Antipermeability and antiproliferative effects of standard and frozen bevacizumab on choroidal endothelial cells

Swaantje Peters; Sylvie Julien; Peter Heiduschka; Salvatore Grisanti; Focke Ziemssen; Martin Adler; Ulrich Schraermeyer; Karl-Ulrich Bartz-Schmidt

doi:10.1136/bjo.2006.109702

Antipermeability and antiproliferative effects of standard and frozen bevacizumab on choroidal endothelial cells

Swaantje Peters, Sylvie Julien, Peter Heiduschka, Salvatore Grisanti, Focke Ziemssen, Martin Adler, Ulrich Schraermeyer, Karl-Ulrich Bartz-Schmidt

Abstract

BACKGROUND: Bevacizumab is an antiangiogenic compound developed to target tumour vessels. Its off-label use in ophthalmology requires in vitro testing on ocular cells.

AIM: To quantify the antipermeability and antiproliferative effects of bevacizumab on cultured choroidal endothelial cells (CECs). It was examined whether deep-freezing of bevacizumab attenuates its antiangiogenic activity.

METHODS: Porcine CECs were cultured in permeable insert systems. Permeability of the cell monolayers was quantified by a fluorescent isothiocyanate-dextran assay after treatment with vascular endothelial growth factor (VEGF; 20-100 ng/ml) alone and in combination with bevacizumab (0.1-1 mg/ml). Proliferation of the CECs was tested using a "wound scratch" assay. The experiments were repeated with bevacizumab after freezing at -20 degrees C for 5 days.

RESULTS: Bevacizumab significantly reduced VEGF-induced permeability in a dose-dependant manner. A molar ratio of 2.6:1 of bevacizumab to VEGF was required for complete blocking of VEGF-induced rise in permeability. CEC proliferation was significantly blocked by bevacizumab (0.5 mg/ml). Thawed bevacizumab after deep freezing showed a moderate, but not statistically significant loss in activity.

CONCLUSION: Bevacizumab significantly reduces VEGF-induced permeability and proliferation of CECs. Freezing and thawing of bevacizumab will affect its biological activity.

Originalsprache	Englisch
Zeitschrift	British Journal of Ophthalmology
Jahrgang	91
Ausgabenummer	6
Seiten (von - bis)	827-31
Seitenumfang	5
ISSN	0007-1161
DOIs	https://doi.org/10.1136/bjo.2006.109702
Publikationsstatus	Veröffentlicht - 06.2007

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10.1136/bjo.2006.109702

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@article{3337942ee9c741cd8c918976aba4d317,

title = "Antipermeability and antiproliferative effects of standard and frozen bevacizumab on choroidal endothelial cells",

abstract = "BACKGROUND: Bevacizumab is an antiangiogenic compound developed to target tumour vessels. Its off-label use in ophthalmology requires in vitro testing on ocular cells.AIM: To quantify the antipermeability and antiproliferative effects of bevacizumab on cultured choroidal endothelial cells (CECs). It was examined whether deep-freezing of bevacizumab attenuates its antiangiogenic activity.METHODS: Porcine CECs were cultured in permeable insert systems. Permeability of the cell monolayers was quantified by a fluorescent isothiocyanate-dextran assay after treatment with vascular endothelial growth factor (VEGF; 20-100 ng/ml) alone and in combination with bevacizumab (0.1-1 mg/ml). Proliferation of the CECs was tested using a {"}wound scratch{"} assay. The experiments were repeated with bevacizumab after freezing at -20 degrees C for 5 days.RESULTS: Bevacizumab significantly reduced VEGF-induced permeability in a dose-dependant manner. A molar ratio of 2.6:1 of bevacizumab to VEGF was required for complete blocking of VEGF-induced rise in permeability. CEC proliferation was significantly blocked by bevacizumab (0.5 mg/ml). Thawed bevacizumab after deep freezing showed a moderate, but not statistically significant loss in activity.CONCLUSION: Bevacizumab significantly reduces VEGF-induced permeability and proliferation of CECs. Freezing and thawing of bevacizumab will affect its biological activity.",

author = "Swaantje Peters and Sylvie Julien and Peter Heiduschka and Salvatore Grisanti and Focke Ziemssen and Martin Adler and Ulrich Schraermeyer and Karl-Ulrich Bartz-Schmidt",

year = "2007",

month = jun,

doi = "10.1136/bjo.2006.109702",

language = "English",

volume = "91",

pages = "827--31",

journal = "British Journal of Ophthalmology",

issn = "0007-1161",

number = "6",

}

TY - JOUR

T1 - Antipermeability and antiproliferative effects of standard and frozen bevacizumab on choroidal endothelial cells

