Cholesterol biosynthesis and homeostasis in regulation of the cell cycle

The cell cycle is a ubiquitous, multi-step process that is essential for growth and proliferation of cells. The role of membrane lipids in cell cycle regulation is not explored well, although a large number of cytoplasmic and nuclear regulators have been identified. We focus in this work on the role...

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Bibliographic Details
Published in:PloS one 2013-03, Vol.8 (3), p.e58833-e58833
Main Authors: Singh, Pushpendra, Saxena, Roopali, Srinivas, Gunda, Pande, Gopal, Chattopadhyay, Amitabha
Format: Article
Language:English
Subjects:
Animals
Antilipemic agents
Biology
Biosynthesis
Cancer
Cell cycle
Cell Cycle - drug effects
Cell Cycle - physiology
Cell growth
Cell Line
Cell proliferation
Cell Size
Cholesterol
Cholesterol - biosynthesis
Councils
Deoxyribonucleic acid
DNA
Enzymes
G1 phase
G1 Phase Cell Cycle Checkpoints - drug effects
Homeostasis
Homeostasis - drug effects
Inhibitors
Kinases
Lipid Metabolism - drug effects
Lipids
Lovastatin - pharmacology
Membrane lipids
Molecular biology
Rats
Regulations
Replenishment
Reversing
S phase
Statins
Sterols
Triparanol - pharmacology
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Summary:The cell cycle is a ubiquitous, multi-step process that is essential for growth and proliferation of cells. The role of membrane lipids in cell cycle regulation is not explored well, although a large number of cytoplasmic and nuclear regulators have been identified. We focus in this work on the role of membrane cholesterol in cell cycle regulation. In particular, we have explored the stringency of the requirement of cholesterol in the regulation of cell cycle progression. For this purpose, we utilized distal and proximal inhibitors of cholesterol biosynthesis, and monitored their effect on cell cycle progression. We show that cholesterol content increases in S phase and inhibition of cholesterol biosynthesis results in cell cycle arrest in G1 phase under certain conditions. Interestingly, G1 arrest mediated by cholesterol biosynthesis inhibitors could be reversed upon metabolic replenishment of cholesterol. Importantly, our results show that the requirement of cholesterol for G1 to S transition is absolute, and even immediate biosynthetic precursors of cholesterol, differing with cholesterol merely in a double bond, could not replace cholesterol for reversing the cell cycle arrest. These results are useful in the context of diseases, such as cancer and Alzheimer's disease, that are associated with impaired cholesterol biosynthesis and homeostasis.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0058833