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1. Efficient Radial-Shell Model for 3D Tumor Spheroid Dynamics with Radiotherapy

Author

Franke, F., (0000-0002-1658-4632) Michlikova, S., Aland, S., Kunz-Schughart, L. A., Voss-Böhme, A., Lange, S., Franke, F., (0000-0002-1658-4632) Michlikova, S., Aland, S., Kunz-Schughart, L. A., Voss-Böhme, A., and Lange, S.

Abstract

Understanding the complex dynamics of tumor growth to develop more efficient therapeutic strategies is one of the most challenging problems in biomedicine. Three-dimensional (3D) tumor spheroids, reflecting avascular microregions within a tumor, are an advanced in vitro model system to assess the curative effect of combinatorial radio(chemo)therapy. Tumor spheroids exhibit particular crucial pathophysiological characteristics such as a radial oxygen gradient that critically affect the sensitivity of the malignant cell population to treatment. However, spheroid experiments remain laborious, and determining long-term radio(chemo)therapy outcomes is challenging. Mathematical models of spheroid dynamics have the potential to enhance the informative value of experimental data, and can support study design; however, they typically face one of two limitations: while non-spatial models are computationally cheap, they lack the spatial resolution to predict oxygen-dependent radioresponse, whereas models that describe spatial cell dynamics are computationally expensive and often heavily parameterized, impeding the required calibration to experimental data. Here, we present an effectively one-dimensional mathematical model based on the cell dynamics within and across radial spheres which fully incorporates the 3D dynamics of tumor spheroids by exploiting their approximate rotational symmetry. We demonstrate that this radial-shell (RS) model reproduces experimental spheroid growth curves of several cell lines with and without radiotherapy, showing equal or better performance than published models such as 3D agent-based models. Notably, the RS model is sufficiently efficient to enable multi-parametric optimization within previously reported and/or physiologically reasonable ranges based on experimental data. Analysis of the model reveals that the characteristic change of dynamics observed in experiments at small spheroid volume originates from the spatial scale of cell interactions.

Published
2023

3. Targeting of p21-Activated Kinase 4 Radiosensitizes Glioblastoma Cells via Impaired DNA Repair

Author

Blankenstein, L. J., (0000-0001-5684-629X) Cordes, N., Kunz-Schughart, L. A., Vehlow, A., Blankenstein, L. J., (0000-0001-5684-629X) Cordes, N., Kunz-Schughart, L. A., and Vehlow, A.

Abstract

Glioblastoma is a devastating malignant disease with poor patient overall survival. Strong invasiveness and resistance to radiochemotherapy have challenged the identification of molecular targets that can finally improve treatment outcomes. This study evaluates the influence of all six known p21-activated kinase (PAK) protein family members on the invasion capacity and radioresponse of glioblastoma cells by employing a siRNA-based screen. In a panel of human glioblastoma cell models, we identified PAK4 as the main PAK isoform regulating invasion and clonogenic survival upon irradiation and demonstrated the radiosensitizing potential of PAK4 inhibition. Mechanistically, we show that PAK4 depletion and pharmacological inhibition enhanced the number of irradiation- induced DNA double-strand breaks and reduced the expression levels of various DNA repair proteins. In conclusion, our data suggest PAK4 as a putative target for radiosensitization and impairing DNA repair in glioblastoma, deserving further scrutiny in extended combinatorial treatment testing.

Published
2022

4. Validation of CD98hc as a therapeutic target for a combination of radiation and immunotherapies in head and neck squamous cell carcinoma

Author

Köseer, A. S., Loureiro, L. R., Jureczek, J., Mitwasi, N., González Soto, K. E., Aepler, J., Bartsch, T., (0000-0001-5099-2448) Feldmann, A., Kunz-Schughart, L. A., Linge, A., (0000-0003-1776-9556) Krause, M., (0000-0002-8029-5755) Bachmann, M., (0000-0002-1285-5052) Arndt, C., (0000-0002-3375-1500) Dubrovska, A., Köseer, A. S., Loureiro, L. R., Jureczek, J., Mitwasi, N., González Soto, K. E., Aepler, J., Bartsch, T., (0000-0001-5099-2448) Feldmann, A., Kunz-Schughart, L. A., Linge, A., (0000-0003-1776-9556) Krause, M., (0000-0002-8029-5755) Bachmann, M., (0000-0002-1285-5052) Arndt, C., and (0000-0002-3375-1500) Dubrovska, A.

