Michael Wolf1, Jana Marciniak2, Stefan Lossdörfer3, Christian Kirschneck4, Isabel Brauner5, Werner Götz3, Andreas Jäger3. 1. Department of Orthodontics, University Hospital of the RWTH Aachen, Germany. Electronic address: michwolf@ukaachen.de. 2. Department of Orthodontics, University Hospital of the RWTH Aachen, Germany; Department of Orthodontics, Dental Clinic, University of Bonn, Germany. 3. Department of Orthodontics, Dental Clinic, University of Bonn, Germany. 4. Department of Orthodontics, Dental Clinic, University of Regensburg, Germany. 5. Department of Orthodontics, University Hospital of the RWTH Aachen, Germany.
Abstract
OBJECTIVE: Heat pre-treatment of mechanically loaded human periodontal ligament cells (hPDL) dampens the inflammatory cellular response, as evidenced by a reduced expression of pro-inflammatory cytokines, inhibition of monocyte adhesion and osteoclastic differentiation. These findings imply heat shock proteins (HSP) as cell protective molecules acting in the PDL that are up-regulated upon ischemia caused by mechanical loading. HSP70 and its inhibition by VER155008 as the active agent in several pharmaceuticals are established targets and strategies, respectively, in the treatment of neoproliferative diseases. However, the effect of both players on periodontal remodeling in unknown. Therefore, we analyzed the role of HSP70 and its frequently used inhibitor VER155008 in the regulation of physiological hPDL cell functions and immune cell interaction. MATERIALS AND METHODS: Fifth passage hPDL cells were cultured in the presence of 25μm HSP70 inactivating agent VER155008. At harvest, HSP70 expression, cell proliferation, and parameters of cell interaction, colony formation and wound healing were analyzed by means of real-time PCR, immunohistochemistry, Western blot, biochemical MTS assay, microscopy, and functional assays for monocyte adhesion and differentiation. RESULTS: Basal HSP70 expression and hPDL cell morphology were not affected by HSP70 inhibitor VER155008. In contrast, cell proliferation, tissue defect healing, and colony formation were reduced significantly following HSP70 inhibition, whereas apoptosis and necrosis, monocyte adhesion and osteoclastic differentiation were markedly increased. CONCLUSIONS: The present data indicate a regulatory role for HSP70 protein in hPDL cell biology. CLINICAL RELEVANCE: These findings identify HSP70 as a promising target in the attempt to modify periodontal remodeling and point to potential periodontal side effects of HSP70 pharmaceutical usage.
OBJECTIVE: Heat pre-treatment of mechanically loaded human periodontal ligament cells (hPDL) dampens the inflammatory cellular response, as evidenced by a reduced expression of pro-inflammatory cytokines, inhibition of monocyte adhesion and osteoclastic differentiation. These findings imply heat shock proteins (HSP) as cell protective molecules acting in the PDL that are up-regulated upon ischemia caused by mechanical loading. HSP70 and its inhibition by VER155008 as the active agent in several pharmaceuticals are established targets and strategies, respectively, in the treatment of neoproliferative diseases. However, the effect of both players on periodontal remodeling in unknown. Therefore, we analyzed the role of HSP70 and its frequently used inhibitor VER155008 in the regulation of physiological hPDL cell functions and immune cell interaction. MATERIALS AND METHODS: Fifth passage hPDL cells were cultured in the presence of 25μm HSP70 inactivating agent VER155008. At harvest, HSP70 expression, cell proliferation, and parameters of cell interaction, colony formation and wound healing were analyzed by means of real-time PCR, immunohistochemistry, Western blot, biochemical MTS assay, microscopy, and functional assays for monocyte adhesion and differentiation. RESULTS: Basal HSP70 expression and hPDL cell morphology were not affected by HSP70 inhibitor VER155008. In contrast, cell proliferation, tissue defect healing, and colony formation were reduced significantly following HSP70 inhibition, whereas apoptosis and necrosis, monocyte adhesion and osteoclastic differentiation were markedly increased. CONCLUSIONS: The present data indicate a regulatory role for HSP70 protein in hPDL cell biology. CLINICAL RELEVANCE: These findings identify HSP70 as a promising target in the attempt to modify periodontal remodeling and point to potential periodontal side effects of HSP70 pharmaceutical usage.
Authors: Julia Brockhaus; Rogerio B Craveiro; Irma Azraq; Christian Niederau; Sarah K Schröder; Ralf Weiskirchen; Joachim Jankowski; Michael Wolf Journal: Biomolecules Date: 2021-06-23