AU - Peters, Swaantje

AU - Julien, Sylvie

AU - Heiduschka, Peter

AU - Grisanti, Salvatore

AU - Ziemssen, Focke

AU - Adler, Martin

AU - Schraermeyer, Ulrich

AU - Bartz-Schmidt, Karl-Ulrich

PY - 2007/6

Y1 - 2007/6

N2 - BACKGROUND: Bevacizumab is an antiangiogenic compound developed to target tumour vessels. Its off-label use in ophthalmology requires in vitro testing on ocular cells.AIM: To quantify the antipermeability and antiproliferative effects of bevacizumab on cultured choroidal endothelial cells (CECs). It was examined whether deep-freezing of bevacizumab attenuates its antiangiogenic activity.METHODS: Porcine CECs were cultured in permeable insert systems. Permeability of the cell monolayers was quantified by a fluorescent isothiocyanate-dextran assay after treatment with vascular endothelial growth factor (VEGF; 20-100 ng/ml) alone and in combination with bevacizumab (0.1-1 mg/ml). Proliferation of the CECs was tested using a "wound scratch" assay. The experiments were repeated with bevacizumab after freezing at -20 degrees C for 5 days.RESULTS: Bevacizumab significantly reduced VEGF-induced permeability in a dose-dependant manner. A molar ratio of 2.6:1 of bevacizumab to VEGF was required for complete blocking of VEGF-induced rise in permeability. CEC proliferation was significantly blocked by bevacizumab (0.5 mg/ml). Thawed bevacizumab after deep freezing showed a moderate, but not statistically significant loss in activity.CONCLUSION: Bevacizumab significantly reduces VEGF-induced permeability and proliferation of CECs. Freezing and thawing of bevacizumab will affect its biological activity.

AB - BACKGROUND: Bevacizumab is an antiangiogenic compound developed to target tumour vessels. Its off-label use in ophthalmology requires in vitro testing on ocular cells.AIM: To quantify the antipermeability and antiproliferative effects of bevacizumab on cultured choroidal endothelial cells (CECs). It was examined whether deep-freezing of bevacizumab attenuates its antiangiogenic activity.METHODS: Porcine CECs were cultured in permeable insert systems. Permeability of the cell monolayers was quantified by a fluorescent isothiocyanate-dextran assay after treatment with vascular endothelial growth factor (VEGF; 20-100 ng/ml) alone and in combination with bevacizumab (0.1-1 mg/ml). Proliferation of the CECs was tested using a "wound scratch" assay. The experiments were repeated with bevacizumab after freezing at -20 degrees C for 5 days.RESULTS: Bevacizumab significantly reduced VEGF-induced permeability in a dose-dependant manner. A molar ratio of 2.6:1 of bevacizumab to VEGF was required for complete blocking of VEGF-induced rise in permeability. CEC proliferation was significantly blocked by bevacizumab (0.5 mg/ml). Thawed bevacizumab after deep freezing showed a moderate, but not statistically significant loss in activity.CONCLUSION: Bevacizumab significantly reduces VEGF-induced permeability and proliferation of CECs. Freezing and thawing of bevacizumab will affect its biological activity.

U2 - 10.1136/bjo.2006.109702

DO - 10.1136/bjo.2006.109702

M3 - Journal articles

C2 - 17179166

SN - 0007-1161

VL - 91

SP - 827

EP - 831

JO - British Journal of Ophthalmology

JF - British Journal of Ophthalmology

IS - 6

ER -

Antipermeability and antiproliferative effects of standard and frozen bevacizumab on choroidal endothelial cells

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