SBI – Department of Systems Biology and Bioinformatics
Faculty of Computer Science and Electrical Engineering
University of Rostock
Ulmenstrasse 69 | 18057 Rostock
Germany
+49 381 498-7571
olaf.wolkenhauer@uni-rostock.de
Research interest
In-vivo regulation of Aβ abundance / Energy-metabolism and brain imaging in AD
"I am interested in the aethiopathology of the Alzheimer's disease."
Protein aggregation is a major hallmark of many neurodegenerative diseases. In Alzheimer's disease (AD) the deposition of the protein Amyloid-β (Aβ) is increased and its aggregation leads to cognitive impairment. The question we focus on is: Which mechanisms govern the production and degradation of Aβ inside the brain? How can these mechanisms be influenced to impede or delay disease progression? Which of these mechanisms can be attributed to the process of aging?
Neurodegenerative diseases like AD mostly occur at older ages. If it is possible to understand the underlying mechanisms, this may shed light on the question "What does `getting old` mean in a biological sense?".
We established a mathematical model to capture the in vivo dynamics of Aβ aggregation in mouse-models relating to the regulation of different transmembrane transport proteins. Based on this model the influence on different strategies of altering the Aβ, abundance on AD initiation can be examined. Once the key features of AD progression are worked out we will analyse their relation to aging.
Understanding the aethiopoathology of Alzheimer's disease and working out the inherent connection to the process of aging observed in biological organisms promises insights important for both basic aging research and questions specific for the treatment of the Alzheimer's disease.
Academic background
| 2013 - present | Researcher at ASD GmbH in the VPH Dare@IT project. |
| 2009 - present | PhD-Student in Systems Biology, funded by the Faculty of Interdisciplinary Research, Department Aging Sciences and Humanities University of Rostock, Rostock/Germany |
| 2001 - 2009 | Diplom in Business Mathematics (Dipl. Math. oec., comparable to a masters degree) University of Rostock, Rostock/Germany |
Selected publications
Mathematical analysis of the influence of brain metabolism on the BOLD signal in Alzheimer’s disease
Journal of Cerebral Blood Flow & Metabolism, (2018) Vol. 38 (2) 304-316
Enabling multiscale modeling in systems medicine
Genome Medicine 2014, 6:21
Cooperative gene regulation by microRNA pairs and their identification using a computational workflow
Nucleic Acids Research 2014, 42 (12): 7539-7552,
Parameter Identifiability and Sensitivity Analysis Predict Targets for Enhancement of STAT1 Activity in Pancreatic Cancer and Stellate Cells
PLOS Computational Biology 8: e1002815
Cerebral amyloid-beta proteostasis is regulated by the membrane transport protein ABCC1 in mice
Journal of Clinical Investigation 121: 3924-3931
Reproducibility of model-based results in systems biology
In: Systems Biology: Integrative Biology and Simulation Tools 1, pp 301-320. Prokop A, Csukas B (eds) Springer (2013)
Mathematical modelin of protein aggregation and transport in Alzheimer's disease
12th International Conference on Systems Biology (ICSB), Heidelberg/Mannheim, Germany, 28 August - 1 September 2011
Venue: Heidelberg/Mannheim, Germany
A power-law model to describe the aggregation of Beta-Amyloid and its transport across the Blood-Brain barrier based on quantitative data from Alzheimer mouse models
2nd International workshop on systems biology, Hamilton, Ireland, August 2008
Venue: Hamilton, Ireland