Zebrafish help to unravel Alzheimer's disease

PUBLIC RELEASE DATE:

19-Aug-2014

Contact: Evgenia Salta Evgenia.Salta@cme.vib-kuleuven.be 32-163-77957 VIB (the Flanders Institute for Biotechnology)

New fundamental knowledge about the regulation of stem cells in the nerve tissue of zebrafish embryos results in surprising insights into neurodegenerative disease processes in the human brain. A new study by scientists at VIB and KU Leuven identifies the molecules responsible for this process.

Zebrafish as a model

The zebrafish is a small fish measuring 3 to 5 cm in length, with dark stripes along the length of its body. They are originally from India, but also a popular aquarium fish. Zebrafish have several unusual characteristics that make them popular for scientific research. Zebrafish eggs are fertilized outside the body, where they develop into embryos. This process occurs very quickly: the most important organs have formed after 24 hours and the young fish have hatched after 3 days. These fish are initially transparent, making them easy to study under the microscope. Zebrafish start reproducing after only 3 months. The genetic code of humans and zebrafish is more than 90 % identical. In addition, the genetic material of these fish is easy to manipulate, meaning that they are often used as a model in the study of all sorts of diseases.

Stem cells in the brain

Evgenia Salta, scientist in the team of Bart De Strooper (VIB KU Leuven), used zebrafish as a model in molecular brain research and discovered a previously unknown regulatory process for the development of nerve cells. Evgenia Salta explains: "The human brain contains stem cells, which are cells that have not matured into nerve cells yet, but do have the potential to do this." Stem cells are of course crucial in the development of the brain. Similar stem cells also exist in zebrafish. Therefore, these fish form an ideal model to study the behavior of these cells. A so-called Notch signaling pathway regulates the further ripening of these cells during early embryonic development. Scientists are still largely in the dark about Notch processes in the brains of Alzheimer patients, but the research by Evgenia Salta is changing this situation.

MicroRNA

The expression of genes, which form the basis of the Notch signaling pathway, is regulated in part by microRNAs (miRNAs), which are short molecules that can inhibit or activate genes. Evgenia Salta: "We specifically studied how miRNA-132 regulates the Notch signaling pathway in stem cells."

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Zebrafish help to unravel Alzheimer's disease