Cell type-specific aspects in biocompatibility testing: The intercellular contact in vitro as an indicator for endothelial cell compatibility

Kirsten Peters; Ronald E. Unger; Susanne Stumpf; Julia Schäfer; Roman Tsaryk; Bettina Hoffmann; Eva Eisenbarth; Jürgen Breme; Günter Ziegler; C. James Kirkpatrick

doi:10.1007/s10856-007-3227-y

Cell type-specific aspects in biocompatibility testing: The intercellular contact in vitro as an indicator for endothelial cell compatibility

Kirsten Peters, Ronald E. Unger, Susanne Stumpf, Julia Schäfer, Roman Tsaryk, Bettina Hoffmann, Eva Eisenbarth, Jürgen Breme, Günter Ziegler, C. James Kirkpatrick

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

13 Scopus citations

Abstract

Endothelial cells cover the inner surface of blood vessels and form the interface between the blood and the tissues. Endothelial cells are involved in regulating barrier function, which is maintained by the interendothelial cell contacts. These interendothelial cell contacts are established by the interaction of different molecules. The maintenance of the barrier requires an appropriate signalling between these molecules. Thus, a number of different signalling pathways are integrated within interendothelial contacts. Since endothelial cells are important in tissue-implant interactions (especially for stent materials) this study examines the expression pattern of different interendothelial contact molecules to determine the usefulness in the analysis of biocompatibility in vitro. The effects of different pro-inflammatory and toxic stimuli and contact of human microvascular endothelial cells to metallic surfaces were examined for their impact on the pattern of interendothelial contact molecules. Striking modifications in the arrangement of these molecules were induced and the mode of modification was dependent on the tested compound. Thus, examining the pattern of expression of specific interendothelial contact molecules in vitro may be useful for testing the endothelial cell compatibility of biomaterials and their corrosion products.

Original language	English
Pages (from-to)	1637-1644
Number of pages	8
Journal	Journal of Materials Science: Materials in Medicine
Volume	19
Issue number	4
DOIs	https://doi.org/10.1007/s10856-007-3227-y
State	Published - Apr 2008
Externally published	Yes

Bibliographical note

Funding Information:
Acknowledgement This work was supported by the German Research Foundation (Deutsche Forschungsgemeinschaft DFG, Priority Programme ‘‘Biosystem’’, Ki 601/1-4). We would like to thank Susanne Barth for her excellent technical assistance.

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Peters, K., Unger, R. E., Stumpf, S., Schäfer, J., Tsaryk, R., Hoffmann, B., Eisenbarth, E., Breme, J., Ziegler, G., & Kirkpatrick, C. J. (2008). Cell type-specific aspects in biocompatibility testing: The intercellular contact in vitro as an indicator for endothelial cell compatibility. Journal of Materials Science: Materials in Medicine, 19(4), 1637-1644. https://doi.org/10.1007/s10856-007-3227-y

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abstract = "Endothelial cells cover the inner surface of blood vessels and form the interface between the blood and the tissues. Endothelial cells are involved in regulating barrier function, which is maintained by the interendothelial cell contacts. These interendothelial cell contacts are established by the interaction of different molecules. The maintenance of the barrier requires an appropriate signalling between these molecules. Thus, a number of different signalling pathways are integrated within interendothelial contacts. Since endothelial cells are important in tissue-implant interactions (especially for stent materials) this study examines the expression pattern of different interendothelial contact molecules to determine the usefulness in the analysis of biocompatibility in vitro. The effects of different pro-inflammatory and toxic stimuli and contact of human microvascular endothelial cells to metallic surfaces were examined for their impact on the pattern of interendothelial contact molecules. Striking modifications in the arrangement of these molecules were induced and the mode of modification was dependent on the tested compound. Thus, examining the pattern of expression of specific interendothelial contact molecules in vitro may be useful for testing the endothelial cell compatibility of biomaterials and their corrosion products.",

author = "Kirsten Peters and Unger, {Ronald E.} and Susanne Stumpf and Julia Sch{\"a}fer and Roman Tsaryk and Bettina Hoffmann and Eva Eisenbarth and J{\"u}rgen Breme and G{\"u}nter Ziegler and Kirkpatrick, {C. James}",

note = "Funding Information: Acknowledgement This work was supported by the German Research Foundation (Deutsche Forschungsgemeinschaft DFG, Priority Programme {\textquoteleft}{\textquoteleft}Biosystem{\textquoteright}{\textquoteright}, Ki 601/1-4). We would like to thank Susanne Barth for her excellent technical assistance.",

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Peters, K, Unger, RE, Stumpf, S, Schäfer, J, Tsaryk, R, Hoffmann, B, Eisenbarth, E, Breme, J, Ziegler, G & Kirkpatrick, CJ 2008, 'Cell type-specific aspects in biocompatibility testing: The intercellular contact in vitro as an indicator for endothelial cell compatibility', Journal of Materials Science: Materials in Medicine, vol. 19, no. 4, pp. 1637-1644. https://doi.org/10.1007/s10856-007-3227-y

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AU - Schäfer, Julia

AU - Tsaryk, Roman

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AU - Eisenbarth, Eva

AU - Breme, Jürgen

AU - Ziegler, Günter

AU - Kirkpatrick, C. James

N1 - Funding Information: Acknowledgement This work was supported by the German Research Foundation (Deutsche Forschungsgemeinschaft DFG, Priority Programme ‘‘Biosystem’’, Ki 601/1-4). We would like to thank Susanne Barth for her excellent technical assistance.

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N2 - Endothelial cells cover the inner surface of blood vessels and form the interface between the blood and the tissues. Endothelial cells are involved in regulating barrier function, which is maintained by the interendothelial cell contacts. These interendothelial cell contacts are established by the interaction of different molecules. The maintenance of the barrier requires an appropriate signalling between these molecules. Thus, a number of different signalling pathways are integrated within interendothelial contacts. Since endothelial cells are important in tissue-implant interactions (especially for stent materials) this study examines the expression pattern of different interendothelial contact molecules to determine the usefulness in the analysis of biocompatibility in vitro. The effects of different pro-inflammatory and toxic stimuli and contact of human microvascular endothelial cells to metallic surfaces were examined for their impact on the pattern of interendothelial contact molecules. Striking modifications in the arrangement of these molecules were induced and the mode of modification was dependent on the tested compound. Thus, examining the pattern of expression of specific interendothelial contact molecules in vitro may be useful for testing the endothelial cell compatibility of biomaterials and their corrosion products.

AB - Endothelial cells cover the inner surface of blood vessels and form the interface between the blood and the tissues. Endothelial cells are involved in regulating barrier function, which is maintained by the interendothelial cell contacts. These interendothelial cell contacts are established by the interaction of different molecules. The maintenance of the barrier requires an appropriate signalling between these molecules. Thus, a number of different signalling pathways are integrated within interendothelial contacts. Since endothelial cells are important in tissue-implant interactions (especially for stent materials) this study examines the expression pattern of different interendothelial contact molecules to determine the usefulness in the analysis of biocompatibility in vitro. The effects of different pro-inflammatory and toxic stimuli and contact of human microvascular endothelial cells to metallic surfaces were examined for their impact on the pattern of interendothelial contact molecules. Striking modifications in the arrangement of these molecules were induced and the mode of modification was dependent on the tested compound. Thus, examining the pattern of expression of specific interendothelial contact molecules in vitro may be useful for testing the endothelial cell compatibility of biomaterials and their corrosion products.

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Cell type-specific aspects in biocompatibility testing: The intercellular contact in vitro as an indicator for endothelial cell compatibility

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