4.7 Article

The Inhibition of the Inducible Nitric Oxide Synthase Enhances the DPSC Mineralization under LPS-Induced Inflammation

Journal

Publisher

MDPI
DOI: 10.3390/ijms232314560

Keywords

dental pulp stem cells; differentiation; inducible Nitric Oxide Synthase; inflammation; LPS; mineralization; nitric oxide; inhibitors; CD73; IL-6; VEGF

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Nitric oxide plays a key role in physiological and pathological processes in mammals, and excessive production is associated with inflammation. Dental pulp inflammation caused by pathogenic bacteria may affect the functions of dental pulp stem cells. Inhibiting nitric oxide production could be a new strategy for treating inflammation and promoting the regeneration of the dentin-pulp complex. This study evaluated two acetamidines related to a selective inhibitor of nitric oxide, and the results showed that they have potential as anti-inflammatory compounds while retaining the mineralization and angiogenic potential of cells.
Nitric oxide (NO) is a key messenger in physiological and pathological processes in mammals. An excessive NO production is associated with pathological conditions underlying the inflammation response as a trigger. Among others, dental pulp inflammation results from the invasion of dentin by pathogenic bacteria. Vital functions of pulp mesenchymal stem cells (DPSCs, dental pulp stem cells), such as mineralization, might be affected by the inducible NOS (iNOS) upregulation. In this context, the iNOS selective inhibition can be considered an innovative therapeutic strategy to counteract inflammation and to promote the regeneration of the dentin-pulp complex. The present work aims at evaluating two acetamidines structurally related to the selective iNOS inhibitor 1400W, namely CM544 and FAB1020, in a model of LPS-stimulated primary DPSCs. Our data reveal that CM544 and even more FAB1020 are promising anti-inflammatory compounds, decreasing IL-6 secretion by enhancing CD73 expression-levels, a protein involved in innate immunity processes and thus confirming an immunomodulatory role of DPSCs. In parallel, cell mineralization potential is retained in the presence of compounds as well as VEGF secretion, and thus their angiogenetic potential. Data presented lay the ground for further investigation on the anti-inflammatory potential of acetamidines selectively targeting iNOS in a clinical context.

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