First Molecular Blueprint of Neuropeptide Receptor

First Molecular Blueprint of Neuropeptide Receptor

The blueprint will enable the development of tailor-made drugs to treat epilepsy or cardiovascular diseases

In order for a drug to be effective at the right places in the body, it helps if scientists can predict as accurately as possible how the molecules of that drug will interact with human cells. In a joint research project, scientists from Collaborative Research Centre 1423 at Leipzig University and the Chinese Academy of Sciences in Shanghai have succeeded in elucidating such a structure, namely that of the neuropeptide Y receptor Y2 with one of its ligands. This is the first time that a molecular blueprint for this receptor is available, which will enable the development of new tailor-made drugs, for example to treat epilepsy or cardiovascular diseases. The researchers' findings have now been published in Nature Communications.

Molecular interactions of the receptor blocker JNJ-31020028 (light green; nitrogen atoms highlighted in blue, oxygen atoms in red) at the human Y2 receptor (grey); pdb: 7DDZ. With seven helices, the receptor sits in the cell membrane and is accessible to its ligands from the outer side.
Dr Anette Kaiser, Leipzig University

The Y2 receptor plays an important role, especially in the peripheral nervous system and in the brain, as it is considered one of the "satiety receptors." It also plays a role in epilepsy, as well as in cardiovascular diseases. If these diseases are to be treated with drugs that block the Y2 receptor, it is important to ensure that the drug can target this receptor precisely and exclusively, because some closely related receptors would have exactly the opposite effect. When developing novel drugs, it is therefore essential to obtain highly targeted compounds and to have precise knowledge of their molecular properties.


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Researchers led by professor Annette Beck-Sickinger and Dr. Anette Kaiser at Leipzig University have succeeded in showing on the molecular level how substances can block the Y2 receptor. Working with their colleagues in Shanghai, they were able to explain the crystal structure with a bound ligand, validate it by means of numerous biochemical investigations, and transfer it to other systems. The new study also reveals that Y2 receptor blockers bind differently than comparable molecules at the closely related Y1 subtype. This will facilitate further knowledge-based development of selective compounds at both receptors.

The investigation of this receptor family with its endogenous ligands as well as other clinically relevant compounds is one focus of Collaborative Research Centre (CRC) 1423. The CRC 1423 is a research project being funded for four years by the German Research Foundation (DFG), in which four funding institutions are involved: Leipzig University, Martin Luther University Halle-Wittenberg, Charité–Universitätsmedizin Berlin, and the Max Delbrück Center for Molecular Medicine. Researchers from these institutions with backgrounds in biochemistry, biomedicine, and computational science are collaborating on an interdisciplinary basis to gain a comprehensive understanding of the effects of structural dynamics on the function of G protein-coupled receptors. The Collaborative Research Centre comprises a total of 19 subprojects.

- This press release was originally published on the Leipzig University website