Identificador: TDX:3852
Autors: Hernandez Baixauli, Julia
Resum:
Non-communicable diseases, such as obesity, metabolic syndrome, cardiovascular diseases, cancer and neurodegenerative diseases, are considered multifactorial diseases. For this reason, it has been proposed that the occurrence of these diseases is due to an imbalance of overarching processes (i.e., metabolic, inflammatory, oxidative, and psychological stress). Monitoring these overarching processes opens the door to the possibility of modulating them, and thus preventing the occurrence of different process through the design of more precise personalised interventions or treatments. However, current biomarkers of disease cannot assess early alterations that could lead to the development of disease, highlighting the need to define new biomarkers. Thus, the present work presents a characteristic metabolic signature for the detection of specific processes using omic technologies: carbohydrate dysfunction, hyperlipidaemia, hypertension and intestinal dysbiosis, as representative of metabolic stress; inflammatory stress; oxidative stress and psychological stress. For this purpose, different animal models have been developed and the metabolic profile in plasma and urine has been evaluated in the different risk factors of interest. The results indicated that lipids and TCA cycle intermediates are the most promising metabolites of the metabolic profile. In all the risk factors, diacylglycerols (DG) are the lipidic biomarker with the greatest impact on metabolic profiles: specifically, DG 36:4 and DG 34:2 linking risk factors to arachidonic acid metabolism. In inflammation, oxidative and psychological stress, the other protagonist is the TCA cycle due to its multiple roles in mitochondrial metabolism: being alpha-ketoglutarate one of the most promising intermediate. In consequence, the presented metabolic profile is a potential tool for the monitoring of risk factors and could open a window to target the onset of diseases and try to prevent and treat them.
Repositori URV