Infiltration of glioblastoma (GB) cells into the brain parenchyma and colonization of distant regions are associated with disease recurrence and therapy resistance. Using 3-photon intravital microscopy in an autochthonous GB model, Nebeling et al. identify structured, stage-dependent microglial responses at the far infiltration zone and show that microglial manipulation modulates tumor microtube plasticity and invasion.

🚨New paper from the lab🚨

Felix shows that #microglia shape #glioblastoma invasion at the far infiltration zone. Using in vivo #3photon #imaging, he finds dynamic responses & shows that manipulation reduces GB migration & limits #tumormicrotube #plasticity:

📝 doi.org/10.1016/j.im...

#Neuroscience🧪

Great new work from our lab: #Microglia #glioblastoma interaction in vivo analyzed deep in the corpus callosum wirh #3photon microscopy by @felixnebeling.bsky.social

doi.org/10.1016/j.im...

#neuroscience 🧪 @dzne.science

#SfN25 is packed with amazing science and networking opportunities. Cannot wait! The power of coming together has never been more important.
#Neuroscience #Microscopy #2Photon #3Photon #1Photon