Ellagitannins (Ellagic Acid, Urolithin A, Urolithin B) Inhibit the Catalytic Activity of Human Recombinant Metalloproteinase 9
Nigar Houssein-Zadeh, Leila Sadeghi, Gholamreza Dehghan

TL;DR
This study shows that ellagitannins and their metabolites can inhibit the activity of the MMP-9 enzyme, which is linked to various diseases.
Contribution
The study reveals the inhibitory effects and mechanisms of ellagitannins and urolithins on human MMP-9 for the first time.
Findings
EA, Uro A, and Uro B inhibited rhMMP-9 with IC50 values of 17.14 µM, 33.29 µM, and 13.17 µM, respectively.
Uro B showed the strongest interaction with MMP-9, with a KD value of 4.3 × 10-5 M.
Molecular docking confirmed the fibronectin domain as a potential drug design site for MMP-9 inhibition.
Abstract
Ellagitannins are well-recognized for their antioxidant, chemopreventive, anti-inflammatory, and neuroprotective efficacy. Due to their poor absorption and extensive catabolism, it is proposed that urolithins, as ellagic acid (EA) metabolites, are the real active molecules exerting these biological functions. This research evaluated the inhibitory effects of EA, urolithin A (Uro A), and urolithin B (Uro B) on the activity of recombinant human matrix metalloproteinase 9 (rhMMP-9). Dysregulation of MMP-9 activity is directly involved in various pathologies; therefore, inhibition of this enzyme has clinical importance. The rhMMP-9 activity was measured by a standard protease assay with casein as the substrate in the presence and absence of natural compounds, and the corresponding kinetic parameters were calculated. Interaction affinity between the enzyme and each of the ellagitannins…
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Taxonomy
TopicsPomegranate: compositions and health benefits · Protease and Inhibitor Mechanisms · Phytase and its Applications
