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Bonn researchers find causative mutations in the keratin 31 gene for the dominantly-inherited form of monilethrix – From infancy and usually for life, some families suffer from broken hair due to a congenital form of hair loss called monilethrix. Researchers at the University Hospital Bonn and the University of Bonn have now identified causative mutations in another keratin gene, KRT31. They hope that this will improve the diagnosis of this rare disease. Their results have now been published in the renowned "British Journal of Dermatology".
Monilethrix is a rare congenital form of hairlessness, also known as alopecia, and usually begins in the first few months of life. It mainly affects the area at the back of the head. What is striking is the extreme variability in the degree of hair loss, ranging from little hair loss to complete hairlessness within a family. Recurring knots of normal thickness give the affected "spindle hair" the appearance of a sheaf of pearls. The constrictions in between break very easily. In dominantly-inherited monilethrix, mutations in the three keratin genes KRT81, KRT83 and KRT86 are known to be responsible for the disrupted keratin network, which plays an important role in building the hair structure.
Nonsense (stop) mutation for "spindle hair"
The research team led by Prof. Regina Betz from the Institute of Human Genetics at the UKB, who is a member of the Transdisciplinary Research Area (TRA) "Life & Health" and the Cluster of Excellence ImmunoSensation2 at the University of Bonn, investigated four families with suspected monilethrix in which no mutations were found in the three known genes. The team therefore carried out exome sequencing on six affected family members, i.e. all protein-coding regions were examined in their genetic material.
The Bonn researchers found a so-called nonsense (stop) mutation in the KRT31 gene in all six affected individuals, which leads to premature termination of the synthesis of the protein. With the help of additional sequencing, they were also able to find this mutation in the other affected family members. Prof. Betz's team was thus able to identify a new gene for monilethrix with KRT31. "Even though the affected families from Germany do not know each other and come from different regions, we were able to show that this mutation most likely originated in a common ancestor and was subsequently passed on over many generations. It remains to be seen whether this mutation can also be found across Europe or even worldwide, but it is likely," says first author Xing Xiong, a doctoral student at the University of Bonn's Institute of Human Genetics at the UKB.
Gene localization in the cell determines function
The Bonn researchers took a closer look at the function of KRT31. The protein encoded by KRT31, like many other keratins, is involved in the formation of skin cells. These proteins assemble into polymeric fiber proteins and thus form the supporting framework for the cell. If there are defects in these proteins, skin and hair diseases develop. Investigations under the microscope using immunofluorescence showed that the "normal" KRT31 is localized in the cytoplasm, while the mutated KRT31 is mainly found around the cell membrane. "The localization of the protein in the cell therefore changes with the mutation. This means that its function will also be impaired," states Prof. Betz.
In cooperation with the team from the Cluster of Excellence ImmunoSenstation2 at the University of Bonn led by Prof. Matthias Geyer, Director of the Institute of Structural Biology at the UKB, Prof. Betz's team also analyzed the structure of the protein and possible effects of the stop mutation. As a rule, two keratin molecules as heterodimer in a double pack always align their ends with the ends of other heterodimers, and that by forming so-called disulfide bonds. "We assume that this disulfide bond can no longer be formed due to the stop mutation and that the function of the protein is therefore impaired," says Prof. Betz. She is convinced that the inclusion of KRT31 in diagnostic gene panels for hair, skin and nail diseases will improve diagnostics for those affected by hair loss.
Participating institutions and funding:
In addition to the UKB and the University of Bonn, the Cologne Center for Genomics at the University of Cologne, the Practice for Human Genetics Erfurt, the Clinic for Dermatology at Münster University Hospital and the Clinic for Dermatology, Venereology and Allergology at Würzburg University Hospital are involved in the study. The study was supported by a grant from the German Research Foundation (DFG) as part of the German Excellence Strategy (EXC2151 - 390873048).
Publication: Xing Xiong et al: A nonsense variant in KRT31 is associated with autosomal-dominant monilethrix; British Journal of Dermatology; DOI: https://doi.org/10.1093/bjd/ljae298
Press contact:
Dr. Inka Väth
Deputy Press Officer at the University Hospital Bonn (UKB)
Communications and Media Office at Bonn University Hospital
Phone: (+49) 228 287-10596
E-mail: inka.vaeth@ukbonn.de
About Bonn University Hospital: The UKB treats around 500,000 patients per year, employs around 9,500 staff and has total assets of 1.8 billion euros. In addition to the 3,500 medical and dental students, 550 people are trained in numerous healthcare professions each year. The UKB is ranked first among university hospitals (UK) in NRW in the Focus Clinic List, had over 100 million third-party funds in research in 2023 and has the second highest case mix index (case severity) in Germany. The F.A.Z. Institute awarded the UKB first place among university hospitals in the category "Germany's Training Champions 2024".
Prof. Dr. Regina C. Betz
Professorship for Dermatogenetics
Institute of Human Genetics
Bonn University Hospital
TRA "Life & Health" & ImmunoSensation2, University of Bonn
Phone: +49-(0)228 287 51023
E-mail: regina.betz@uni-bonn.de
Xing Xiong et al: A nonsense variant in KRT31 is associated with autosomal-dominant monilethrix; British Journal of Dermatology; DOI: 10.1093/bjd/ljae298
https://doi.org/10.1093/bjd/ljae298 Publication
New gene for "spindle hair" decoded: (from left) Dr. Buket Basmanav, Nicole Cesarato, Xing Xiong, Pr ...
Rolf Müller
Hospital Bonn (UKB)
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Medicine
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