2005 Fiscal Year Final Research Report Summary
MOLECULAR IDENTIFICATION AND FUNCTIONAL ANALYSIS OF Cl^- CHANNELS CONTRIBUTING OSTEOCLASTIC BONE RESORPTION.
Project/Area Number |
15591988
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Research Category |
Grant-in-Aid for Scientific Research (C)
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Allocation Type | Single-year Grants |
Section | 一般 |
Research Field |
Functional basic dentistry
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Research Institution | Fukuoka Dental College |
Principal Investigator |
OKAMOTO Fujio FUKUOKA DENTAL COLLEGE, FACULTY OF DENTISTRY, LECTURER, 歯学部, 講師 (60153938)
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Co-Investigator(Kenkyū-buntansha) |
OKABE Koji FUKUOKA DENTAL COLLEGE, FACULTY OF DENTISTRY, PROFESSOR, 教授 (80224046)
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Project Period (FY) |
2003 – 2005
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Keywords | BONE RESORPTION / OSTEOCLAST / Cl^- CHANNEL / ANTISENSE / RNAi / ClC-3 KNOCK OUT MICE / ACIDIC ORGANELLE |
Research Abstract |
ClC-7 Cl^- channel expressing in osteoclasts is important for bone resorption since disruption of its gene in mice leads to a severe osteopetrotic phenotype. However, the functional roles and expression of Cl^- channels other than ClC-7 in osteoclasts are still obscure. In this study, we identified the molecular types of Cl^- channels expressing mouse osteoclasts and examined their functional role in bone resorption. 1.Whole-cell patch-clamp recordings showed that Cl^- current recorded from osteoclasts was characterized by outward rectification, rapid activation and time-dependent inactivation, anion permeability (I>Cl^-), and block by DIDS. These properties of the Cl^- current resembled those of ClC-3 rather than ClC-7. Transcripts for ClC-3 as well as ClC-7 were detected in osteoclasts by RT-PCR. Immunocytochemical analysis also showed the presence of ClC-3 protein in osteoclasts. 2.Reduction of ClC-3 expression in osteoclasts by specific antisense oligonucleotide and small interfering
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RNA (siRNA) against ClC-3 demonstrated a significant reduction in bone resorption activity in vitro. In an in vitro, bone resorption activity of osteoclasts derived from ClC-3-deficient (ClC-3 KO) mice was reduced compared with those from wild type (WT) mice. 3.The Cl^- currents in osteoclasts from ClC-3 KO and WT mice were similar in terms of current kinetics (rapid activation and time-dependent inactivation), densities, rectification, and anion permeability. Furthermore, intracellular dialysis of osteoclasts with anti-ClC-3 antibody did not cause detectable change in the amplitude of outwardly rectifying Cl^- current. These results exclude ClC-3 as the channel responsible for the outwardly rectifying Cl^- current in mouse osteoclasts. 4.Using a pH-sensitive dye, acridine orange, we visualized intracellular acidic compartments (organelles) in living osteoclasts. After treatment with antisense to ClC-3, the number of osteoclasts possessing acidic organelles was significantly decreased. Similar effects were also seen with siRNA against ClC-3. Furthermore, we detected an elevation in the organelle pH of ClC-3 KO osteoclasts, using LysoSensor DND-160, which preferentially partitions into acidic organelles. These results suggested that mouse osteoclasts expressed ClC-3 and that ClC-3 as well as ClC-7 contributes to maintaining bone resorption activity in vitro. ClC-3 may act as an intracellular Cl^- channel and contribute to acidification of organelles, which lead to the efficient bone resorption. Less
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Research Products
(2 results)