Abstract
BACKGROUND
Distinction between asymptomatic and potentially clinically significant forms of galactosemia due to UDP-galactose 4′-epimerase (GALE) deficiency requires enzyme measurement in erythrocytes and other cells. We sought to develop a GALE assay using a novel liquid chromatography–tandem mass spectrometry (LC-MS/MS)-based method.
METHODS
The reversible GALE assay was conducted with UDPGal as a substrate. The coeluting reaction product, uridine diphosphate glucose (UDPGlc), and its isomeric substrate, uridine diphosphate galactose (UDPGal), were detected by MS/MS at mass transitions 565 > 280, 565 > 241 and 565 > 403. The UDPGal was enriched in mass transition 565 > 403 compared with UDPGlc, whereas the UDPGlc was enriched in the mass transition 565 > 241 compared with UDPGal. The percentage of UDPGal in the reaction mixture was calculated by use of the ratio of ion intensities of the 2 daughter ions and a fourth-order polynomial calibrator curve.
RESULTS
The method yielded a mean (SD) GALE activity of 9.8 (2.2) μmol · g−1 hemoglobin · h−1 in erythrocyte extracts from 27 controls. The apparent Km of the substrate, UDPGal, was 0.05 mmol/L. The GALE activity ranged from 433 to 993 μmol · g−1 protein · h−1 in control lymphoblast extracts. In a blinded test of 22 subjects suspected of GALE deficiency, we identified 6 individuals whose residual activities were below the range of controls, compatible with intermediate GALE deficiency.
CONCLUSIONS
This assay can be used to distinguish the different forms of GALE deficiency. From an analytical standpoint, differentiating isomers on the basis of fragment intensity ratios should also prove useful for analogous enzymatic studies involving substrates and products that are structural isomers.
Quantification of Human Uridine-Diphosphate Glucuronosyl Transferase 1A Isoforms in Liver, Intestine, and Kidney Using Nanobore Liquid Chromatography–Tandem Mass Spectrometry
