Potentiel antidiabétique de métabolites de polyphénols : les urolithines

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Résumé

The objective of our thesis was to study the anti-diabetic potential of metabolites of ellagic acid tanins, present notably in pomegranate and nuts, that are formed by the colon microbiote. The metabolites are urolithins A, B, C and D.The first part of thesis is bibliographic and reviews: •The control of glycemic plasma levels, and in particular the role of insulin secretion in this process; • The pathophysiology of Type 2 Diabetes (T2D); •The various polyphenols and their metabolites, along with their potential anti-diabetic activity.The second part describes the effects of urolithins on various experimental models: •On a model of insulin secreting beta cells (the INS-1cell line), urolithins concentration-dependently amplified insulin secretion induced by glucose, but also by insulinotropic drugs used in the treatment of T2D such as a GLP-1 analogue or a sulfonylurea. In addition, urolithins were able to induce insulin secretion on cells rendered unresponsive to glucose by oxidative stress. • The insulinotropic effect of urolithins was also confirmed on isolated rat islets of Langerhans. •As urolithin C appeared to be the most promising antidiabetic compound, we further characterized its activity on an ex vivo model mimicking the physiological situation, the isolated infused pancreas. While urolithin C (20µM) had no effect in the presence of 5 mM glucose concentration, it amplified the stimulation of insulin secretion in the presence of 8.3mM glucose. The effect of urolithin C was also strictly glucose-dependent, as insulin secretion immediately returned to basal level when glucose concentration was switched from 8.3 to 5mM glucose in the presence of urolithin C. •We also conducted studies aiming at designing a validated methodology for rat plasma urolithin C determination using a liquid chromatography-electrospray ionization-tandem mass spectrometry method. The applicability of this assay was demonstrated in a preclinical pharmacokinetic study carried out in rats receiving intraperitoneal administration of urolithin C (10mg/kg). We found that the urolithin C followed a three-compartment model, suggesting a long-term tissue storage of urolithin C.Some other (confidential) results, not described in this abstract, confirmed urolithin C as a potential glucose-dependent insulinotropic treatment for type 2 diabetes.

Mots-clés

Molecular biology, Chemistry, Biology