Project B03

High-Resolution Analysis of Membrane Domain Formation During Neuronal Polarization

The spatial control of membrane domains and signaling platforms is essential for the establishment and maintenance of a polarized cellular morphology especially in neurons. In the developing cortex, newborn neurons assume a transient multipolar shape before they differentiate into bipolar neurons that migrate radially to their final position. During the transition from a multi- to a bipolar morphology, neurons form an axon and a leading process that display different membrane dynamics. The extension of the axon requires an expansion of the cell membrane by the exocytosis of specialized vesicles in the growth cone while the recycling of surface proteins is characteristic for the leading process. Little is known how these processes are regulated and coordinated during the polarization of neurons. Previous work has shown that Rap1 GTPases are essential for the formation of axons and radial migration. One function of Rap1 GTPases is to regulate the trafficking of N-cadherin that acts as a signaling platform to direct neuronal polarization and migration. We have identified the guanine nucleotide exchange factor bPix as a novel regulator of neuronal polarity. In our project, we will investigate the regulation of exocytosis during the polarization of neurons by analyzing the function of bPix and phosphatidylinositol-4-phosphate 5-kinases for exocyst function and the delivery of N-cadherin to the cell surface.

Rafael being pulled to the Badestrasse after the graduation ceremony

Rafael Krämer - first graduated PhD Student from the CRC1348 IRTG

We are happy to announce that in December 2019 Rafael Krämer from the Rumpf lab was graduated as first PhD student from the CRC1348 IRTG. Congratulations Dr. Krämer and well done!

CRC1348 Retreat 2019 Oberwerries

CRC 1348 Retreat 2019 Oberwerries

The CRC has staged a successful and productive annual retreat at the Landesturnschule Oberwerries with lots of mental and some physical exercise. We are due to return fully equipped with sweat pants, trainers and shower gel in 2020!