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Overexpression of Receptor Tyrosine Kinase EphB4 Triggers Tumor Growth and Hypoxia in A375 Melanoma Xenografts: Insights from Multitracer Small Animal Imaging Experiments.

Authors :
Neuber, Christin
Belter, Birgit
Meister, Sebastian
Hofheinz, Frank
Bergmann, Ralf
Pietzsch, Hans-Jürgen
Pietzsch, Jens
Source :
Molecules. Feb2018, Vol. 23 Issue 2, p444. 21p. 1 Color Photograph, 6 Graphs.
Publication Year :
2018

Abstract

Experimental evidence has associated receptor tyrosine kinase EphB4 with tumor angiogenesis also in malignant melanoma. Considering the limited in vivo data available, we have conducted a systematic multitracer and multimodal imaging investigation in EphB4-overexpressing and mock-transfected A375 melanoma xenografts. Tumor growth, perfusion, and hypoxia were investigated by positron emission tomography. Vascularization was investigated by fluorescence imaging in vivo and ex vivo. The approach was completed by magnetic resonance imaging, radioluminography ex vivo, and immunohistochemical staining for blood and lymph vessel markers. Results revealed EphB4 to be a positive regulator of A375 melanoma growth, but a negative regulator of tumor vascularization. Resulting in increased hypoxia, this physiological characteristic is considered as highly unfavorable for melanoma prognosis and therapy outcome. Lymphangiogenesis, by contrast, was not influenced by EphB4 overexpression. In order to distinguish between EphB4 forward and EphrinB2, the natural EphB4 ligand, reverse signaling a specific EphB4 kinase inhibitor was applied. Blocking experiments show EphrinB2 reverse signaling rather than EphB4 forward signaling to be responsible for the observed effects. In conclusion, functional expression of EphB4 is considered a promising differentiating characteristic, preferentially determined by non-invasive in vivo imaging, which may improve personalized theranostics of malignant melanoma. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
14203049
Volume :
23
Issue :
2
Database :
Academic Search Index
Journal :
Molecules
Publication Type :
Academic Journal
Accession number :
128283677
Full Text :
https://doi.org/10.3390/molecules23020444