Stella Soyka
@stellasoyka.bsky.social
π€ 45
π₯ 52
π 0
MD @ Venkataramani Lab
reposted by
Stella Soyka
Varun Venkataramani
about 1 year ago
π§΅Just in time for : New research from the Venkataramani lab @CellCellPress maps how brain tumor cells create extensive neural networks in glioblastoma. Check out our paper here:
authors.elsevier.com/sd/article/S..
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@ekinreyhan.bsky.social
@svenjaktetzlaff.bsky.social
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reposted by
Stella Soyka
Svenja Tetzlaff
about 1 year ago
So happy this is finally outπ thank you for the amazing supervision
@venkataramanilab.bsky.social
, to the best partner-in-crime
@ekinreyhan.bsky.social
and everyone who contributed, such a team effort!π§ π¬
add a skeleton here at some point
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reposted by
Stella Soyka
Ekin Reyhan
about 1 year ago
Thrilled to share our latest work on how glioblastoma integrates into brain-wide networks using rabies-mediated retrograde tracing!π§ So grateful to have been part of such a big team effort!
@svenjaktetzlaff.bsky.social
@venkataramanilab.bsky.social
add a skeleton here at some point
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reposted by
Stella Soyka
Jeremy Borniger
about 1 year ago
www.cell.com/cell/fulltex...
from the immensely talented Venkataramani group, essential work for cancer neuroscience.
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Characterizing and targeting glioblastoma neuron-tumor networks with retrograde tracing
Rapid integration of glioblastoma into neuronal circuits promotes glioblastoma invasion and growth, as shown by rabies-based retrograde tracing. Targeting of neuron-tumor networks with pharmacological or rabies-mediated disconnection offers therapeutic potential.
https://www.cell.com/cell/fulltext/S0092-8674(24)01276-5
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