APA
Santiago Hernandez, Aranzazu & Martinez, Paula J. & Agudiez, Marta & Heredero, Angeles & Gonzalez Calero, Laura & Yuste Montalvo, Alma & Esteban, Vanesa & Aldamiz Echevarria, Gonzalo & Martin Lorenzo, Marta & Alvarez Llamas, Gloria .Metabolic Alterations Identified in Urine, Plasma and Aortic Smooth Muscle Cells Reflect Cardiovascular Risk in Patients with Programmed Coronary Artery Bypass Grafting.
ISO 690
Santiago Hernandez, Aranzazu & Martinez, Paula J. & Agudiez, Marta & Heredero, Angeles & Gonzalez Calero, Laura & Yuste Montalvo, Alma & Esteban, Vanesa & Aldamiz Echevarria, Gonzalo & Martin Lorenzo, Marta & Alvarez Llamas, Gloria. Metabolic Alterations Identified in Urine, Plasma and Aortic Smooth Muscle Cells Reflect Cardiovascular Risk in Patients with Programmed Coronary Artery Bypass Grafting.
https://hdl.handle.net/20.500.12080/25518
Abstract:
Atherosclerosis is the predominant pathology associated to premature deaths due to cardiovascular disease. However, early intervention based on a personalized diagnosis of cardiovascular
risk is very limited. We have previously identified metabolic alterations during atherosclerosis
development in a rabbit model and in subjects suffering from an acute coronary syndrome. Here
we aim to identify specific metabolic signatures which may set the basis for novel tools aiding
cardiovascular risk diagnosis in clinical practice. In a cohort of subjects with programmed coronary
artery bypass grafting (CABG), we have performed liquid chromatography and targeted mass spectrometry analysis in urine and plasma. The role of vascular smooth muscle cells from human aorta
(HA-VSMCs) was also investigated by analyzing the intra and extracellular metabolites in response
to a pro-atherosclerotic stimulus. Statistically significant variation was considered if p value < 0.05
(Mann-Whitney test). Urinary trimethylamine N-oxide (TMAO), arabitol and spermidine showed
higher levels in the CVrisk group compared with a control group; while glutamine and pantothenate showed lower levels. The same trend was found for plasma TMAO and glutamine. Plasma
choline, acetylcholine and valine were also decreased in CVrisk group, while pyruvate was found
increased. In the secretome of HA-VSMCs, TMAO, pantothenate, glycerophosphocholine, glutathion,
spermidine and acetylcholine increased after pro-atherosclerotic stimulus, while secreted glutamine
decreased. At intracellular level, TMAO, pantothenate and glycerophosphocholine increased with
stimulation. Observed metabolic deregulations pointed to an inflammatory response together with a
deregulation of oxidative stress counteraction.
Keywords: cardiovascular risk; atherosclerosis; chronic kidney disease; vascular smooth muscle cells;
oxidative stress; metabolites; metabolomics; biomarkers