Neural stem cell differentiation factor discovered
Neural stem cells represent the cellular backup of our brain. These cells are capable of self-renewal to form new stem cells or differentiate into neurons, astrocytes or oligodendrocytes. Astrocytes have supportive functions in the environment of neurons, while oligodendrocytes form the myelin layer around axons in order to accelerate neuronal signal transmission. But how does a neural stem cell „know" which way it is supposed to develop? On the molecular level receptors of the Notch family play a significant role in this process. So far, only stimulating extracellular ligands of Notch receptors had been described. Biochemists of Goethe University Medical School now describe a long time assumed but not yet identified soluble Notch inhibitor.
Franfurt scientists led by Mirko Schmidt and Ivan Dikic reported in the renowned journal „Nature Cell Biology" that the secreted protein EGFL7 (Epidermal Growth Factor-like domain 7) is such an inhibitory factor. EGFL7 had already been known from its involvement in the development of blood vessels. „It was a surprise when we discovered that EGFL7 bound the extracellular domains of Notch receptors and competed with known Notch ligands" explains Ivan Dikic from the Institute of Biochemistry and CEF Institute in Frankfurt. Researchers analyzed the antagonistic effects of EGFL7 in adult neural stem cells. The self-renewal potential of these cells depends on an intact interaction of the ligand Jagged1 and its receptor Notch1. Addition of EGFL7 blocked the essential interaction and reduced the division of neural stem cells. At the same time, EGFL7 stimulated the differentiation of neural stem cells into neurons.