Abstract
Stable isotope techniques serve as invaluable tools for kinetic measurements in metabolic research. In particular, deuterated water (D(2)O) administration is increasingly being applied in human health research. For use in protein kinetic studies, this includes measurements on gas chromatography-mass spectrometry (GC-MS) analysis of alanine (ALA) and deuterium-labeled alanines (d-ALAs) coming from D(2)O administration. However, the choice of the derivative of ALA and d-ALAs used in such analyses has not been evaluated thoroughly. Hence, we conducted a comprehensive head-to-head comparison to determine the most effective and reliable derivative. Two derivatization reagents, N,N-dimethylformamide dimethyl acetal (methyl-8 reagent) and N-methyl-N-tert-butyldimethylsilyltrifluoroacetamide (MtBSTFA), were considered as candidates. Using chemical standards and available rodent muscle tissue, both reagents underwent testing, including the standard curve linear regression fit, sensitivity, reproducibility, and, importantly, column effectiveness. Our findings indicate that both reagents were suitable for ALA/d-ALAs analyses. However, the MtBSTFA derivative exhibited a better linear regression fit, higher sensitivity, and greater reproducibility than methyl-8. More importantly, the methyl-8 derivative resulted in severe column damage. In conclusion, our study highlights the MtBSTFA derivative as a preferred choice for ALA and d-ALAs GC-MS analysis, contributing to a reliable and sensitive analytical method for D(2)O administration studies for measurements of in vivo metabolic rates.