RT @DrBaileeSliker: Be sure to check out the @CD_AACR paper presented during the amazing talk by @MaraShermanLab at #TumourLandscape23 cove…
RT @DrBaileeSliker: Be sure to check out the @CD_AACR paper presented during the amazing talk by @MaraShermanLab at #TumourLandscape23 cove…
RT @DrBaileeSliker: Be sure to check out the @CD_AACR paper presented during the amazing talk by @MaraShermanLab at #TumourLandscape23 cove…
Be sure to check out the @CD_AACR paper presented during the amazing talk by @MaraShermanLab at #TumourLandscape23 covering CAFs in pancreatic cancer https://t.co/0vHQIcuynK https://t.co/rcE6smQGIS
RT @TaliLev123: 🌟Highlighting for #AACRpan23: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Asso…
RT @TaliLev123: 🌟Highlighting for #AACRpan23: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Asso…
RT @TaliLev123: 🌟Highlighting for #AACRpan23: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Asso…
RT @TaliLev123: 🌟Highlighting for #AACRpan23: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Asso…
RT @TaliLev123: 🌟Highlighting for #AACRpan23: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Asso…
🌟Highlighting for #AACRpan23: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Associated Fibroblasts published in @CD_AACR by @MaraShermanLab @OHSUKnight https://t.co/6oZBbKJoP0. https://t.co/JQOUUHKklR
RT @DrBaileeSliker: If you want more from @MaraShermanLab after her Meet-the-Expert Session at #AACR23, be sure to check out the lab's rece…
RT @DrBaileeSliker: If you want more from @MaraShermanLab after her Meet-the-Expert Session at #AACR23, be sure to check out the lab's rece…
RT @DrBaileeSliker: If you want more from @MaraShermanLab after her Meet-the-Expert Session at #AACR23, be sure to check out the lab's rece…
RT @DrBaileeSliker: If you want more from @MaraShermanLab after her Meet-the-Expert Session at #AACR23, be sure to check out the lab's rece…
RT @DrBaileeSliker: If you want more from @MaraShermanLab after her Meet-the-Expert Session at #AACR23, be sure to check out the lab's rece…
RT @DrBaileeSliker: If you want more from @MaraShermanLab after her Meet-the-Expert Session at #AACR23, be sure to check out the lab's rece…
If you want more from @MaraShermanLab after her Meet-the-Expert Session at #AACR23, be sure to check out the lab's recent @CD_AACR paper "Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #Fibroblasts" http
RT @NCICancerBio: In a @CD_AACR study, @MaraShermanLab @OHSUKnight et al. linked stromal evolution from cells of origin to heterogeneity am…
RT @NCICancerBio: En un estudio de @CD_AACR, @MaraShermanLab @OHSUKnight et al. conectó la evolución de células de origen a la heterogeneid…
RT @NCICancerBio: In a @CD_AACR study, @MaraShermanLab @OHSUKnight et al. linked stromal evolution from cells of origin to heterogeneity am…
En un estudio de @CD_AACR, @MaraShermanLab @OHSUKnight et al. conectó la evolución de células de origen a la heterogeneidad entre los fibroblastos asociados con el cáncer (#CAF) en el #cancerpancreatico. https://t.co/vu6fMCFZXG #NCIHighlights2022
In a @CD_AACR study, @MaraShermanLab @OHSUKnight et al. linked stromal evolution from cells of origin to heterogeneity among cancer-associated fibroblasts (#CAFs) in #pancreaticcancer. https://t.co/vu6fMCFZXG #NCIHighlights2022
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
RT @DrBaileeSliker: Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant functio…
Part 4 of what to read before the start of #AACRtii22 tonight is the @CD_AACR paper evaluating the nonredundant function of CAFs in PDAC caused by mesenchymal lineage heterogeneity by @MaraShermanLab! https://t.co/0vHQIccWZa https://t.co/4pVao19n1k
RT @ElizSMcKenna: In honor of #AACRpan22 I'll be sharing #pancreaticcancer papers published in @CD_AACR in 2022! Next: Mesenchymal Lineage…
