Quantitative analysis of phosphatidylcholine molecular species using HPLC and light scattering detection.

A number of HPLC chromatographic procedures can be used to separate intact molecular species of phosphatidylcholine (PC), but on-line quantification has remained problematic due to insensitivity of UV-detection for saturated species. Here, a new method is presented, separating all major PC molecular species from a variety of biological samples in intact form using a single, short and isocratic run. Species were separated on two RP18 reverse-phase columns in series and all species displayed an exponential relation between retention time and the percentage of acetonitrile or triethylamine in the mobile phase, allowing optimization of the mobile phase on a theoretical base, rather than on time-consuming test-runs. The use of triethylamine as a volatile additive instead of choline chloride allowed the use of light scattering detection. On a molar base, the response of the detector was invariant between species and allowed quantification of as little as 50 pmoles. The method was tested using phosphatidylcholines with widely different molecular species patterns, such a PC from rat liver, porcine pulmonary surfactant, bovine heart, boar sperm cells, and the parasite Schistosoma mansoni. As only volatile components are present in the solvents, individual molecular species can easily be recovered in pure form from the column effluent, enabling their further analysis (e.g., scintillation counting).