Novel biological activity of ameloblastin in enamel matrix derivative
AUTOR(ES)
KURAMITSU-FUJIMOTO, Sachiko, ARIYOSHI, Wataru, SAITO, Noriko, OKINAGA, Toshinori, KAMO, Masaharu, ISHISAKI, Akira, TAKATA, Takashi, YAMAGUCHI, Kazunori, NISHIHARA, Tatsuji
FONTE
J. Appl. Oral Sci.
DATA DE PUBLICAÇÃO
2015-02
RESUMO
Objective Enamel matrix derivative (EMD) is used clinically to promote periodontal tissue regeneration. However, the effects of EMD on gingival epithelial cells during regeneration of periodontal tissues are unclear. In this in vitro study, we purified ameloblastin from EMD and investigated its biological effects on epithelial cells. Material and Methods Bioactive fractions were purified from EMD by reversed-phase high-performance liquid chromatography using hydrophobic support with a C18 column. The mouse gingival epithelial cell line GE-1 and human oral squamous cell carcinoma line SCC-25 were treated with purified EMD fraction, and cell survival was assessed with a WST-1 assay. To identify the proteins in bioactive fractions of EMD, we used proteome analysis with two-dimensional gel electrophoresis followed by identification with liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis. Results Purified fractions from EMD suppressed proliferation of GE-1 and SCC-25. LC-MS/MS revealed that ameloblastin in EMD is the component responsible for inhibiting epithelial cell proliferation. The inhibitory effect of ameloblastin on the proliferation of GE-1 and SCC-25 was confirmed using recombinant protein. Conclusion The inhibitory effects of EMD on epithelial cell proliferation are caused by the biological activities of ameloblastin, which suggests that ameloblastin is involved in regulating epithelial downgrowth in periodontal tissues.
Documentos Relacionados
- Use of enamel matrix protein derivative with minimally invasive surgical approach in intra-bony periodontal defects: clinical and patient-centered outcomes
- In vitro activity and spectrum of LY333328, a novel glycopeptide derivative.
- In Vitro and in Vivo Anti-Trypanosoma cruzi Activity of a Novel Nitro-derivative
- Assessment of anti-diabetic activity of a novel hydrazine-thiazole derivative: in vitro and in vivo method
- In vitro re-hardening of artificial enamel caries lesions using enamel matrix proteins or self-assembling peptides