Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma

Lorenzo Bello; Valeria Lucini; Francesco Costa; Mauro Pluderi; Carlo Giussani; Francesco Acerbi; Giorgio Carrabba; Marilou Pannacci; Dario Caronzolo; Silvia Grosso; Svetlana Shinkaruk; Federica Colleoni; Xavier Canron; Giustino Tomei; Gerard Deleris; Andreas Bikfalvi

doi:10.1158/1078-0432.CCR-04-0194

Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma

Lorenzo Bello, Valeria Lucini, Francesco Costa, Mauro Pluderi, Carlo Giussani, Francesco Acerbi, Giorgio Carrabba, Marilou Pannacci, Dario Caronzolo, Silvia Grosso, Svetlana Shinkaruk, Federica Colleoni, Xavier Canron, Giustino Tomei, Gerard Deleris, Andreas Bikfalvi

Research output: Contribution to journal › Article › peer-review

Abstract

Purpose: We investigated the ability of the combinatorial administration of different inhibitors with activities on glioma angiogenesis, migration, and proliferation to produce a prolonged inhibition of glioma growth. Experimental Design: We combined inhibitors affecting solely tumor angiogenesis (PF-4/CTF, cyclo-VEGI) or inhibitors affecting both angiogenesis and invasion together (PEX, PF-4/DLR). Results: When administered in combination, these drugs produced a prolonged and increased inhibition of glioma growth independently from the type of inhibitor used. The combinatory administration was more effective than the administration of a single inhibitor alone, and a strong therapeutic response was reached with a significantly lower amount of protein. The strongest inhibition was observed when human PEX and PF-4/DLR, which affect both glioma angiogenesis and invasion by separate mechanisms, were combined. Conclusions: This supports the concept that prolonged glioma growth inhibition can be achieved by simultaneous delivery of molecules that target both tumor and endothelial cells and acting by separate mechanisms.

Original language	English
Pages (from-to)	4527-4537
Number of pages	11
Journal	Clinical Cancer Research
Volume	10
Issue number	13
DOIs	https://doi.org/10.1158/1078-0432.CCR-04-0194
Publication status	Published - Jul 1 2004

ASJC Scopus subject areas

Cancer Research
Oncology

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Bello, L., Lucini, V., Costa, F., Pluderi, M., Giussani, C., Acerbi, F., Carrabba, G., Pannacci, M., Caronzolo, D., Grosso, S., Shinkaruk, S., Colleoni, F., Canron, X., Tomei, G., Deleris, G., & Bikfalvi, A. (2004). Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma. Clinical Cancer Research, 10(13), 4527-4537. https://doi.org/10.1158/1078-0432.CCR-04-0194

Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma. / Bello, Lorenzo; Lucini, Valeria; Costa, Francesco et al.

In: Clinical Cancer Research, Vol. 10, No. 13, 01.07.2004, p. 4527-4537.

Research output: Contribution to journal › Article › peer-review

Bello, L, Lucini, V, Costa, F , Pluderi, M, Giussani, C, Acerbi, F , Carrabba, G, Pannacci, M, Caronzolo, D, Grosso, S, Shinkaruk, S, Colleoni, F, Canron, X, Tomei, G, Deleris, G & Bikfalvi, A 2004, 'Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma', Clinical Cancer Research, vol. 10, no. 13, pp. 4527-4537. https://doi.org/10.1158/1078-0432.CCR-04-0194

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abstract = "Purpose: We investigated the ability of the combinatorial administration of different inhibitors with activities on glioma angiogenesis, migration, and proliferation to produce a prolonged inhibition of glioma growth. Experimental Design: We combined inhibitors affecting solely tumor angiogenesis (PF-4/CTF, cyclo-VEGI) or inhibitors affecting both angiogenesis and invasion together (PEX, PF-4/DLR). Results: When administered in combination, these drugs produced a prolonged and increased inhibition of glioma growth independently from the type of inhibitor used. The combinatory administration was more effective than the administration of a single inhibitor alone, and a strong therapeutic response was reached with a significantly lower amount of protein. The strongest inhibition was observed when human PEX and PF-4/DLR, which affect both glioma angiogenesis and invasion by separate mechanisms, were combined. Conclusions: This supports the concept that prolonged glioma growth inhibition can be achieved by simultaneous delivery of molecules that target both tumor and endothelial cells and acting by separate mechanisms.",

author = "Lorenzo Bello and Valeria Lucini and Francesco Costa and Mauro Pluderi and Carlo Giussani and Francesco Acerbi and Giorgio Carrabba and Marilou Pannacci and Dario Caronzolo and Silvia Grosso and Svetlana Shinkaruk and Federica Colleoni and Xavier Canron and Giustino Tomei and Gerard Deleris and Andreas Bikfalvi",

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T1 - Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma

AU - Bello, Lorenzo

AU - Lucini, Valeria

AU - Costa, Francesco

AU - Pluderi, Mauro

AU - Giussani, Carlo

AU - Acerbi, Francesco

AU - Carrabba, Giorgio

AU - Pannacci, Marilou

AU - Caronzolo, Dario

AU - Grosso, Silvia

AU - Shinkaruk, Svetlana

AU - Colleoni, Federica

AU - Canron, Xavier

AU - Tomei, Giustino

AU - Deleris, Gerard

AU - Bikfalvi, Andreas

PY - 2004/7/1

Y1 - 2004/7/1

N2 - Purpose: We investigated the ability of the combinatorial administration of different inhibitors with activities on glioma angiogenesis, migration, and proliferation to produce a prolonged inhibition of glioma growth. Experimental Design: We combined inhibitors affecting solely tumor angiogenesis (PF-4/CTF, cyclo-VEGI) or inhibitors affecting both angiogenesis and invasion together (PEX, PF-4/DLR). Results: When administered in combination, these drugs produced a prolonged and increased inhibition of glioma growth independently from the type of inhibitor used. The combinatory administration was more effective than the administration of a single inhibitor alone, and a strong therapeutic response was reached with a significantly lower amount of protein. The strongest inhibition was observed when human PEX and PF-4/DLR, which affect both glioma angiogenesis and invasion by separate mechanisms, were combined. Conclusions: This supports the concept that prolonged glioma growth inhibition can be achieved by simultaneous delivery of molecules that target both tumor and endothelial cells and acting by separate mechanisms.

AB - Purpose: We investigated the ability of the combinatorial administration of different inhibitors with activities on glioma angiogenesis, migration, and proliferation to produce a prolonged inhibition of glioma growth. Experimental Design: We combined inhibitors affecting solely tumor angiogenesis (PF-4/CTF, cyclo-VEGI) or inhibitors affecting both angiogenesis and invasion together (PEX, PF-4/DLR). Results: When administered in combination, these drugs produced a prolonged and increased inhibition of glioma growth independently from the type of inhibitor used. The combinatory administration was more effective than the administration of a single inhibitor alone, and a strong therapeutic response was reached with a significantly lower amount of protein. The strongest inhibition was observed when human PEX and PF-4/DLR, which affect both glioma angiogenesis and invasion by separate mechanisms, were combined. Conclusions: This supports the concept that prolonged glioma growth inhibition can be achieved by simultaneous delivery of molecules that target both tumor and endothelial cells and acting by separate mechanisms.

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Combinatorial administration of molecules that simultaneously inhibit angiogenesis and invasion leads to increased therapeutic efficacy in mouse models of malignant glioma

Abstract

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