In honor of #AACRpan22 I'll be sharing #pancreaticcancer papers published in @CD_AACR in 2022! Next: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #Fibroblasts @MaraShermanLab @OHSUKnight https://t.co/S
RT @ElizSMcKenna: Watching the #AACR22 Major Symposium on #ExtracellularMatrix Remodeling in Cancer? ICYMI in @CD_AACR by speaker @MaraSher…
RT @ElizSMcKenna: Watching the #AACR22 Major Symposium on #ExtracellularMatrix Remodeling in Cancer? ICYMI in @CD_AACR by speaker @MaraSher…
RT @DrBaileeSliker: #AACR22 @MaraShermanLab is presenting NOW in the Major Symposium on ECM Remodeling in Cancer! Read her latest @CD_AACR…
RT @CD_AACR: Interested in #fibroblasts in #PDAC, after this #AACR22 session? Check out the paper, Mesenchymal Lineage Heterogeneity Underl…
RT @CD_AACR: Interested in #fibroblasts in #PDAC, after this #AACR22 session? Check out the paper, Mesenchymal Lineage Heterogeneity Underl…
RT @ElizSMcKenna: Watching the #AACR22 Major Symposium on #ExtracellularMatrix Remodeling in Cancer? ICYMI in @CD_AACR by speaker @MaraSher…
Interested in #fibroblasts in #PDAC, after this #AACR22 session? Check out the paper, Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Associated Fibroblasts. https://t.co/p932uQc0kO @MaraShermanLab @OHSUKnight https
RT @ElizSMcKenna: Watching the #AACR22 Major Symposium on #ExtracellularMatrix Remodeling in Cancer? ICYMI in @CD_AACR by speaker @MaraSher…
RT @DrBaileeSliker: #AACR22 @MaraShermanLab is presenting NOW in the Major Symposium on ECM Remodeling in Cancer! Read her latest @CD_AACR…
#AACR22 @MaraShermanLab is presenting NOW in the Major Symposium on ECM Remodeling in Cancer! Read her latest @CD_AACR paper to get more info! https://t.co/0vHQIcuynK
RT @ElizSMcKenna: Watching the #AACR22 Major Symposium on #ExtracellularMatrix Remodeling in Cancer? ICYMI in @CD_AACR by speaker @MaraSher…
Watching the #AACR22 Major Symposium on #ExtracellularMatrix Remodeling in Cancer? ICYMI in @CD_AACR by speaker @MaraShermanLab @OHSUKnight - Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #Fibroblasts h
RT @BumsooHan: Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibroblasts | Cancer Disc…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibroblasts | Cancer Discovery | American Association for Cancer Research https://t.co/WsviuVtJXD
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
RT @NCICancerBio: Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-a…
Using experimental models in an @theNCI funded study, @MaraShermanLab @OHSUKnight et al. identified a subtype of cancer-associated fibroblasts (#CAFs), which plays a role in establishing the #pancreaticcancer microenvironment @CD_AACR https://t.co/jnddKiWl
RT @CD_AACR: From the February issue: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #…
RT @CD_AACR: From the February issue: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #…
RT @DrBaileeSliker: Awesome work by the @MaraShermanLab in the @CD_AACR February issue!! 🧫 https://t.co/25aIeBOzbH
RT @CD_AACR: From the February issue: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #…
RT @CD_AACR: From the February issue: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #…
RT @CD_AACR: From the February issue: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #…
RT @DrBaileeSliker: Awesome work by the @MaraShermanLab in the @CD_AACR February issue!! 🧫
RT @DrBaileeSliker: Awesome work by the @MaraShermanLab in the @CD_AACR February issue!! 🧫
Awesome work by the @MaraShermanLab in the @CD_AACR February issue!! 🧫
From the February issue: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of #PancreaticCancer-Associated #Fibroblasts by Helms, Sherman et al. @MaraShermanLab @OHSUKnight https://t.co/oqD1jgDWD9 https://t.co/tQPWAzlrTT
The power of the few. Exciting to see the CAF heterogeneity being unravelled one population at a time.
