRA synthesis in evaluating diabetic control, and further studies must be carried out to elucidate whether hyperphosphatemia accelerates glycation-induced diabetic complications.