TY  - JOUR
A1  - Shannon, Graver
A1  - Hein, Melanie
T1  - Tumor cell response to bevacizumab single agent therapy in vitro
JF  - Cancer Cell International
N2  - Background

Angiogenesis represents a highly multi-factorial and multi-cellular complex (patho-) physiologic event involving endothelial cells, tumor cells in malignant conditions, as well as bone marrow derived cells and stromal cells. One main driver is vascular endothelial growth factor (VEGFA), which is known to interact with endothelial cells as a survival and mitogenic signal. The role of VEGFA on tumor cells and /or tumor stromal cell interaction is less clear. Condition specific (e.g. hypoxia) or tumor specific expression of VEGFA, VEGF receptors and co-receptors on tumor cells has been reported, in addition to the expression on the endothelium. This suggests a potential paracrine/autocrine loop that could affect changes specific to tumor cells.

Methods

We used the monoclonal antibody against VEGFA, bevacizumab, in various in vitro experiments using cell lines derived from different tumor entities (non small cell lung cancer (NSCLC), colorectal cancer (CRC), breast cancer (BC) and renal cell carcinoma (RCC)) in order to determine if potential VEGFA signaling could be blocked in tumor cells. The experiments were done under hypoxia, a major inducer of VEGFA and angiogenesis, in an attempt to mimic the physiological tumor condition. Known VEGFA induced endothelial biological responses such as proliferation, migration, survival and gene expression changes were evaluated.

Results

Our study was able to demonstrate expression of VEGF receptors on tumor cells as well as hypoxia regulated angiogenic gene expression. In addition, there was a cell line specific effect in tumor cells by VEGFA blockade with bevacizumab in terms of proliferation; however overall, there was a limited measurable consequence of bevacizumab therapy detected by migration and survival.

