High-performance liquid chromatographic and mass spectrometric identification of phosphocitrate synthesized by human kidney homogenate.

Two high-performance liquid chromatographic techniques for the analysis of phosphocitrate, a metabolite synthesized by the cell that is thought to play a role in a number of physiological as well as pathological events, have been developed. The mass spectra of the isolated compound obtained under fast-atom bombardment and collisionally activated decomposition mass-analysed ion kinetic energy conditions are also reported.

Evidence in vitro for an enzymatic synthesis of phosphocitrate.

A biological synthesis of phosphocitrate is described from precursors, citrate and adenosinetriphosphate reacting in the presence of rat liver homogenate. Identity of the newly formed product was examined by enzymatic digestion of reactions mixtures, HPLC chromatography and 1H-NMR spectra. Authenticity of product was established by comparison to chemically synthesized phosphocitrate.

Possible mechanism of inhibition of cartilage alkaline phosphatase by insulin.

The inhibition of alkaline phosphatase by insulin is a finding reported by many researchers but the mechanism of this inhibition has not been studied. Since alkaline phosphatase is an important factor in the mechanism of calcification and an impairment of mineralisation has been observed in diabetes mellitus, a study was carried out to assess the effect of the hormone on alkaline phosphatase measured in chondrocytes, in matrix vesicles and in a purified enzyme preparation. Enzyme activity was inhibited by insulin.