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Synapses are the interfaces for information exchange between neurons. Teams of scientists working with Professor Dr. Volker Haucke, Director at the Leibniz-Forschungsinstitut für Molekulare Pharmakologie (FMP) and Professor at the Freie Universität Berlin, and Professor Dr. Stephan Sigrist at the Freie Universität Berlin discovered the materials, which form new presynapses for the release of transmitters. The findings may help to design better nerve-regenerating therapies in the future.

False color image of a presynaptic transport vesicle packet  (green) inside the cell body of a motor neuron of the fruit fly Drosophila.

Photography: Dr. Dmytro Puchkov, FMP.

To date, we have a fairly good understanding how nerve cells (neurons) communicate with each other. Central in this information transfer is the release of neurotransmitters at chemical synapses. At synapses, signal-transmitting presynapses face postsynapses, which recognize the chemical signals and relay them. "By contrast, we still know relatively little as to how synapses are formed", points out Professor Volker Haucke.

The release of neurotransmitter at presynapses requires their storage synaptic vesicles (bubble-like structures). Furthermore, scaffold proteins have to be present at the right time and location to ensure proper transmitter release. Until now, it was unclear how synaptic vesicle components and scaffold proteins get to synaptic cell junctions. Moreover, it was unclear from which cellular building blocks scaffold proteins and vesicles are made. The teams of Professor Dr. Volker Haucke and Professor Dr. Stephan Sigrist studied neurons from mouse brain and Drosophila larvae to learn more about the processes forming presynapses. The results of their work have just been published in the prestigious journal Neuron on August 30, 2018. The scientists found answers to both questions: They discovered that for the most part, vesicle and scaffold proteins are co-transported to the presynapse in a packet (Figure 1). Hence, vesicle and scaffold proteins arrive at the nascent synapse as a preformed functional unit, so neurotransmitter release may start instantaneously.  The scientists could also show that this mechanism is evolutionary conserved from flies to mice and probably humans. The team also revealed that scaffold and vesicle proteins are transported in organelles that share characteristics with so-called lysosomes. Professor Haucke explains: "This is extremely surprising as scientists used to believe that lysosomes are mostly responsible for the degradation of cell components.  However, in the context of the developing nervous system, these lysosome-related vesicles appear to have a distinct assembly function as they are involved in forming the presynapses where transmitters are released."

These discoveries made by the scientists at the Leibniz-Forschungsinstitut für Molekulare Pharmakologie and the Freie Universität Berlin are of significance beyond basic research: For example, during learning processes synapses need to be remodelled to amplify signals. Professor Dr. Stephan Sigrist comments: "We were able to establish such a signal amplification in Drosophila larvae. When we programmed the neurons to deliver additional scaffold proteins and transport packets, they fired with more intensity than before." This correlation may prove useful in the treatment of congenital degenerative neuronal diseases or for the regeneration of neurons after major accidents for example. To enable injured people to walk again, nerve paths must regenerate and new synapses must form or be re-established. The described findings may allow to accelerate this process in a targeted fashion.

Publication:
Vukoja, A., Rey, U. , Petzoldt, A.G. , Vollweiter, D., Ott, C., Quentin, C., Puchkov, D., Reynolds, E., Lehmann, M., Hohensee, S., Rosa, S., Lipowsky, R., Sigrist, S.J., Haucke, V. (2018) Presynaptic biogenesis requires axonal transport of lysosome-related vesicles. Neuron, Advance Online Publication, August 30, 2018

Volker Haucke and Stephan Sigrist are ECN and NeuroCure members

Contact:
Prof. Dr. Volker Haucke
Leibniz-Forschungsinstitut für Molekulare Pharmakologie (FMP) and Freie Universität Berlin
Phone +49-30-94793101
E-Mail: HAUCKE(at)fmp-berlin.de

Public Relations:
Leibniz-Forschungsinstitut für Molekulare Pharmakologie (FMP)
Silke Oßwald
Phone +49-30-94793104
E-Mail: osswald(at)fmp-berlin.de

The Leibniz-Forschungsinstitut für Molekulare Pharmakologie (FMP) is part of the Forschungsverbund Berlin e.V. (FVB), who legally represents eight non-university research institutes - members of the Leibniz Association - in Berlin. The institutions pursue common interests within the framework of a single legal entity while maintaining their scientific autonomy. More than 1,900 employees work within the research association. The eight institutes were founded in 1992 and emerged from former institutes of the GDR Academy of Sciences.

Source: Leibniz-Forschungsinstitut für Molekulare Pharmakologie (FMP)

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