Modulation of Circadian Rhythm of DNA Synthesis in Tumor Cells by Inhibiting Platelet-Derived Growth Factor Signaling
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概要
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Circadian synchronization of cell proliferation is observed not only in normal healthy tissues but also in malignant solid tumors. However, the proliferation rhythm of tumor cells is often different from that of normal cells. We reported here that the peculiar rhythm of tumor cell proliferation was modulated by inhibition of platelet-derived growth factor (PDGF) signaling. DNA synthesis in tumor cells implanted in mice showed a 24-h oscillation apparently differing from that of normal bone marrow cells. Continuous administration of AG1295 (10 μg/h, s.c.), a PDGF receptor tyrosine kinase inhibitor, substantially suppressed DNA synthesis in the implanted tumor cells but not in the healthy bone marrow cells. During the administration of this drug, the rhythm of DNA synthesis in the tumor cells was synchronized with that in bone marrow cells. The present results suggest that the circadian rhythm of DNA synthesis in tumor cells is modulated by PDGF receptor signaling, which is activated following tumor progression. Because the rhythmic patterns of clock gene expression in tumor cells did not differ significantly from those in other healthy tissues, the enhanced signal transduction of PDGF receptor may cause an alteration in the rhythmicity of tumor cell proliferation without changing in the intracellular molecular clockwork.
- 社団法人 日本薬理学会の論文
- 2008-08-20
著者
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Nakagawa Hiroo
Pharmaceutics Division Of Clinical Pharmacy Department Of Medico-pharmaceutical Science Faculty Of P
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KOYANAGI Satoru
Pharmaceutics, Division of Clinical Pharmacy, Department of Medico-Pharmaceutical Sciences, Faculty
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OHDO Shigehiro
Pharmaceutics, Division of Clinical Pharmacy, Department of Medico-Pharmaceutical Sciences, Faculty
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KURAMOTO Yukako
Department of Biochemistry, Faculty of Pharmaceutical Sciences, Fukuoka University
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YOSHIZUMI Akiko
Department of Biochemistry, Faculty of Pharmaceutical Sciences, Fukuoka University
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MATSUNAGA Naoya
Pharmaceutics, Division of Clinical Pharmacy, Department of Medico-Pharmaceutical Science, Faculty o
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SHIMENO Hiroshi
Department of Biochemistry, Faculty of Pharmaceutical Sciences, Fukuoka University
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SOEDA Shinji
Department of Biochemistry, Faculty of Pharmaceutical Sciences, Fukuoka University
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Soeda Shinji
Department Of Biochemistry Faculty Of Pharmaceutical Sciences Fukuoka University
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Ohdo Shigehiro
Pharmaceutics Div. Of Clinical Pharmacy Dep. Of Medico-pharmaceutical Sciences Fac. Of Pharmaceutica
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Ohdo Shigehiro
Pharmaceutics Division Of Clinical Pharmacy Department Of Medico-pharmaceutical Science Faculty Of P
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Ohdo Shigehiro
Department Of Pharmaceutics Division Of Pharmaceutical Science Graduate School Kyushu University
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Koyanagi Satoru
Department Of Pharmaceutics Division Of Pharmaceutical Science Graduate School Kyushu University
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Yoshizumi Akiko
Department Of Biochemistry Faculty Of Pharmaceutical Sciences Fukuoka University
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Kuramoto Yukako
Department Of Biochemistry Faculty Of Pharmaceutical Sciences Fukuoka University
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Shimeno Hiroshi
Department Of Biochemistry Faculty Of Pharmaceutical Sciences Fukuoka University
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Koyanagi Satoru
Pharmaceutics Division Of Clinical Pharmacy Department Of Medico-pharmaceutical Science Faculty Of P
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Matsunaga Naoya
Department Of Pharmaceutics Graduate School Of Pharmaceutical Sciences Kyushu University
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