Read the paper from the Kastan Award winners, @marian_waterman, @g_chen, et al. Disruption of β-Catenin–Dependent Wnt Signaling in #ColonCancer Cells Remodels the Microenvironment to Promote Tumor Invasion. https://t.co/qwdG0n0JZy @UCIrvine https://t.co/IL
Read the paper from the Kastan Award winners, @marian_waterman, @g_chen et al. Disruption of β-Catenin–Dependent Wnt Signaling in #ColonCancer Cells Remodels the Microenvironment to Promote Tumor Invasion. https://t.co/qwdG0n0JZy https://t.co/bo0HTi3abt
RT @MCR_AACR: Read the paper from the Kastan Award winners, @marian_waterman, @g_chen et al. Disruption of β-Catenin–Dependent Wnt Signalin…
Read the paper from the Kastan Award winners, @marian_waterman, @g_chen et al. Disruption of β-Catenin–Dependent Wnt Signaling in Colon Cancer Cells Remodels the Microenvironment to Promote Tumor Invasion. https://t.co/qwdG0n0JZy https://t.co/h6J6ScmGSY
RT @MCR_AACR: Read the paper from the Kastan Award winners, @marian_waterman, @g_chen, and colleagues— Disruption of β-Catenin–Dependent Wn…
Read the paper from the Kastan Award winners, @marian_waterman, @g_chen, and colleagues— Disruption of β-Catenin–Dependent Wnt Signaling in Colon Cancer Cells Remodels the Microenvironment to Promote Tumor Invasion. https://t.co/qwdG0n1hP6 https://t.co/6PY
RT @MCR_AACR: Read the paper from the Kastan Award winners, @g_chen, @marian_waterman et al— Disruption of β-Catenin–Dependent Wnt Signalin…
Read the paper from the Kastan Award winners, @g_chen, @marian_waterman et al— Disruption of β-Catenin–Dependent Wnt Signaling in Colon Cancer Cells Remodels the Microenvironment to Promote Tumor Invasion. https://t.co/qwdG0n0JZy #AACR23
Read the paper from the Kastan Award winners, Waterman, Chen et al— Disruption of β-Catenin–Dependent Wnt Signaling in Colon Cancer Cells Remodels the Microenvironment to Promote Tumor Invasion. https://t.co/qwdG0n0JZy #AACR23
Congratulations to Marian L. Waterman, PhD (@marian_waterman), George T. Chen, PhD (@g_chen), and colleagues, recipients of this year’s MCR Michael B. Kastan Award for Research Excellence! Find out more about this award here— https://t.co/qwdG0n0JZy @UCIrv
Meeting @marian_waterman and @g_chen at #AACR23 last night and learning more about their work were a pleasure. Looking forward to seeing the fruits of their efforts moving forward!
RT @MCR_AACR: Congratulations to 2023 MCR Michael B. Kastan Award for Research Excellence winner @marian_waterman! Read the award-winning a…
RT @MCR_AACR: Congratulations to 2023 MCR Michael B. Kastan Award for Research Excellence winner @marian_waterman! Read the award-winning a…
RT @MCR_AACR: Congratulations to 2023 MCR Michael B. Kastan Award for Research Excellence winner @marian_waterman! Read the award-winning a…
Congratulations to 2023 MCR Michael B. Kastan Award for Research Excellence winner @marian_waterman! Read the award-winning article from @g_chen, Dr. Waterman et al. detailing how Wnt signaling disruption can promote #ColorectalCancer invasion— https://t.c
RT @NCIsysbio: Using experimental models in a @MCR_AACR study, she showed that decreasing Wnt signaling in #ColonCancer cells remodels the…
RT @NCIsysbio: Using experimental models in a @MCR_AACR study, she showed that decreasing Wnt signaling in #ColonCancer cells remodels the…
RT @NCIsysbio: Using experimental models in a @MCR_AACR study, she showed that decreasing Wnt signaling in #ColonCancer cells remodels the…
RT @NCIsysbio: Using experimental models in a @MCR_AACR study, she showed that decreasing Wnt signaling in #ColonCancer cells remodels the…
RT @NCIsysbio: Using experimental models in a @MCR_AACR study, she showed that decreasing Wnt signaling in #ColonCancer cells remodels the…
Using experimental models in a @MCR_AACR study, she showed that decreasing Wnt signaling in #ColonCancer cells remodels the #tumormicroenvironment to promote migration and invasion. https://t.co/MM4wVPiKnd #ColorectalCancerAwarenessMonth
.@miltenyibiotec your resource, https://t.co/Nagmr49siX, was just reported to be used in "Disruption of beta-catenin dependent Wnt signaling…": https://t.co/uErwiClAGa (https://t.co/MLUFoTDRdl). Thank you for making your #methodsmatter. #STMpublishing
RT @NCIsysbio: Using preclinical models, @marian_waterman et al. @UCIrvine #NCICSBC found that disruption of #Wnt signaling in #coloncancer…
Using preclinical models, @marian_waterman et al. @UCIrvine #NCICSBC found that disruption of #Wnt signaling in #coloncancer cells remodels the #microenvironment to promote tumor invasion @MCR_AACR https://t.co/vSw3XNiOuo. https://t.co/AqxLviL6b3
#ICYMI: Disrupting Wnt signaling in #ColonCancer cells remodels the microenvironment to promote #TumorInvasion. While targeting Wnt signaling may reduce #TumorBurden, invasive cancer is an inadvertent side effect. https://t.co/YOuBaOr5mR @AmberHabowski htt
Controversy in targering β-Catenin–Dependent Wnt Signaling in cancer treatment …
Disrupting Wnt signaling in #ColonCancer cells remodels the microenvironment to promote #TumorInvasion. While targeting Wnt signaling may reduce #TumorBurden, invasive cancer is an inadvertent side effect. https://t.co/xYx0f5a0dt @AmberHabowski https://t.c
RT @g_chen: Thrilled to be able to share my graduate school project out now in Molecular Cancer Research: "Disruption of beta-catenin depen…
Thrilled to be able to share my graduate school project out now in Molecular Cancer Research: "Disruption of beta-catenin dependent Wnt signaling in colon cancer cells remodels the microenvironment to promote tumor invasion" A thread on our findings: (1/n)
RT @MCR_AACR: Disrupting Wnt signaling in #ColonCancer cells remodels the microenvironment to promote #TumorInvasion. While targeting Wnt s…
Disrupting Wnt signaling in #ColonCancer cells remodels the microenvironment to promote #TumorInvasion. While targeting Wnt signaling may reduce #TumorBurden, invasive cancer is an inadvertent side effect. https://t.co/Uy728XUQcV @g_chen @AmberHabowski htt
😱 Disruption of beta-catenin dependent Wnt signaling in colon cancer cells remodels the microenvironment to promote tumor invasion https://t.co/FL7YbJSc0v
This study suggests that decreased #Wnt signaling in #colon tumors leads to a more aggressive disease phenotype due to an upregulation of gene programs favoring cell migration in the #tumor. 👉 https://t.co/8CPe34s2y1 https://t.co/iXimrsThNU
Disruption of beta-catenin dependent Wnt signaling in colon cancer cells remodels the microenvironment to promote tumor invasion: The recent classification of colon cancer into molecular subtypes revealed that patients with the poorest prognosis harbor… ht