SFB 1348 A06 - Kontrolle mechanischer Kräfte in Neuronen via gekrümmte Membran-Nanodomänen

Grunddaten zu diesem Projekt

Art des ProjektesTeilprojekt in DFG-Verbund koordiniert an der Universität Münster
Laufzeit an der Universität Münster01.01.2022 - 31.12.2025 | 2. Förderperiode

Beschreibung

Work in our lab is focused on a particular type of receptor-independent signaling platforms, where mechanical forces at the PM are translated into classical biochemical signal transduction cascades via nanoscale membrane deformations. This type of mechano-chemical signal translation at cellular membranes, which relies on recruitment of curvature-sensitive signaling molecules to curved membranes, has been suggested to be involved in a variety of biological processes. However, only recent technical advancements allow to study these processes at the physiological scale. Here we aim to investigate how transiently forming curved PM nanodomains regulate actin-based forces in developing mouse neurons. Using novel image analysis tools we have already identified several curvature-sensitive actin-regulatory proteins that shape neuronal architecture, which now will be further analyzed. Specifically, we aim to investigate the function of the currently uncharacterized curvature-sensitive actin-regulatory protein ArhGEF38 in developing neurons as well as how signaling from Baiap2 and ArhGAP44, two curvature-sensing proteins with opposing impact on actin polymerization dynamics, is integrated at individual membrane nanodomains. Findings from these studies are of general relevance, as spatio-temporal control of actin-based forces via curved membrane nanodomains is ubiquitously present in cells from many tissues and species.

StichwörterBiologie; zelluläre Kontaktstellen; Bildgebung
Webseite des Projektshttp://sfb1348.uni-muenster.de/index.php/projects/a/project-a06
FörderkennzeichenSFB 1348/2 A06
Mittelgeber / Förderformat
  • DFG - Sonderforschungsbereich (SFB)

Projektleitung der Universität Münster

Galic, Milos
Institut für Medizinische Physik und Biophysik

Antragsteller*innen der Universität Münster

Galic, Milos
Institut für Medizinische Physik und Biophysik