A versatile  ex vivo  technique for assaying tumor angiogenesis and microglia in the brain

Ali Ghoochani; Eduard Yakubov; Tina Sehm; Zheng Fan; Stefan Hock; Michael Buchfelder; Ilker Y. Eyüpoglu; Nicolai Savaskan

doi:10.18632/oncotarget.6550

Oncotarget

Oncotarget (a primarily oncology-focused, peer-reviewed, open access journal) aims to maximize research impact through insightful peer-review; eliminate borders between specialties by linking different fields of oncology, cancer research and biomedical sciences; and foster application of basic and clinical science.

Its scope is unique. The term "oncotarget" encompasses all molecules, pathways, cellular functions, cell types, and even tissues that can be viewed as targets relevant to cancer as well as other diseases. The term was introduced in the inaugural Editorial, Introducing Oncotarget.

As of January 1, 2022, Oncotarget has shifted to a continuous publishing model. Papers will now be published continuously within yearly volumes in their final and complete form and then quickly released to Pubmed.

Subscribe to receive alerts once a paper has been published by Oncotarget.

Impact Journals, LLC is the publisher of Oncotarget: www.impactjournals.com.

Impact Journals is a member of the Wellcome Trust List of Compliant Publishers.

Impact Journals is a member of the Society for Scholarly Publishing.

On December 23, 2022, Oncotarget server experienced a DDoS attack. As a result, Oncotarget site was inaccessible for a few hours. Oncotarget team swiftly dealt with the situation and took it under control. This malicious action will be reported to the FBI.

Research Papers:

A versatile ex vivo technique for assaying tumor angiogenesis and microglia in the brain

Ali Ghoochani, Eduard Yakubov, Tina Sehm, Zheng Fan, Stefan Hock, Michael Buchfelder, Ilker Y. Eyüpoglu and Nicolai Savaskan _

PDF | HTML | Supplementary Files | How to cite

Oncotarget. 2016; 7:1838-1853. https://doi.org/10.18632/oncotarget.6550

Metrics: PDF 1643 views | HTML 3475 views | ?

Abstract

Ali Ghoochani1, Eduard Yakubov1, Tina Sehm1, Zheng Fan1, Stefan Hock1, Michael Buchfelder1, Ilker Y. Eyüpoglu1,*, Nicolai Savaskan1,*

1 Laboratory for Translational Neurooncology, Department of Neurosurgery, Universitätsklinikum Erlangen, Friedrich Alexander University of Erlangen-Nürnberg (FAU), 91054 Erlangen, Germany

*These authors have contributed equally to this work

Correspondence to:

Nicolai Savaskan, e-mail: [email protected]

Keywords: glioblastoma, angiogenesis, neuronal cell death, slice culture, ex vivo

Received: August 23, 2015 Accepted: November 20, 2015 Published: December 11, 2015

ABSTRACT

Primary brain tumors are hallmarked for their destructive activity on the microenvironment and vasculature. However, solely few experimental techniques exist to access the tumor microenvironment under anatomical intact conditions with remaining cellular and extracellular composition. Here, we detail an ex vivo vascular glioma impact method (VOGIM) to investigate the influence of gliomas and chemotherapeutics on the tumor microenvironment and angiogenesis under conditions that closely resemble the in vivo situation. We generated organotypic brain slice cultures from rats and transgenic mice and implanted glioma cells expressing fluorescent reporter proteins. In the VOGIM, tumor-induced vessels presented the whole range of vascular pathologies and tumor zones as found in human primary brain tumor specimens. In contrast, non-transformed cells such as primary astrocytes do not alter the vessel architecture. Vascular characteristics with vessel branching, junctions and vessel length are quantitatively assessable as well as the peritumoral zone. In particular, the VOGIM resembles the brain tumor microenvironment with alterations of neurons, microglia and cell survival. Hence, this method allows live cell monitoring of virtually any fluorescence-reporter expressing cell. We further analyzed the vasculature and microglia under the influence of tumor cells and chemotherapeutics such as Temozolamide (Temodal/Temcad^®). Noteworthy, temozolomide normalized vasculare junctions and branches as well as microglial distribution in tumor-implanted brains. Moreover, VOGIM can be facilitated for implementing the 3Rs in experimentations. In summary, the VOGIM represents a versatile and robust technique which allows the assessment of the brain tumor microenvironment with parameters such as angiogenesis, neuronal cell death and microglial activity at the morphological and quantitative level.

All site content, except where otherwise noted, is licensed under a Creative Commons Attribution 4.0 License.
PII: 6550

Publication Alerts

Research Papers:

A versatile ex vivo technique for assaying tumor angiogenesis and microglia in the brain

Abstract