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Malformed desmin proteins aggregate with intact proteins of the same kind, thereby triggering skeletal and cardiac muscle diseases, the desminopathies. This was discovered by researchers from the RUB Heart and Diabetes Center NRW in Bad Oeynhausen led by PD Dr. Hendrik Milting in an interdisciplinary research project with colleagues from the universities in Karlsruhe, Würzburg and Bielefeld. They report in the Journal of Biological Chemistry.
Aggregating instead of stabilizing
RUB researchers gain new insights into the mechanisms of heart disease
Mutated and intact proteins of the cytoskeleton form abnormal aggregates
Malformed desmin proteins aggregate with intact proteins of the same kind, thereby triggering skeletal and cardiac muscle diseases, the desminopathies. This was discovered by researchers from the RUB Heart and Diabetes Center NRW in Bad Oeynhausen led by PD Dr. Hendrik Milting in an interdisciplinary research project with colleagues from the universities in Karlsruhe, Würzburg and Bielefeld. They report in the Journal of Biological Chemistry.
One defective gene is enough
Desmin normally forms stabilizing filaments inside of the cells. Different mutations in the DES gene, which contains the blueprint for the protein, induce different muscle diseases. Since chromosomes are always present in pairs, each cell has two DES genes on two different chromosomes. The desminopathies break out even if only one of the DES genes is mutated. With Photo Activation Localization Microscopy (PALM), the interdisciplinary team led by Dr. Milting revealed the mechanism behind this.
Making mutated and intact proteins visible
If one DES gene is mutated and one intact, a cell produces both malformed and normal proteins. Since not only the mutant desmin proteins clump together, but also the intact exemplars are incorporated into the aggregates, one defective DES gene is enough to trigger the disease. Using the PALM microscope, the researchers attach two different fluorescent molecules to the mutant and the intact proteins. They can turn these markers on and off by laser, effectively flashing them. From the “snapshots” of the intact and the mutated proteins, the computer then calculates a joint picture on which both protein variants can be seen. PALM is a novel microscopy technique that can achieve ten times higher resolution than conventional light microscopy.
Further research projects
In the next step, the research group would like to find out how mutations in the DES gene trigger what is termed arrhythmogenic right ventricular cardiomyopathy, ARVC for short. This rare heart muscle disease is characterized by a severe defect – especially to the right ventricle – and by heart rhythm problems that can lead to sudden cardiac death due to defects in the cell-cell contacts.
Bibliographic record
A. Brodehl et al. (2012): Dual-color photoactivation localization microscopy of cardiomyopathy associated desmin mutants, Journal of Biological Chemistry, doi: 10.1074/jbc.M111.313841
Further information
PD Dr. Hendrik Milting, Erich and Hanna Klessmann - Institute for Cardiovascular Research and Development, Heart and Diabetes Center NRW, Ruhr-Universität Bochum, Georgstraße 11, Bad Oeynhausen, Tel. 05731/97-3510
HMilting@hdz-nrw.de
Editor: Dr. Julia Weiler
Using Photo Activation Localization Microscopy (PALM), ten times the resolution (right) of conventio ...
Source: Illustration: Andreas Brodehl/Per Niklas Hedde
The cardio genetics work group at the Heart and Diabetes Center NRW, Klessmann-Institute, Bad Oeynh ...
Source: Photo: Armin Kühn
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Journalists
Medicine
transregional, national
Research results, Scientific Publications
English
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