13. February 2023

Tracking down leaks in the blood-brain barrier Tracking down leaks in the blood-brain barrier

Bonn researchers develop new method to study selective diffusion barrier

In epilepsy research, it has long been assumed that a leaky blood-brain barrier is a cause of inflammation in the brain. Using a novel method, researchers from the University of Bonn an the Bonn University Hospital (UKB) have demonstrated that the barrier between the blood and the central nervous system remains largely intact. The approach of their study provides important insights into the development of epilepsy and could significantly optimize drug development in the pharmaceutical industry. The study results have recently been published in the journal Nature Communications.

New insights in epilsepsy research & optimization of drug action: (from left) Prof. Dirk Dietrich, Dr. Amira Hanafy and Prof. Alf Lamprecht use a new analytical method to get to the bottom of leaks in the blood-brain barrier.
New insights in epilsepsy research & optimization of drug action: (from left) Prof. Dirk Dietrich, Dr. Amira Hanafy and Prof. Alf Lamprecht use a new analytical method to get to the bottom of leaks in the blood-brain barrier. © University Hospital Bonn / Rolf Müller
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500 kilometers of vessels in the human brain are lined with ten square meters of thin cell layer - the blood-brain barrier (BBB). This barrier protects the brain against harmful substances as well as pathogens. It also links the brain to the other organs in the body. If this selective barrier is leaky, diseases such as Parkinson's, multiple sclerosis, Alzheimer's could develop. Malfunctions of the BBB also play an important role in brain tumors. Researchers at the UKB and the University of Bonn want to get to the bottom of these interactions. To study BBB transport at the cellular level, they developed micropipette-based local perfusion of capillaries, i.e. finest blood vessels, in acute brain slices and combined it with multiphoton microscopy.

Prof. Dirk Dietrich, head of the experimental neurosurgery section at the Clinic of Neurosurgery at the UKB, compares the new analysis technique of the blood-brain barrier investigated in the study to a flat bicycle tire: "If the tire loses air, you don't know where the leak is. That's why you hold the inflated bicycle tube under water to identify the leak. This principle also underlies our method." The researchers use a micropipette to fill the microscopic blood vessels with a liquid from the inside. Leaks are then visible to them under the multiphoton microscope.

His colleague Alf Lamprecht, Professor of Pharmaceutical Technology and Biopharmacy at the Pharmaceutical Institute of the University of Bonn, hopes that the new method could advance early drug development: "When a new active ingredient is developed, the question always arises as to whether and, above all, how it passes the blood-brain barrier. Identifying these transport mechanisms and barriers is enormously important for making the drug available in the brain." The results of the current study have potential to solve this problem in pharmacy. First author of the published article Dr. Amira Hanafy, a postdoctoral fellow at UKB's Clinic of Neurosurgery, sums up: "With the method we developed, we have a good tool to evaluate whether active ingredients reach the brain."

Participating institutions: Clinic of Neurosurgery, University Hospital Bonn; Institute of Pharmacy,University of Bonn; Section for Translational Epilepsy Research, Clinic of Neuropathology and Clinic of Epileptology, University Hospital Bonn; Synapse Proteomics, Children's Medical Research Institute, The University of Sydney, Australia.

BONFOR, DFG INST1172 15, Alexander von Humboldt Foundation

Amira Sayed Hanafy et. al.: Subcellular analysis of blood-brain barrier function by micro-impalement of vessels in acute brain slices; Nature Communications; https://doi.org/10.1038/s41467-023-36070-6

Prof. Dirk Dietrich
Head of the experimental neurosurgery section
Clinic for Neurosurgery
Bonn University Hospital
Phone: +49 228 287 19224
E-mail: dirk.dietrich@uni-bonn.de

Prof. Alf Lamprecht
Chair of Pharmaceutical Technology and Biopharmacy
Pharmaceutical Institute
Bonn University
Phone: +49 228 73 5243
E-mail: alf.lamprecht@uni-bonn.de

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