Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells

Pierre-Olivier Guichet; Sophie Guelfi; Marisa Teigell; Liesa Hoppe; Norbert Bakalara; Luc Bauchet; Hugues Duffau; Katrin Lamszus; Bernard Rothhut; Jean-Philippe Hugnot

doi:10.1002/stem.1767

Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells

Standard

Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells. / Guichet, Pierre-Olivier; Guelfi, Sophie; Teigell, Marisa; Hoppe, Liesa; Bakalara, Norbert; Bauchet, Luc; Duffau, Hugues; Lamszus, Katrin; Rothhut, Bernard; Hugnot, Jean-Philippe.

in: STEM CELLS, Jahrgang 33, Nr. 1, 01.01.2015, S. 21-34.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Guichet, P-O, Guelfi, S, Teigell, M, Hoppe, L, Bakalara, N, Bauchet, L, Duffau, H, Lamszus, K, Rothhut, B & Hugnot, J-P 2015, 'Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells', STEM CELLS, Jg. 33, Nr. 1, S. 21-34. https://doi.org/10.1002/stem.1767

APA

Guichet, P-O., Guelfi, S., Teigell, M., Hoppe, L., Bakalara, N., Bauchet, L., Duffau, H., Lamszus, K., Rothhut, B., & Hugnot, J-P. (2015). Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells. STEM CELLS, 33(1), 21-34. https://doi.org/10.1002/stem.1767

Vancouver

Guichet P-O, Guelfi S, Teigell M, Hoppe L, Bakalara N, Bauchet L et al. Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells. STEM CELLS. 2015 Jan 1;33(1):21-34. https://doi.org/10.1002/stem.1767

Bibtex

@article{d81b92c155f448f088e8021145e2037d,

title = "Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells",

abstract = "Glioblastoma multiforms (GBMs) are highly vascularized brain tumors containing a subpopulation of multipotent cancer stem cells. These cells closely interact with endothelial cells in neurovascular niches. In this study, we have uncovered a close link between the Notch1 pathway and the tumoral vascularization process of GBM stem cells. We observed that although the Notch1 receptor was activated, the typical target proteins (HES5, HEY1, and HEY2) were not or barely expressed in two explored GBM stem cell cultures. Notch1 signaling activation by expression of the intracellular form (NICD) in these cells was found to reduce their growth rate and migration, which was accompanied by the sharp reduction in neural stem cell transcription factor expression (ASCL1, OLIG2, and SOX2), while HEY1/2, KLF9, and SNAI2 transcription factors were upregulated. Expression of OLIG2 and growth were restored after termination of Notch1 stimulation. Remarkably, NICD expression induced the expression of pericyte cell markers (NG2, PDGFRβ, and α-smooth muscle actin [αSMA]) in GBM stem cells. This was paralleled with the induction of several angiogenesis-related factors most notably cytokines (heparin binding epidermal growth factor [HB-EGF], IL8, and PLGF), matrix metalloproteinases (MMP9), and adhesion proteins (vascular cell adhesion molecule 1 [VCAM1], intercellular adhesion molecule 1 [ICAM1], and integrin alpha 9 [ITGA9]). In xenotransplantation experiments, contrasting with the infiltrative and poorly vascularized tumors obtained with control GBM stem cells, Notch1 stimulation resulted in poorly disseminating but highly vascularized grafts containing large vessels with lumen. Notch1-stimulated GBM cells expressed pericyte cell markers and closely associated with endothelial cells. These results reveal an important role for the Notch1 pathway in regulating GBM stem cell plasticity and angiogenic properties.",

author = "Pierre-Olivier Guichet and Sophie Guelfi and Marisa Teigell and Liesa Hoppe and Norbert Bakalara and Luc Bauchet and Hugues Duffau and Katrin Lamszus and Bernard Rothhut and Jean-Philippe Hugnot",

note = "{\textcopyright} 2014 AlphaMed Press.",

year = "2015",

month = jan,

day = "1",

doi = "10.1002/stem.1767",

language = "English",

volume = "33",

pages = "21--34",

journal = "STEM CELLS",

issn = "1066-5099",

publisher = "ALPHAMED PRESS",

number = "1",

}

RIS

TY - JOUR

T1 - Notch1 stimulation induces a vascularization switch with pericyte-like cell differentiation of glioblastoma stem cells

