Jovelyn Du-Quiton scite author profile

Purpose Per2, a core circadian clock gene, has tumor suppressor properties and is mutated or down regulated in human breast cancers. We have manipulated the expression of this gene in vitro and in vivo to more fully understand how the Per2 clock gene product affects cancer growth. Methods We used siRNA and shRNA to down regulate Per2 expression in vitro and in vivo and measured cancer cell proliferation, tumor growth rate and several molecular pathways relevant to cancer growth and their circadian organizations. All statistical tests were two-sided. Results Down regulation of functional Per2 gene expression increases Cyclin D and Cyclin E levels and doubles in vitro breast cancer cell proliferation (P < 0.05). Down regulation of Per2 also accelerates in vivo tumor growth and doubles the daily amplitude of the tumor growth rhythm (P < 0.05). Conclusions The clock gene Per2 exerts its tumor suppressor function in a circadian time dependent manner. Therefore, Per2 and perhaps other clock genes represent a new class of potential therapeutic targets whose manipulation will modulate cancer growth and cancer cell proliferation.

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Circadian clock coordinates cancer cell cycle progression, thymidylate synthase, and 5-fluorouracil therapeutic index

Wood

Du-Quiton

You

et al. 2006

101

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Dysregulated cellular proliferation is a characteristic property of cancer. We show that, despite this fact, cancers maintain high amplitude, circadian rhythms in their growth, DNA synthesis, and mitosis. These patterns are accompanied by the daily traverse of BMAL-1 protein between the cytoplasm, where it is produced, and nucleus, where it influences timing of cancer cell proliferation. This core clock gene product gates cancer cell proliferation by coordinating clock-controlled proteins, thymidylate synthase [thymidylate synthase activity (TSA) cell DNA replication], WEE-1 (cell mitosis), and vascular endothelial growth factor (growth). 5-Fluorouracil (5-FU) -induced host bone marrow and gut toxicity and tumor shrinkage following administration at six equispaced times of day allowed determination of circadian relationships among tumor growth, relevant clock, and clock-controlled proteins and dependence of 5-FU target availability (TSA) in normal and cancer tissues and resultant 5-FU toxic-therapeutic index. The time of day (hours after lights on) of low TSA in each tissue and tumor is respectively associated with greatest toxicity to that tissue and greatest tumor shrinkage. 5-FU treatment near daily awakening results in least damage to bone marrow and gut, greatest antitumor effect, and best survival. This time of day is associated with maximum tumor nuclear BMAL-1 and total cell WEE-1 protein. The described chain of events, for the first time, links cancer cell clock proteins, cancer cell DNA synthesis, proliferation, TSA, and 5-FU toxic-therapeutic index, explaining the dependence of cancer outcome on circadian timing of 5-FU.

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THE CIRCADIAN CLOCK GENEPER1SUPPRESSES CANCER CELL PROLIFERATION AND TUMOR GROWTH AT SPECIFIC TIMES OF DAY

Yang

Wood

Ansell

et al. 2009

Chronobiology International

106

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Cell cycle progression is tightly regulated. The expressions of cell cycle regulators, the products of which either promote or inhibit cell proliferation, oscillate during each cell cycle. Cellular proliferation and the expression of cell cycle regulators are also controlled by the circadian clock. Disruption of the circadian clock may thereby lead to deregulated cell proliferation. Mammalian Per2 is a core clock gene, the product of which suppresses cancer cell proliferation and tumor growth in vivo and in vitro. Because Per1, another key clock gene, is mutated in human breast cancers, and because its clock functions are similar and complementary to those of Per2, we have studied its role in modulating breast cancer cell proliferation and tumor growth. We find that breast cancer growth rate is gated by the circadian clock with two daily peaks and troughs, and that they are coupled to the daily expression patterns of clock-controlled genes that regulate cell proliferation. Down-regulation of the expression of tumor Per1 increases cancer cell growth in vitro and tumor growth in vivo by enhancing the circadian amplitude of the two daily tumor growth peaks. The data of the study suggest Per1 has tumor-suppressor function that diminishes cancer proliferation and tumor growth, but only at specific times of day.

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Daily coordination of cancer growth and circadian clock gene expression

You

Wood

Xiong

et al. 2005

Breast Cancer Res Treat

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We conclude that, if core circadian clock gene expression is essential to gate tumor cell proliferation within each day, then there may be substantial redundancy in this timing system. Alternatively, the daily ordering of tumor cell clock gene expression may not be essential to the daily gating of cancer cell DNA synthesis, mitosis and growth. This would indicate that host central SCN-mediated neuro-humoro-behavioral controls and/or daily light-induced changes in melatonin or peripherally-induced rhythms such as those resulting from feeding, may be adequate for the daily coordination of cancer cell expression of proliferation related therapeutic targets.

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