• 제목/요약/키워드: mPer Mutant Mice

검색결과 4건 처리시간 0.022초

Differential Effects of Two Period Genes on the Physiology and Proteomic Profiles of Mouse Anterior Tibialis Muscles

  • Bae, Kiho;Lee, Kisoo;Seo, Younguk;Lee, Haesang;Kim, Dongyong;Choi, Inho
    • Molecules and Cells
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    • 제22권3호
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    • pp.275-284
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    • 2006
  • The molecular components that generate and maintain circadian rhythms of physiology and behavior in mammals are present both in the brain (suprachiasmatic nucleus; SCN) and in peripheral tissues. Examination of mice with targeted disruptions of either mPer1 or mPer2 has shown that these two genes have key roles in the SCN circadian clock. Here we show that loss of the clock gene mPer2 affects forced locomotor performance in mice without altering muscle contractility. A proteomic analysis revealed that the anterior tibialis muscles of the mPer2 knockout mice had higher levels of glycolytic enzymes such as triose phosphate isomerase and enolase than those of either the wild type or mPer1 knockout mice. In addition, the level of expression of HSP90 in the mPer2 mutant mice was also significantly higher than in wildtype mice. These results suggest that the reduced locomotor endurance of the mPer2 knockout mice reflects a greater dependence on anaerobic metabolism under stress conditions, and that the two canonical clock genes, mPer1 and mPer2, play distinct roles in the physiology of skeletal muscle.

Proteomic Analysis of Circadian Clock Mutant Mice

  • Lee Joon-Woo;Kim Han-Gyu;Bae Kiho
    • 대한의생명과학회지
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    • 제11권4호
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    • pp.493-501
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    • 2005
  • Circadian rhythms, time on a scale of about 24 hours, are present in a number of organisms including animals, plants, and bacteria. The control of the biochemical, physiological and behavioral processes is regulated by endogenous clocks in the suprachiasmatic nucleus (SCN). At the core of this timing mechanism is molecular machinery that are present both in the brain and in the peripheral tissues throughout the body, and even in a single cultured cell. In this study, we performed two-dimensional gel electrophoresis to figure out any correlation between protein expression patterns and the requirement of two canonical clock proteins, either mPER1 or mPER2, by comparing global protein expression profiles in livers from wildtype or mPer1/mPer2 double mutant mice. We could identify several differentially expressed protein candidates with respect to time and genotypes. Further analysis of these candidate proteins in detail in vivo will lead us to the better understanding of how circadian clock functions in mammals.

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Ozone Inhalation with 4-(N-methyl-N-nitrosamino)-1-(3-pyridyl)- 1-butanone and/or Dibutyl Phthalate Induced Cell Cycle Alterations via Wild-type p53 Instability in B6C3F1 Mice

  • Kim, Min-Young;Song, Kyung-Suk;Park, Gun-Ho;Kim, Hyun-Woo;Park, Jin-Hong;Kim, Jun-Sung;Jin, Hwa;Kook-Jong, Eu;Cho, Hyun-Sun
    • Toxicological Research
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    • 제20권1호
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    • pp.71-82
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    • 2004
  • Changes in cell cycle control in the lungs and liver of the B6C3F1 mice (20 males per each group) exposed to ozone (0.5 ppm), 4-(N-methyl-N-nitrosamino)-1-(3-pyridyl)-1-butanone (NNK, 1.0 mg/kg), and dibutyl phthalate (DBP, 5,000 ppm) after 52 weeks were examined through Western, Northern blot, and immunohistochemistry based on alterations in protein expression levels of G1/S checkpoints (cyclin D1, cyclin E, and PCNA), G2/M checkpoints (cyclin B1, cyclin G, and cyclin A), negative regulators (p53, p21, GADD45, and p27), and positive regulator (mdm2). Expression levels of cyclins D1, E, G, PCNA, mutant p53, and mdm2 proteins were higher in the lungs and livers treated with combination of toxicants than in those treated with ozone only. Expression levels of the wild-type and mutant p53, p21, GADD45, p27, and mdm2 proteins and mRNAs were higher in toxicant-treated groups than those of the control. Immunohistochemical analysis revealed staining intensities of the PCNA, cyclin D1, c-myc and mdm2 protein- treated lungs and livers were stronger than those of the control group. Our results showed that combined treatment of ozone with NNK/DBP altered the cell cycle control through instability of the wild-type p53 gene. Such pivotal p53-mediated cell cycle alterations may be responsible for the toxicity observed under our experimental condition. These results may be applied to risk assessment of mixture-induced toxicity.

이종이식된 인체 편평상피세포암에 대한 종양괴사인자의 방사선감작효과에 대한 연구 (The Radiation Sensitizer Effect of $TNF-{\alpha}$ on Heterotransplanted Human Squamous Cell Carcinoma)

  • 정필상;김한균;윤형근
    • 대한두경부종양학회지
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    • 제14권2호
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    • pp.151-155
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    • 1998
  • Background and Objectives: Numerous studies were conducted to develop radiosensitizers to increase antitumor effect and decrease systemic toxicity of ionizing radiation. In current study, the authors tested the synergistic effect of mutant $TNF-{\alpha}(M_3S)$ with radiation therapy on heterotransplanted hypoparyngeal squamous cell carcinoma. Materials and Method: SNU-1041 cell line was heterotransplanted to nude mice. When the tumors grew up to $70mm^3$ or more, the animals were randomly placed into 4 groups(n=10/group). Group I : 0.1ml of normal saline injected intraperitoneally once a day for 5 days. Group II : 10ug of $TNF-{\alpha}$ injected intraperitoneally once a day for 5 days. Group III : a single radiation dose of 10 Gy per animal delivered. Group IV : single radiation dose of 10 Gy was delivered 1 hour after intraperitoneal injection of $TNF-{\alpha}$ 10 ug. Results: Four weeks after treatment, group IV showed the least tumor growth during the 4 weeks follow up and the relative tumor growth rate(RTG) of each groups after 4 weeks were 31, 5.8, 10, and 3.2 respectively(p<0.05). Conclusion: These study suggests that pretreatment with $TNF-{\alpha}$ can significantly enhance the effects of radiation therapy and further studies may be needed for clinical trials of combination treatment of $TNF-{\alpha}$ and radiation.

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