An estimated five to ten percent of blindness worldwide is caused by the rare inflammatory eye disease uveitis. Posterior uveitis in particular is often associated with severe disease progression and the need for immunosuppressive therapy. In posterior uveitis, inflammation occurs in the retina and in the underlying choroid that supplies it with nutrients. Researchers at the Ophthalmology Department at the University of Bonn have tested color-coded fundus autofluorescence as a supportive novel diagnostic method. Fluorescence of the retina can be used to infer the uveitis subtype. This is an essential prerequisite for accurate diagnosis and treatment of the disease. The results have now been published in Nature Scientific Reports.
Major depressive disorders are characterized by a significant health burden, including changes in appetite and body weight. Identifying biomarkers such as changes in brain function to treat depression is difficult due to the varying symptomatology of affected individuals. However, a research team - led by Prof. Dr. Nils Kroemer of the University Hospital Tübingen as well as the University Hospital Bonn (UKB) and the University of Bonn investigated whether conclusions can be drawn about the direction of appetite changes - increase or decrease - based on the functional architecture of the reward system in the brain. The results are now published in the journal JAMA Psychiatry.
Our own immune system can become the enemy when mechanisms that are actually protective get out of control. In ANCA-associated vasculitis, excessive inflammatory reactions lead to pulmonary hemorrhages that can be fatal if left untreated. Researchers at the University of Bonn, together with colleagues from Germany, the Netherlands, Switzerland and England, have deciphered a mechanism in mice and patients that leads to the severe disease. The results are now published in the Journal of Experimental Medicine.
When it comes to royalty, things are clear: The monarch's first child inherits the crown. Siblings born later must make do with a less glamorous profession. This is quite similar for some nerve cells in the brain. In their case, it is not the order in which they are born, but at least the time of their emergence that determines their further career. This is shown by a recent study by the University of Bonn. The results were obtained in mice; the extent to which they can be transferred to humans is therefore still uncertain. They have now been published in the journal eNeuro.
What are the researchers of the Clusters of Excellence at the University of Bonn actually working on? They provide an up-close look on August 22 at 8 p.m. in the Arkadenhof of the University Main Building. At the Excellence Slam, scientists from the clusters will present their research in short talks in a generally understandable and humorous way. At the end, the audience votes - and the most popular slam wins. The free event takes place one day after the finale of the Bonn Silent Film Festival and uses the festival's stage in the courtyard of the Baroque Palace. Please note: The event and the slams will be held in German.
The transport of substances across the membrane into the cell is linked to specific membrane transport proteins. Researchers at the University Hospital Bonn (UKB) and the University of Bonn, in collaboration with an international team, have now succeeded in elucidating the molecular structure of a completely new class of such membrane transporters. In addition to the Bonn scientists, researchers from the University of York were also involved. The study has now been published in the journal Nature Communications.
In the Middle Ages, every city had its own system of measurement. Even today, you can sometimes find iron rods in marketplaces that determined the length measurement valid for the city at that time. In science, however, there is no room for such uncertainties, and no matter what method you use to measure the length of a molecule, for example, the answer should always be the same. Researchers at the University Hospital Bonn (UKB), the University of Bonn and Ludwig-Maximilians-Universität (LMU) Munich have now investigated whether this is true for two methods that are very often used to measure distances in protein molecules - for example, to find out how such molecules move. The study has now appeared in the journal Nature Communications.
In severe Covid-19 patients, the metabolism produces insufficient amounts of certain energy-rich compounds called ketone bodies. However, these energy carriers are needed by two important cell types in the immune system in order to fight the virus effectively. Perhaps this finding explains why some people fall ill so much more severely than others. A study led by the University of Bonn and the University Hospital Bonn at least points in this direction. The results have now been published in the journal Nature. They also give hope for new therapies.