Právě jsme s @lucieskodova.bsky.social shlédli - skvělé to bylo! 👏 Díky všem, co foukají do balónku 😉 @chmee2.bsky.social
09.02.2025 22:29 — 👍 3 🔁 0 💬 0 📌 0@skodalab.bsky.social
Group Leader, Laboratory of Tumor Biology, #MUNI & Laboratory Oncology Translational Research, #FNUSA-ICRC | Assoc. Prof. #MUNI, Brno, Czech Republic
Právě jsme s @lucieskodova.bsky.social shlédli - skvělé to bylo! 👏 Díky všem, co foukají do balónku 😉 @chmee2.bsky.social
09.02.2025 22:29 — 👍 3 🔁 0 💬 0 📌 0🚨 We're hiring! A 2.5-year (full-time) #Postdoc position available in my lab @uebscimuni.bsky.social in Brno, Czechia. 👇 Apply now & join us to study mitochondrial synthetic lethality in MYC-driven tumors. 📅 Deadline: 21 March 2025. (official e-application link will follow)
Please repost 💚
Zítra brzké vstávání ☕Moje žena si bude jako hlavní host Dobrého rána povídat o její práci ilustrátorky 🤩 Mám z toho upřímnou radost a jsem na ni fakt pyšný 😊 Mrkněte taky živě/ivysilani @ceskatelevize.cz. A pokud hledáte šikovnou ilustrátorku např. pro vědecké/popularizační projekty... 👇
30.01.2025 20:44 — 👍 2 🔁 0 💬 0 📌 0What a great initiative and amazing resource for #ChildhoodCancer studies! Bookmarked & will definitely use in near future 👇
23.01.2025 22:22 — 👍 2 🔁 0 💬 0 📌 0Very cool study, congrats!
23.01.2025 19:29 — 👍 0 🔁 0 💬 0 📌 0A tremendous effort by the first author Lucie Curylova! 👏 Huge thanks to my team @MUNI @FNUSA-ICRC and all collaborators @FNBrno @CEITEC_MUNI. Funded by
#AZVČR (Czech Health Research Council), with institutional support from the National Institute for Cancer Research & the Ministry of Health 🙏
Finally, as all patient-derived models were wild-type p53, our findings suggest that restoring p53 function could offer a promising strategy for treating refractory/metastatic p53-overexpressing pediatric sarcomas, regardless of their TP53 mutational status.
23.01.2025 16:46 — 👍 1 🔁 0 💬 1 📌 0We tested this using paired models with different stemness levels. Our study shows for the first time that reactivating p53 signaling via MDM2/MDMX inhibition selectively induces cell death in aggressive, stem-like Ewing's sarcoma cells while sparing healthy fibroblasts.
23.01.2025 16:46 — 👍 1 🔁 0 💬 1 📌 0Indeed, SOX2 was detected only in human Ewing‘s sarcoma samples that overexpressed p53, indicating disruption of the p53 pathway. Moreover, altered p53 expression was prevalent in metastatic tumors, suggesting p53 as a clinically relevant target for reactivation therapies.
23.01.2025 16:46 — 👍 1 🔁 0 💬 1 📌 0Only cells with high SOX2 or KLF4 expression, along with p53 dysregulation, formed tumors in mice. SOX2 knockdown on a mutant p53 background reduced, but didn’t prevent self-renewal, suggesting p53 dysregulation is crucial for sarcoma cells to acquire a fully stem-like phenotype.
23.01.2025 16:46 — 👍 1 🔁 0 💬 1 📌 0Using a large panel of pediatric sarcoma models, in vivo assays, and tumor tissues, our study provides strong evidence that dysregulated p53 associates with the upregulation of stemness-related transcription factors and enhanced tumorigenicity in pediatric sarcoma cells.
23.01.2025 16:46 — 👍 1 🔁 0 💬 1 📌 0Pediatric sarcomas are bone & soft tissue tumors that often metastasize and show therapy-resistant cancer stem cell traits, making treatment challenging. An impaired p53 pathway is common in aggressive sarcomas, yet its link to sarcoma stemness has been unclear.
23.01.2025 16:46 — 👍 1 🔁 0 💬 1 📌 0🥳 Excited to share our new paper on #pediatric #sarcomas! Restoring p53 tumor suppressor activity offers a promising approach to target aggressive, cancer stem-like cells in these childhood tumors:
rdcu.be/d2ufo
@MUNI @FNUSA-ICRC @agentura_azvcr (not yet here)
🧵1/n👇
Hi Bluesky! This is us, #ChildhoodCancer #Mitochondria #CancerStemCells #PrecisionMedicine maniacs. First post as we start fresh from scratch 😉 Still missing so many great accounts here, but let’s get things rolling! Excited to share and discover interesting content again. The sky’s the limit! 🚀
23.01.2025 16:31 — 👍 3 🔁 0 💬 0 📌 0A new mechanism for cancer-induced immune evasion. We knew about cancer cells hijacking mitochondria. Now we learn about how their mitochondrial transfer to T cells impairs the tumor immune response.
www.nature.com/articles/s41...
www.nature.com/articles/d41...