Analysis of retinoids by direct exposure probe mass spectrometry

Abstract

Recently, our laboratory has investigated the depletion of Vitamin A and its metabolites in experimental animals. High Pressure Liquid Chromatography (HPLC) was used to measure retinal oxidase activity by monitoring the conversion of retinaldehyde (RALD) to retinoic acid (ROIC). In order to obtain more information about these compounds, a Direct Exposure Probe mass spectrometric method was developed to confirm the presence of ROIC and RALD in HPLC peaks. A rapid negative ion chemical ionization (NICI) method using ammonia as reagent gas was developed to detect the presence of ROIC and RALD with picogram sensitivity. The ROIC and RALD peaks were collected from HPLC, extracted with hexane, evaporated under nitrogen and reconstituted in ethanol before placing onto a rhenium filament with current programmed from 0-1.3 A at 50 mA/sec. The instrument employed was a Finnigan 4510 operated in the NICI mode and scanned from m/z 100-650 with a source temperature of 80 C. Other parameters were electron energy 140 eV and filament current at 0.25 mA. Prominent ions were generated at m/z 284 and m/z 300 for RALD and ROIC which were subsequently monitored in the selected ion monitoring mode. In summary, we have developed a rapid retinoid identification method (2.5 minutes) which is more sensitive (pg vs ng) than HPLC and does not require elaborate sample preparation or derivitization. This method can be used as an important adjunct to HPLC enzyme studies.