Deposits of amyloid-β together with the tau protein in the brain constitute a distinctive biomarker of Alzheimer’s disease. In the last months, researchers from the UK and a research team from Switzerland and Austria attracted attention by stating that the amyloid-β protein might be transmitted to healthy persons in the context of medical procedures such as brain surgery. They examined the brain tissue of deceased persons who had received human growth hormone or dura mater transplants. This raised fears that the protein might be able to transmit the disease.
The research group of Gabor G. Kovacs of the Institute of Neurology of MedUni Vienna could now for the first time microscopically examine and compare archived dura mater (the thick membrane covering of the brain) of donors. The results confirm that amyloid-β is transmissible from the dura mater to another brain. However, the microscopic appearance of the amyloid-β deposits differs from the usual appearance in Alzheimer’s disease.
The amyloid-β protein remains in the vicinity of the operated tissue and does not spread considerably or affect other brain regions. There were also no clinical symptoms of Alzheimer’s disease and no characteristic deposits of the tau protein were seen.
To determine if amyloid-β deposits can be found in the dura mater, the research group also examined the dura mater of elderly individuals. In this context, the researchers demonstrated for the first time that amyloid-β can also be stored by the dura mater. This was previously only known for cerebral tissue.
“The study allows us to obtain a balanced opinion of the transmissibility of Alzheimer’s disease”, explained the principal investigator of the research study, Gabor G. Kovacs. “Despite the fact that it looks as if amyloid-β, the protein associated with Alzheimer’s, might be transmissible under very unusual circumstances, the clinical manifestation of Alzheimer’s disease is not transmitted. It is certainly not correct to talk of a transmissibility of the disease.”
The group of researchers is composed of members of the Institute of Neurology of MedUni Vienna and Donauspital.
Service: Acta Neuropathologica
Dura mater is a potential source of Aβ seeds. Gabor G. Kovacs, Mirjam I. Lutz, Gerda Ricken, Thomas Ströbel, Romana Höftberger, Matthias Preusser, Günther Regelsberger, Selma Hönigschnabl, Angelika Reiner, Peter Fischer, Herbert Budka, Johannes A. Hainfellner. Acta Neuropathologica Doi: 10.1007/s00401-016-1565-x.
Five research clusters at MedUni Vienna
In total, five research clusters have been established at MedUni Vienna. In these clusters, MedUni Vienna is increasingly focusing on fundamental and clinical research. The research clusters include medical imaging, cancer research/oncology, cardiovascular medicine, medical neurosciences and immunology. Research into sleep falls within the remit of the medical neurosciences cluster.