RT @whitefishlab: Yet more beautiful work from the @MaraShermanLab now out in: @CD_AACR. target="_blank" href="https://t.co/GhgC6HszOo">https://t.co/GhgC6HszOo. With a perspective by @ed…
RT @whitefishlab: Yet more beautiful work from the @MaraShermanLab now out in: @CD_AACR. target="_blank" href="https://t.co/GhgC6HszOo">https://t.co/GhgC6HszOo. With a perspective by @ed…
RT @whitefishlab: Yet more beautiful work from the @MaraShermanLab now out in: @CD_AACR. target="_blank" href="https://t.co/GhgC6HszOo">https://t.co/GhgC6HszOo. With a perspective by @ed…
Yet more beautiful work from the @MaraShermanLab now out in: @CD_AACR. target="_blank" href="https://t.co/GhgC6HszOo">https://t.co/GhgC6HszOo. With a perspective by @ednacukierman: https://t.co/HGFu9Kuend
RT @DeNardoLabWUSM: Great stuff: Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibrobl…
RT @coussens_lisa: WOOHOO - Another spectacular contribution from the Sherman lab @MaraShermanLab @OHSUKnight @OHSUpancreatic. WATCH OUT P…
RT @coussens_lisa: WOOHOO - Another spectacular contribution from the Sherman lab @MaraShermanLab @OHSUKnight @OHSUpancreatic. WATCH OUT P…
RT @coussens_lisa: WOOHOO - Another spectacular contribution from the Sherman lab @MaraShermanLab @OHSUKnight @OHSUpancreatic. WATCH OUT P…
RT @DeNardoLabWUSM: Great stuff: Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibrobl…
Great stuff: Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibroblasts https://t.co/BxQUyTb7ei
RT @coussens_lisa: WOOHOO - Another spectacular contribution from the Sherman lab @MaraShermanLab @OHSUKnight @OHSUpancreatic. WATCH OUT P…
RT @coussens_lisa: WOOHOO - Another spectacular contribution from the Sherman lab @MaraShermanLab @OHSUKnight @OHSUpancreatic. WATCH OUT P…
WOOHOO - Another spectacular contribution from the Sherman lab @MaraShermanLab @OHSUKnight @OHSUpancreatic. WATCH OUT PDAC Mesenchymal Lineage Heterogeneity Underlies Nonredundant Functions of Pancreatic Cancer–Associated Fibroblasts https://t.co/td2ej1HX
RT @Aiims1742: More evidence supporting fibroblast heterogeneity, plasticity & role in constraining #PancreaticCancer. One caveat - the co…
More evidence supporting fibroblast heterogeneity, plasticity & role in constraining #PancreaticCancer. One caveat - the contribution of PSCs to the CAF pool may be overestimated in ex vivo & implant studies, versus autochthonous models (@MaraSher
RT @isciverse: Online NOW | Cancer Discovery #Mesenchymal Lineage #Heterogeneity Underlies Nonredundant Functions of #Pancreatic #CancerAs…
RT @isciverse: Online NOW | Cancer Discovery #Mesenchymal Lineage #Heterogeneity Underlies Nonredundant Functions of #Pancreatic #CancerAs…
Online NOW | Cancer Discovery #Mesenchymal Lineage #Heterogeneity Underlies Nonredundant Functions of #Pancreatic #CancerAssociatedFibroblasts. #Cancers #biology #CAFs @CD_AACR @isciverse https://t.co/76oPYjONfP https://t.co/CFkyHAcLBJ
PDACのCAF集団は、共通の細胞である膵臓星状細胞(PSC)を起源とし、腫瘍微小環境におけるサイトカインや成長因子の勾配によって多様化する。PSC由来のCAFは少数の異なるサブセットを生み出し、それぞれ固有の機能を有することがわかった。CAF不均一性。 https://t.co/RqEnPs4hMd
Study suggests that pancreatic stellate cells give rise to only a small subset of PDAC CAFs, with findings linking evolution from distinct cells of origin to transcriptional & functional heterogeneity between CAF subsets https://t.co/hWtyjmlCa7. Also
#OnlineFirst: Mesenchymal Lineage Heterogeneity Underlies Non-Redundant Functions of Pancreatic Cancer-Associated Fibroblasts. https://t.co/7duEffmYDf. @MaraShermanLab @OHSUKnight https://t.co/nee6iZX1b9
RT @MaraShermanLab: Warning: A UMAP-free CAF heterogeneity paper! Happy to share our latest work @CD_AACR: Tissue-resident stellate cells g…
RT @Aiims1742: The preprint from @MaraShermanLab just got published in @CD_AACR 👏🏽👏🏽 https://t.co/davj8K19tA Important insights on the het…
Yet another stellar paper from @MaraShermanLab on the role of the TME in #pancreatic cancer. How could we have ever studied cancer without taking this into account? Congrats!
This will be a landmark - super elegant work on CAF origins and he heterogeneity from @MaraShermanLab. So so happy to see this out Mara, congrats 👏👏👏
@kfo_5002 @UMICHpancreas
RT @LabSpagnoli: Super interesting work from @MaraShermanLab on the 'cellular origins of PDAC CAFs' ! Congratulations 👏👏