Modulation of cellular circadian clocks by triterpenoids

Many living organisms on earth have clock systems in their body. It has increasingly become clear that a disturbance in the internal clocks has negative effects on our body. Terpenes are organic compounds found in various plants that are reported to have several pharmacological actions. In this study, we focused on commercially available 27 triterpenoids and evaluated their influence on the circadian rhythm of human U2OS cells and mouse NIH3T3 cells. The expression level of Per2, one of the core clock genes, was measured using luminescent reporters over the time period of a few days. We found that 8 triterpenoids reset the phase of the circadian clocks. Representative compounds were corosolic acid, cucurbitacin B, and celastrol; similar effects were also confirmed with some structural analogues of cucurbitacin B and celastrol. These compounds shifted the phase bilaterally depending on the stimulus timing and also acted as synchronizers in desynchronized cells. The effective concentrations of cucurbitacin B and celastrol were less than 0.5 mu M. In addition, cucurbitacin B and celastml were also found to be effective in tissue explants in mice. Furthermore, celastrol dose-dependently shortened the period length of NIH3T3 cells. Some of these compounds are found in edible and medicinal plants and may help regulate our circadian clocks in everyday life.

Automated summary

The study found that some triterpenoids can reset the phase of circadian clocks, including corosolic acid, cucurbitacin B, and celastrol. These compounds can not only shift the phase bilaterally, but also act as synchronizers in desynchronized cells. Additionally, they have been shown to be effective in tissue explants in mice and can shorten the period length of cells, potentially helping regulate circadian clocks in daily life.