Marc Thomas Schönholzer scite author profile

Marc Thomas Schönholzer

2Publications

28Citation Statements Received

115Citation Statements Given

How they've been cited

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106

Affiliations

Children's Oncology Group, University Children's Hospital Zurich

Publications

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Real-time sensing of MAPK signaling in medulloblastoma cells reveals cellular evasion mechanism counteracting dasatinib blockade of ERK activation during invasion

et al. 2020

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Highlights Growth factor signaling causes sustained nuclear ERK1/2 activation. The SCR and BCR/ABL inhibitor dasatinib blocks ERK1/2 and represses cell invasion. EGF-stimulated cells may escape dasatinib inhibition of invasion through mesenchymal to amoeboid transition. Combined inhibition of SRC and Rho-kinase signaling is necessary to completely block EGF-induced invasion.

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Crosstalk between SHH and FGFR Signaling Pathways Controls Tissue Invasion in Medulloblastoma

Neve

Migliavacca

Capdeville

et al. 2019

Cancers

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In the Sonic Hedgehog (SHH) subgroup of medulloblastoma (MB), tumor initiation and progression are in part driven by smoothened (SMO) and fibroblast growth factor (FGF)-receptor (FGFR) signaling, respectively. We investigated the impact of the SMO-FGFR crosstalk on tumor growth and invasiveness in MB. We found that FGFR signaling represses GLI1 expression downstream of activated SMO in the SHH MB line DAOY and induces MKI67, HES1, and BMI1 in DAOY and in the group 3 MB line HD-MBO3. FGFR repression of GLI1 does not affect proliferation or viability, whereas inhibition of FGFR is necessary to release SMO-driven invasiveness. Conversely, SMO activation represses FGFR-driven sustained activation of nuclear ERK. Parallel activation of FGFR and SMO in ex vivo tumor cell-cerebellum slice co-cultures reduced invasion of tumor cells without affecting proliferation. In contrast, treatment of the cells with the SMO antagonist Sonidegib (LDE225) blocked invasion and proliferation in cerebellar slices. Thus, sustained, low-level SMO activation is necessary for proliferation and tissue invasion, whereas acute, pronounced activation of SMO can repress FGFR-driven invasiveness. This suggests that the tumor cell response is dependent on the relative local abundance of the two factors and indicates a paradigm of microenvironmental control of invasion in SHH MB through mutual control of SHH and FGFR signaling.

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