Proliferation status defines functional properties of endothelial cells |
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Authors: | Christoph Lipps Muhammad Badar Milada Butueva Tatyana Dubich Vivek Vikram Singh Sophie Rau Axel Weber Michael Kracht Mario Köster Tobias May Thomas F. Schulz Hansjörg Hauser Dagmar Wirth |
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Affiliation: | 1.Model Systems for Infection and Immunity,Helmholtz Centre for Infection Research,Braunschweig,Germany;2.Institute for Virology,Medical University in Hannover,Hannover,Germany;3.Institute of Veterinary Pathology,Freie Universit?t Berlin,Berlin,Germany;4.Rudolf-Buchheim Institute for Pharmacology,Giessen,Germany;5.Value Edge Research Services,Noida,India;6.Inscreenex GmbH,Brunswick,Germany;7.Institute for Experimental Hematology,Medical University in Hannover,Hannover,Germany;8.Gomal Center of Biochemistry and Biotechnology,Gomal University,D. I. Khan,Pakistan;9.Experimental Cardiology,Justus-Liebig-University,Giessen,Germany |
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Abstract: | Homeostasis of solid tissue is characterized by a low proliferative activity of differentiated cells while special conditions like tissue damage induce regeneration and proliferation. For some cell types it has been shown that various tissue-specific functions are missing in the proliferating state, raising the possibility that their proliferation is not compatible with a fully differentiated state. While endothelial cells are important players in regenerating tissue as well as in the vascularization of tumors, the impact of proliferation on their features remains elusive. To examine cell features in dependence of proliferation, we established human endothelial cell lines in which proliferation is tightly controlled by a doxycycline-dependent, synthetic regulatory unit. We observed that uptake of macromolecules and establishment of cell–cell contacts was more pronounced in the growth-arrested state. Tube-like structures were formed in vitro in both proliferating and non-proliferating conditions. However, functional vessel formation upon transplantation into immune-compromised mice was restricted to the proliferative state. Kaposi’s sarcoma-associated herpes virus (KSHV) infection resulted in reduced expression of endothelial markers. Upon transplantation of infected cells, drastic differences were observed: proliferation arrested cells acquired a high migratory activity while the proliferating counterparts established a tumor-like phenotype, similar to Kaposi Sarcoma lesions. The study gives evidence that proliferation governs endothelial functions. This suggests that several endothelial functions are differentially expressed during angiogenesis. Moreover, since proliferation defines the functional properties of cells upon infection with KSHV, this process crucially affects the fate of virus-infected cells. |
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