Cilengitide Modulates Attachment and Viability of Human Glioma Cells but not Sensitivity to Irradiation or Temozolomide in Vitro : P213
Details
Serval ID
serval:BIB_8BB7B12E4EEB
Type
Inproceedings: an article in a conference proceedings.
Publication sub-type
Poster: Summary – with images – on one page of the results of a researche project. The summaries of the poster must be entered in "Abstract" and not "Poster".
Collection
Publications
Institution
Title
Cilengitide Modulates Attachment and Viability of Human Glioma Cells but not Sensitivity to Irradiation or Temozolomide in Vitro : P213
Title of the conference
3rd Quadrennial Meeting of the World-Federation-of-Neuro-Oncoloyg/6th Meeting of the Asian-Society-for-Neuro-Oncology
Address
Yokohama, Japan, May 11-14, 2009
ISBN
1522-8517
Publication state
Published
Issued date
2009
Peer-reviewed
Oui
Volume
11
Series
Neuro-Oncology
Pages
952-953
Language
english
Notes
Cilengitide is a cyclic peptide antagonist of integrins ab3 and ab5
which is currently evaluated as a novel therapeutic agent for recurrent and
newly diagnosed glioblastoma. Its mode of action is thought to be mainly
antiangiogenic, but may include direct effects on tumor cells, notably on
attachment, migration, invasion, and viability. Here we show that cilengitide
induces detachment in some glioma cell lines, while the effect on
cell viability is modest. Detachment induced by cilengitide could not be
predicted by the level of expression of the cilengitide target molecules at the
cell surface. Glioma cell death induced by cilengitide was associated with
the generation of caspase activity, but caspase activity was dispensable for
cell death since ectopic expression of cytokine response modifier (crm)-A
or the broad spectrum caspase inhibitor, zVAD-fmk, were not protective.
Moreover, forced expression of Bcl-XL or altering the p53 status did not
modulate cilengitide-induced cell death. No consistent effects of cilengitide
on glioma cell migration or invasiveness were observed in vitro. Neither
ectopic expression of MGMT in MGMT-negative cells nor silencing the
MGMT gene in MGMT-positive cells altered their response to cilengitide
alone or cilengitide in combination with temozolomide. These data
suggest that the beneficial clinical effects derived from cilengitide in vivo
may arise from altered perfusion that promotes temozolomide delivery to
glioma cells.
which is currently evaluated as a novel therapeutic agent for recurrent and
newly diagnosed glioblastoma. Its mode of action is thought to be mainly
antiangiogenic, but may include direct effects on tumor cells, notably on
attachment, migration, invasion, and viability. Here we show that cilengitide
induces detachment in some glioma cell lines, while the effect on
cell viability is modest. Detachment induced by cilengitide could not be
predicted by the level of expression of the cilengitide target molecules at the
cell surface. Glioma cell death induced by cilengitide was associated with
the generation of caspase activity, but caspase activity was dispensable for
cell death since ectopic expression of cytokine response modifier (crm)-A
or the broad spectrum caspase inhibitor, zVAD-fmk, were not protective.
Moreover, forced expression of Bcl-XL or altering the p53 status did not
modulate cilengitide-induced cell death. No consistent effects of cilengitide
on glioma cell migration or invasiveness were observed in vitro. Neither
ectopic expression of MGMT in MGMT-negative cells nor silencing the
MGMT gene in MGMT-positive cells altered their response to cilengitide
alone or cilengitide in combination with temozolomide. These data
suggest that the beneficial clinical effects derived from cilengitide in vivo
may arise from altered perfusion that promotes temozolomide delivery to
glioma cells.
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Create date
09/03/2010 13:16
Last modification date
20/08/2019 15:50
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