Super excited to see our new preprint on calcium signalling in brain metastases now out on bioRxiv!
Very thankful to be part of @winklerlab.bsky.social and working so closely with @nilshebach.bsky.social under the guidance of @matthiakarreman.bsky.social and Frank Winkler and all our collaborators.
Our new preprint on calcium signaling in brain metastases is now on bioRxiv!
Thrilled to share the core work of my doctoral thesis in the @winklerlab.bsky.social, together with @nielsolshausen.bsky.social, @matthiakarreman.bsky.social and many more!
Very happy and honored to present our work on #brainmetastases networks at #SNO2024 plenary session this afternoon.
@winklerlab.bsky.social
@neuroonc.bsky.social
#cancerneuroscience
What if brain metastatic cells do not act alone, but form #networks to help them grow?
In our new #preprint, we show that #brainmetastases form malignant, gap-junction mediated #networks that drive cell cycle progression & neural features through Ca²⁺ signaling.
www.biorxiv.org/content/10.6...
🧵👇
What if brain metastatic cells do not act alone, but form #networks to help them grow?
In our new #preprint, we show that #brainmetastases form malignant, gap-junction mediated #networks that drive cell cycle progression & neural features through Ca²⁺ signaling.
www.biorxiv.org/content/10.6...
🧵👇
Video
Video
What if brain metastatic cells do not act alone, but form #networks to help them grow?
In our new #preprint, we show that #brainmetastases form malignant, gap-junction mediated #networks that drive cell cycle progression & neural features through Ca²⁺ signaling.
www.biorxiv.org/content/10.6...
🧵👇
Video
Nils Hebach
👋 Hello Bluesky!
Great to be here.
We are the Winkler Lab, at the UKHD and @dkfz.bsky.social Heidelberg 🇩🇪.
We work on the #cancerneuroscience of #braintumors, hoping to better understand these diseases and search for new treatments.
Looking forward to interact with many of you in the future!
