Abstract
To investigate additional factors contributing to the pathophysiology of chemotherapy-induced oral mucositis and periodontitis beyond the systemic immune suppression caused by the chemotherapeutic agent 5-Fluorouracil (5-FU). 5-Fluorouracil was topically delivered to the non-keratinized, rapidly proliferating junctional epithelium (JE) surrounding the dentition, and acts as an immunologic and functional barrier to bacterial ingression. Various techniques, including EdU incorporation, quantitative immunohistochemistry (qIHC), histology, enzymatic activity assays, and micro-computed tomographic (μCT) imaging, were employed to analyze the JE at multiple time points following topical 5-FU treatment. Systemic 5-FU delivery was used for comparison, and all 5-FU treated tissues were compared to vehicle-treated controls. We first showed that systemic 5-FU blocked mitotic activity that rapidly led to JE atrophy. This atrophy was accompanied by suppression of the immune system. We then demonstrated that topical 5-FU delivery effectively inhibited cell proliferation in the JE. Quantitative immunohistochemical (qIHC) analyses further demonstrated a progressive breakdown in JE barrier functions following topical 5-FU. CBC analyses confirmed that topical 5-FU did not alter the innate immune system but did suppress the local immune response of the JE. The longer-term consequences of this disruption in JE barrier functions were significant alveolar bone loss and an increase in porosity. Together, these results document the essential requirement for rapid JE cell proliferation to maintain homeostasis of the periodontium. The reduction of cell division in the JE due to 5-FU treatment directly compromises both its structural integrity and immune surveillance capabilities, contributing to the destruction of periodontal hard tissues.
Published Version
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