AU - Guichet, Pierre-Olivier

AU - Guelfi, Sophie

AU - Teigell, Marisa

AU - Hoppe, Liesa

AU - Bakalara, Norbert

AU - Bauchet, Luc

AU - Duffau, Hugues

AU - Lamszus, Katrin

AU - Rothhut, Bernard

AU - Hugnot, Jean-Philippe

PY - 2015/1/1

Y1 - 2015/1/1

N2 - Glioblastoma multiforms (GBMs) are highly vascularized brain tumors containing a subpopulation of multipotent cancer stem cells. These cells closely interact with endothelial cells in neurovascular niches. In this study, we have uncovered a close link between the Notch1 pathway and the tumoral vascularization process of GBM stem cells. We observed that although the Notch1 receptor was activated, the typical target proteins (HES5, HEY1, and HEY2) were not or barely expressed in two explored GBM stem cell cultures. Notch1 signaling activation by expression of the intracellular form (NICD) in these cells was found to reduce their growth rate and migration, which was accompanied by the sharp reduction in neural stem cell transcription factor expression (ASCL1, OLIG2, and SOX2), while HEY1/2, KLF9, and SNAI2 transcription factors were upregulated. Expression of OLIG2 and growth were restored after termination of Notch1 stimulation. Remarkably, NICD expression induced the expression of pericyte cell markers (NG2, PDGFRβ, and α-smooth muscle actin [αSMA]) in GBM stem cells. This was paralleled with the induction of several angiogenesis-related factors most notably cytokines (heparin binding epidermal growth factor [HB-EGF], IL8, and PLGF), matrix metalloproteinases (MMP9), and adhesion proteins (vascular cell adhesion molecule 1 [VCAM1], intercellular adhesion molecule 1 [ICAM1], and integrin alpha 9 [ITGA9]). In xenotransplantation experiments, contrasting with the infiltrative and poorly vascularized tumors obtained with control GBM stem cells, Notch1 stimulation resulted in poorly disseminating but highly vascularized grafts containing large vessels with lumen. Notch1-stimulated GBM cells expressed pericyte cell markers and closely associated with endothelial cells. These results reveal an important role for the Notch1 pathway in regulating GBM stem cell plasticity and angiogenic properties.

AB - Glioblastoma multiforms (GBMs) are highly vascularized brain tumors containing a subpopulation of multipotent cancer stem cells. These cells closely interact with endothelial cells in neurovascular niches. In this study, we have uncovered a close link between the Notch1 pathway and the tumoral vascularization process of GBM stem cells. We observed that although the Notch1 receptor was activated, the typical target proteins (HES5, HEY1, and HEY2) were not or barely expressed in two explored GBM stem cell cultures. Notch1 signaling activation by expression of the intracellular form (NICD) in these cells was found to reduce their growth rate and migration, which was accompanied by the sharp reduction in neural stem cell transcription factor expression (ASCL1, OLIG2, and SOX2), while HEY1/2, KLF9, and SNAI2 transcription factors were upregulated. Expression of OLIG2 and growth were restored after termination of Notch1 stimulation. Remarkably, NICD expression induced the expression of pericyte cell markers (NG2, PDGFRβ, and α-smooth muscle actin [αSMA]) in GBM stem cells. This was paralleled with the induction of several angiogenesis-related factors most notably cytokines (heparin binding epidermal growth factor [HB-EGF], IL8, and PLGF), matrix metalloproteinases (MMP9), and adhesion proteins (vascular cell adhesion molecule 1 [VCAM1], intercellular adhesion molecule 1 [ICAM1], and integrin alpha 9 [ITGA9]). In xenotransplantation experiments, contrasting with the infiltrative and poorly vascularized tumors obtained with control GBM stem cells, Notch1 stimulation resulted in poorly disseminating but highly vascularized grafts containing large vessels with lumen. Notch1-stimulated GBM cells expressed pericyte cell markers and closely associated with endothelial cells. These results reveal an important role for the Notch1 pathway in regulating GBM stem cell plasticity and angiogenic properties.

U2 - 10.1002/stem.1767

DO - 10.1002/stem.1767

M3 - SCORING: Journal article

C2 - 24898819

VL - 33

SP - 21

EP - 34

JO - STEM CELLS

JF - STEM CELLS

SN - 1066-5099

IS - 1

ER -