Clockwork under the microscope

January 16, 2018

How does the honeybee manage to visit the flowers that bloom exactly at the right time? How do bees find their way back to the hive even when the sun, which they use as reference point, has changed its position in the sky? How do they communicate this information to other bees? And which molecular processes control this behaviour and in which anatomical structures do they take place?

Chronobiology is the discipline that examines these and other questions about the circadian clocks of all living organisms from protozoans to humans. Professor Charlotte Helfrich-Förster is an expert in this discipline at the University of Würzburg. She holds the Chair of Neurobiology and Genetics and does research at the Biocenter with a focus on the circadian rhythms of insects. Now she and her team have uncovered new details of these processes in the honeybee. The scientists published their findings in the journal Open Biology of the Royal Society.

Tracking down a peptide

"In our current study, we focused on the concentration of a specific peptide in the bee's central nervous system," Charlotte Helfrich-Förster explains. This peptide is called "pigment-dispersing factor" or short PDF in scientific language. It has been known to play a central role in the circadian clocks of insects for some time. Previous measurements also revealed that special nerve cells, the so-called clock neurons, produce PDF.

Helfrich-Förster with fellow researchers from the universities in Regensburg and Jerusalem have now scrutinized these nerve cells more closely. Their goal was to analyse the neuronal processes and anatomical structures of the circadian clock in detail. For this purpose, the scientists used high-resolution images of the bee's central nervous system combined with a continuous measurement of the local PDF concentration throughout the day and subsequent analysis. Additionally, the researchers administered artificial PDF peptides to the bees and studied the consequences.

Anatomical bridge in the clock network

Charlotte Helfrich-Förster sums up the central findings of these experiments as follows: "Our analyses show that PDF neurons head for brain areas that are essential for learning, memory and orientation to the sun. The concentration of the PDF proteins is subject to considerable fluctuations throughout the day with an absolute low early in the morning. When the bees were given artificial PDF, their typical behavioural pattern was postponed by some time."

For the scientists this is the clue that PDF clock neurons form an anatomical bridge between the different pacemaker cells in the clock network of insects. What is more, they transfer day-night information from the circadian clock to such brain areas that control complex behaviours such as orientation to the sun, temporal memory and organizing the work throughout the day.

University of Würzburg

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