Merck Research Laboratories, Rahway, NJ, USA.
Rapid Commun Mass Spectrom. 2014 Feb 15;28(3):239-44. doi: 10.1002/rcm.6776.
The ability to measure low levels of (2)H-labeling is important in studies of metabolic flux, e.g. one can estimate lipid synthesis by administering (2)H2O and then measuring the incorporation of (2)H into fatty acids. Unfortunately, the analyses are complicated by the presence of more abundant naturally occurring stable isotopes, e.g. (13)C. Conventional approaches rely on coupling gas chromatographic separation of lipids with either quadrupole-mass spectrometry (q-MS) and/or pyrolysis-isotope ratio mass spectrometry (IRMS). The former is limited by high background labeling (primarily from (13)C) whereas the latter is not suitable for routine high-throughput analyses.
We have contrasted the use of continuous flow-pyrolysis-IRMS against high-resolution mass spectrometry (i.e. Qq-FT-ICR MS) for measuring the (2)H-enrichment of fatty acids and peptides.
In contrast to IRMS, which requires ~30 min per analysis, it is possible to measure the (2)H-enrichment of palmitate via direct infusion high-resolution mass spectrometry (HRMS) in ~3 min per sample. In addition, Qq-FT-ICR MS enabled measurements of the (2)H-enrichment of peptides (which is not possible using IRMS).
High-resolution mass spectrometry can be used to measure low levels of (2)H-labeling so we expect that this approach will enhance studies of metabolic flux that rely on (2)H-labeled tracers, e.g. (2)H2O. However, since the high-resolution analyses require greater amounts of a given analyte one potential limitation centers on the overall sensitivity. Presumably, future advances can overcome this barrier.
能够测量低水平的(2)H 标记对于代谢通量的研究非常重要,例如,可以通过给予(2)H2O 并测量(2)H 掺入脂肪酸来估计脂质合成。不幸的是,由于存在更丰富的天然存在的稳定同位素,例如(13)C,分析变得复杂。传统方法依赖于气相色谱法分离脂质,然后与四极杆质谱法(q-MS)和/或热解-同位素比质谱法(IRMS)相结合。前者受到高背景标记(主要来自(13)C)的限制,而后者不适合常规高通量分析。
我们对比了连续流动-热解-IRMS 与高分辨率质谱(即 Qq-FT-ICR MS)在测量脂肪酸和肽的(2)H 丰度方面的应用。
与需要约 30 分钟/分析的 IRMS 相比,通过直接进样高分辨率质谱(HRMS)可以在每个样品约 3 分钟内测量棕榈酸的(2)H 丰度。此外,Qq-FT-ICR MS 可以测量肽的(2)H 丰度(IRMS 无法测量)。
高分辨率质谱可用于测量低水平的(2)H 标记,因此我们预计这种方法将增强依赖(2)H 标记示踪剂(例如(2)H2O)的代谢通量研究。然而,由于高分辨率分析需要更多数量的给定分析物,一个潜在的限制因素集中在整体灵敏度上。可以推测,未来的进展可以克服这一障碍。
