Cholesterol Biosynthesis and Homeostasis in Regulation of the Cell Cycle

Pushpendra Singh,Gunda Srinivas,Amitabha Chattopadhyay,Roopali Saxena,Gopal Pande,Michael Koval

doi:10.1371/journal.pone.0058833

Pushpendra Singh, Gunda Srinivas + Show 4 more

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https://doi.org/10.1371/journal.pone.0058833

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Abstract

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.

Highlights

The cell cycle represents an ordered series of events that continuously occur in all living cells that comprise multicellular organisms and undergo multiplication
Our results show that cholesterol content increases in S phase and inhibition of cholesterol biosynthesis by triparanol or lovastatin results in cell cycle arrest in G1 phase
We explored the role of cholesterol biosynthesis and homeostasis in the regulation of cell cycle progression by employing proximal and distal inhibitors of cholesterol biosynthesis

Summary

Introduction

The cell cycle represents an ordered series of events that continuously occur in all living cells that comprise multicellular organisms and undergo multiplication. Most cells multiply by mitotic division which is represented by the M phase in the cell cycle. Cells prepare for DNA synthesis in G1 phase, increase their DNA content from 2N to 4N in S phase and prepare for mitosis with double the normal DNA content per cell in G2 phase [1] For example cholesterol biosynthesis has been shown to be necessary for growth and division of mammalian cells [2,3,4] but its role in regulation of cell cycle progression is not yet clearly understood

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