Conclusion

The present study showed in a variety of in vitro experiments with several tumor cell lines from different tumor origins, that by blocking VEGFA with bevacizumab, there was a limited autocrine or cell-autonomous function of VEGFA signaling in tumor cells, when evaluating VEGFA induced downstream outputs known in endothelial cells.
KW  - Bevacizumab
KW  - NCI-60
KW  - Tumor angiogenesis
KW  - VEGFA
KW  - Hypoxia
KW  - In vitro
Y1  - 2013
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-97185
UR  - http://www.cancerci.com/content/13/1/94
ER  - 
TY  - THES
A1  - Griffoni, Chiara
T1  - Towards advanced immunocompetent skin wound models for in vitro drug evaluation
T1  - Auf dem Weg zu fortschrittlichen immunkompetenten Hautwundmodellen für die in vitro-Medikamentenbewertung
N2  - Current preclinical models used to evaluate novel therapies for improved healing include both in vitro and in vivo methods. However, ethical concerns related to the use of animals as well as the poor physiological translation between animal and human skin wound healing designate in vitro models as a highly relevant and promising platforms for healing investigation. While current in vitro 3D skin models recapitulate a mature tissue with healing properties, they still represent a simplification of the in vivo conditions, where for example the inflammatory response originating after wound formation involves the contribution of immune cells. Macrophages are among the main contributors to the inflammatory response and regulate its course thanks to their plasticity. Therefore, their implementation into in vitro skin could greatly increase the physiological relevance of the models. As no full-thickness immunocompetent skin model containing macrophages has been reported so far, the parameters necessary for a successful triple co-culture of fibroblasts, keratinocytes and macrophages were here investigated. At first, cell source and culture timed but also an implementation strategy for macrophages were deter-mined. The implementation of macrophages into the skin model focused on the minimization of the culture time to preserve immune cell viability and phenotype, as the environment has a major influence on cell polarization and cytokine production. To this end, incorporation of macrophages in 3D gels prior to the combination with skin models was selected to better mimic the in vivo environment. Em-bedded in collagen hydrogels, macrophages displayed a homogeneous cell distribution within the gel, preserving cell viability, their ability to respond to stimuli and their capability to migrate through the matrix, which are all needed during the involvement of macrophages in the inflammatory response. Once established how to introduce macrophages into skin models, different culture media were evaluated for their effects on primary fibroblasts, keratinocytes and macrophages, to identify a suitable medium composition for the culture of immunocompetent skin. The present work confirmed that each cell type requires a different supplement combination for maintaining functional features and showed for the first time that media that promote and maintain a mature skin structure have negative effects on primary macrophages. Skin differentiation media negatively affected macrophages in terms of viability, morphology, ability to respond to pro- and anti-inflammatory stimuli and to migrate through a collagen gel. The combination of wounded skin equivalents and macrophage-containing gels con-firmed that culture medium inhibits macrophage participation in the inflammatory response that oc-curs after wounding. The described macrophage inclusion method for immunocompetent skin creation is a promising approach for generating more relevant skin models. Further optimization of the co-cul-ture medium will potentially allow mimicking a physiological inflammatory response, enabling to eval-uate the effects novel drugs designed for improved healing on improved in vitro models.
N2  - Aktuelle präklinische Modelle zur Bewertung neuartiger Therapien für eine verbesserte Heilung um- fassen sowohl in vitro als auch in vivo Methoden. Ethische Bedenken im Zusammenhang mit der Ver- wendung von Tieren sowie die schlechte physiologische Übersetzung zwischen tierischer und mensch- licher Hautwundheilung bezeichnen In-vitro-Modelle jedoch als hochrelevante und vielversprechende Plattformen für die Heilungsforschung. Während die aktuellen in vitro 3D-Hautmodelle ein reifes Ge- webe mit heilenden Eigenschaften rekapitulieren, stellen sie dennoch eine Vereinfachung der in vivo- Bedingungen dar, bei denen beispielsweise die nach der Wundbildung entstehende Entzündungsreak- tion den Beitrag von Immunzellen beinhaltet. Makrophagen gehören zu den Hauptverursachern der Entzündungsreaktion und regulieren ihren Verlauf durch ihre Plastizität. Daher könnte ihre Implemen- tierung in die in vitro Haut die physiologische Relevanz der Modelle deutlich erhöhen. Da bisher kein volldickes, immunkompetentes Hautmodell mit Makrophagen berichtet wurde, wurden hier die für eine erfolgreiche Dreifach-Cokultur von Fibroblasten, Keratinozyten und Makrophagen notwendigen Parameter untersucht. Zuerst wurden die Zellquelle und die Kultur zeitlich festgelegt, aber auch eine Implementierungsstrategie für Makrophagen festgelegt. Die Implementierung von Makrophagen in das Hautmodell konzentrierte sich auf die Minimierung der Kultivierungszeit, um die Lebensfähigkeit und den Phänotyp der Immunzellen zu erhalten, da die Umgebung einen großen Einfluss auf die Zell- polarisation und Zytokinproduktion hat. Zu diesem Zweck wurde die Integration von Makrophagen in 3D-Gelen vor der Kombination mit Hautmodellen ausgewählt, um die in vivo-Umgebung besser nach- ahmen zu können. Eingebettet in Kollagenhydrogele zeigten Makrophagen eine homogene Zellvertei- lung im Gel, die die Zelllebensfähigkeit bewahrt, auf Reize reagiert und durch die Matrix wandert, die alle bei der Beteiligung von Makrophagen an der Entzündungsreaktion benötigt werden. Nachdem festgestellt worden war, wie Makrophagen in Hautmodelle eingeführt werden können, wurden ver- schiedene Kulturmedien hinsichtlich ihrer Auswirkungen auf Primärfibroblasten, Keratinozyten und Makrophagen untersucht, um eine geeignete Medienzusammensetzung für die Kultur immunkompe- tenter Haut zu identifizieren. Die vorliegende Arbeit bestätigte, dass jeder Zelltyp eine andere Supple- mentkombination zur Aufrechterhaltung der Funktionsmerkmale benötigt und zeigte erstmals, dass Medien, die eine reife Hautstruktur fördern und aufrechterhalten, negative Auswirkungen auf die pri- mären Makrophagen haben. Hautdifferenzierungsmedien wirkten sich negativ auf die Makrophagen in Bezug auf Lebensfähigkeit, Morphologie, Fähigkeit, auf pro- und antiinflammatorische Reize zu rea- gieren und durch ein Kollagengel zu wandern aus. Die Kombination aus verwundeten Hautäquivalen- ten und makrophagenhaltigen Gelen bestätigte, dass das Kulturmedium die Teilnahme der Makro- phage an der Entzündungsreaktion, die nach der Wunde auftritt, hemmt. Die beschriebene 
Makrophagen-Einschlussmethode zur immunkompetenten Hautbildung ist ein vielversprechender An- satz zur Generierung relevanterer Hautmodelle. Eine weitere Optimierung des Co-Kulturmediums wird es möglicherweise ermöglichen, eine physiologische Entzündungsreaktion nachzuahmen und die Aus- wirkungen neuartiger Medikamente zur verbesserten Heilung auf verbesserte In-vitro-Modelle zu be- werten.
KW  - skin model
KW  - macrophages
KW  - wound healing
KW  - immunocompetent skin
KW  - Haut
KW  - In vitro
KW  - Wundheilung
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-192125
ER  - 
TY  - JOUR
A1  - Winkler, Christoph
A1  - Hong, Yunhan
A1  - Wittbrodt, Joachim
A1  - Schartl, Manfred
T1  - Analysis of heterologous and homologous promoters and enhancers in vitro and in vivo by gene transfer into Japanese medaka (Oryzias latipes) and Xiphophorus
N2  - Efficient expression systems are required for analysis of gene regulation and function in teleost fish. To develop such systems, a nurober of inducible or constitutive promoter and enhancer sequences of fish or higher vertebrate origin were tested for activity in a variety of fish celllines andin embryos of the Japanese medaka fish (Oryzias latipes) and Xiphophorus. The activity of the different promoterenhancer combinations were quantitated. Considerable differences were found for some constructs if tested in vitro or in vivo. From the data obtained, a set of expression vectors for basic research as weH as for aquaculture purposes were established.
KW  - Schwertkärpfling
KW  - Japankärpfling
KW  - Gentransfer
KW  - Enhancer
KW  - Promotor
KW  - In vitro
KW  - In vivo
Y1  - 1992
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-86796
ER  -