Circadian Gating of the Mammalian Cell Cycle Restriction Point: A Mathematical Analysis

Author

Jing Su ; Henson, Michael A.

Author_Institution

Dept. of Diagnostic Radiol., Wake Forest Sch. of Med., Wake Forest, NC, USA

Volume

1

Issue

1

fYear

2015

fDate

Jun-15

Firstpage

11

Lastpage

14

Abstract

A critical decision in the mammalian cell cycle is whether to pass through the restriction point (R-point) or enter the cell cycle. In this letter, we modeled the decision-making system of the mammalian cell cycle entry and the simulated circadian regulation of the R-point driven by external epithelial growth factor (EGF) patterns. Our conceptual model replicated key signaling behaviors observed experimentally, suggesting that the proposed network captured the essential system features. The model revealed the dramatic importance of the EGF dynamics on promoting cell proliferation, showed that the EGF signal duration was more important than the signal strength for driving cells past the R-point, and suggested that the loss of circadian control of the cell cycle entry could be associated with cancer development.

Keywords

cancer; cellular biophysics; circadian rhythms; decision making; EGF dynamics; EGF signal; R-point; cancer development; cell proliferation; circadian control; circadian gating; decision-making system; external epithelial growth factor patterns; mammalian cell cycle entry; mammalian cell cycle restriction point; mathematical analysis; signal strength; signaling behavior; simulated circadian regulation; Biological system modeling; Chemical engineering; Clocks; Computational modeling; Epidermis; Mathematical model; Medical diagnostic imaging; Cancer; circadian rhythm; systems biology;

fLanguage

English

Journal_Title

Life Sciences Letters, IEEE

Publisher

ieee

Type

jour

DOI

10.1109/LLS.2015.2449511

Filename

7155528