Cell cycle-specific growth inhibition of human breast cancer cells induced by metabolic inhibitors

Proliferation of exponentially growing breast cancer cells (lineHs578T) was blocked specifically in G₁ by 3-hydroxy-3-methylglutarylCoenzyme A (HMG CoA) reductase inhibition, as well as by inhibitionof N-linked glycosylation. As a consequence of these inhibitoryconditions, the cells were synchronized in the G₁ stage of thecell cycle. The similarities in the kinetic responses pointto the possibility that the two different types of metabolicinhibitions block cell cycle progression by common mechanisms.One possibility is that the inhibition of HMG CoA reductaseactivity also leads to a depressed rate of N-linked glycosylation,which in turn may constitute the critical event for cell cycleprogression and cell growth. In order to investigate whetherthis relationship exists in breast cancer cells, cells synchronizedin G₁ by mevinolin (an inhibitor of HMG CoA reductase) wereused. Upon addition of mevalonate, whose endogenous synthesisis catalysed by HMG CoA reductase, the cells entered S phaseafter a 4 h pre-replicative period. Mevalonate stimulation alsoled to a rapid and substantial increase in N-linked glycosylation,measured by determining the uptake of radioactive glucosamine.This metabolic event was found to be of critical importancefor the initiation of DNA synthesis. However, as soon as thecells had entered S phase, they were independent of the levelof N-linked glycosylation. breast cancer cells glycosylation HMG CoA reductase