{Reference Type}: Journal Article
{Title}: Probing dietary triacylglycerol metabolism and meibogenesis in mice: A stable isotope-labeled tracer liquid chromatography-tandem mass spectrometry study.
{Author}: Butovich IA;Yuksel S;Wilkerson A;
{Journal}: J Biol Chem
{Volume}: 299
{Issue}: 4
{Year}: 04 2023 22
暂无{DOI}: 10.1016/j.jbc.2023.103046
{Abstract}: Exocrine meibomian glands (MGs) play a central role in the ocular physiology and biochemistry by producing in situ and, mostly, de novo a secretion (meibum), which is composed of a complex mixture of homologous lipids of various classes, in a metabolic pathway termed meibogenesis. Recent in vivo experiments with a number of mouse models demonstrated that inactivation of any of the major genes of meibogenesis led to alterations in the lipid composition of meibum and severe ocular and MG abnormalities that replicated various human ocular pathologies. However, the role of dietary lipids in meibogenesis, and in the onset and/or alleviation of these diseases, remains controversial. To uncover the role of dietary lipids, the metabolic transformations of a dietary lipid tracer-stable isotope-labeled glyceryl tri(oleate-1,2,3,7,8-13C5) (13C15-TO)-were investigated using liquid chromatography-high-resolution mass spectrometry. We demonstrated that major metabolic transformations of the tracer occurred in the stomach and small intestines where 13C15-TO underwent immediate and extensive transesterification into 13C5- and 13C10-substituted triacylglycerols of various lengths, giving a mixture of 13C-labeled compounds that remain virtually unchanged in the mouse plasma, liver, and white adipose tissue but were almost undetectable in the feces. Importantly, the tracer and its metabolites were virtually undetectable in MGs, even after 4 weeks of daily supplementation. Notably, unbiased principal component analysis of the data revealed no measurable changes in the overall chemical composition of meibum after the treatment, which implies no direct effect of dietary triacylglycerols on meibogenesis, and left their systemic effects as the most likely mechanism.