Abstract

Most patients with head and neck squamous cell carcinomas (HNSCC) are diagnosed at a locally advanced stage and show heterogeneous treatment responses. Low SLC3A2 (solute carrier family 3 member 2) mRNA and protein (CD98hc) expression levels are associated with higher locoregional control in HNSCC patients treated with primary radiochemotherapy or postoperative radiochemotherapy, suggesting that CD98hc could be a target for HNSCC radiosensitization. One of the targeted strategies for tumor radiosensitization is precision immunotherapy, e.g., the use of chimeric antigen receptor (CAR) T cells. This study aimed to define the potential clinical value of new treatment approaches combining conventional radiotherapy with CD98hc-targeted immunotherapy. To address this question, we analyzed the antitumor activity of the combination of fractionated irradiation and switchable universal CAR (UniCAR) system against radioresistant HNSCC cells in 3D culture. CD98hc-redirected UniCAR T cells showed the ability to destroy radioresistant HNSCC spheroids. Also, the infiltration rate of the UniCAR T cells was enhanced in the presence of the CD98hc target module. Furthermore, sequential treatment with fractionated irradiation followed by CD98hc-redirected UniCAR T treatment showed a synergistic effect. Taken together, our obtained data underline the improved antitumor effect of the combination of radiotherapy with CD98hc-targeted immunotherapy. Such a combination presents an attractive approach for the treatment of high-risk HNSCC patients.

Published
2022

7. Models for translational proton radiobiology-from bench to bedside and back

Author

Suckert, T., Nexhipi, S., Dietrich, A., Koch, R., Kunz-Schughart, L. A., Bahn, E., and Beyreuther, E.

Abstract

The number of proton therapy centers worldwide are increasing steadily, with more than two million cancer patients treated so far. Despite this development, pending questions on proton radiobiology still call for basic and translational preclinical research. Open issues are the on-going discussion on an energy-dependent varying proton RBE (relative biological effectiveness), a better characterization of normal tissue side effects and combination treatments with drugs originally de- veloped for photon therapy. At the same time, novel possibilities arise, such as radioimmunotherapy, and new proton therapy schemata, such as FLASH irradiation and proton mini-beams. The study of those aspects demands for radiobiological models at different stages along the translational chain, allowing the investigation of mechanisms from the molecular level to whole organisms. Focusing on the challenges and specifics of proton research, this review summarizes the different available models, ranging from in vitro systems to animal studies of increasing complexity as well as complementing in silico approaches.

Published
2021

8. Efficient Heat Shock Response Affects Hyperthermia-Induced Radiosensitization in a Tumor Spheroid Control Probability Assay

Author

Chen, O., Michlíková, S., Eckhardt, L., Wondrak, M., M. De Mendoza, A., Krause, M., D. McLeod, D., A. Kunz-Schughart, L., Chen, O., Michlíková, S., Eckhardt, L., Wondrak, M., M. De Mendoza, A., Krause, M., D. McLeod, D., and A. Kunz-Schughart, L.

Abstract

Hyperthermia (HT) combined with irradiation is a well-known concept to improve the curative potential of radiotherapy. Technological progress has opened new avenues for thermoradiotherapy, even for recurrent head and neck squamous cell carcinomas (HNSCC). Preclinical evaluation of the curative radiosensitizing potential of various HT regimens remains ethically, economically, and technically challenging. One key objective of our study was to refine an advanced 3-D assay setup for HT + RT research and treatment testing. For the first time, HT-induced radiosensitization was systematically examined in two differently radioresponsive HNSCC spheroid models using the unique in vitro "curative" analytical endpoint of spheroid control probability. We further investigated the cellular stress response mechanisms underlying the HT-related radiosensitization process with the aim to unravel the impact of HT-induced proteotoxic stress on the overall radioresponse. HT disrupted the proteome's thermal stability, causing severe proteotoxic stress. It strongly enhanced radiation efficacy and affected paramount survival and stress response signaling networks. Transcriptomics, q-PCR, and western blotting data revealed that HT + RT co-treatment critically triggers the heat shock response (HSR). Pre-treatment with chemical chaperones intensified the radiosensitizing effect, thereby suppressing HT-induced Hsp27 expression. Our data suggest that HT-induced radiosensitization is adversely affected by the proteotoxic stress response. Hence, we propose the inhibition of particular heat shock proteins as a targeting strategy to improve the outcome of combinatorial HT + RT.

Published
2021

9. GLS-driven glutamine catabolism contributes to prostate cancer radiosensitivity by regulating the redox state, stemness and ATG5-mediated autophagy

Author

Mukha, A., (0000-0002-3708-8806) Kahya, U., Linge, A., Chen, O., (0000-0002-7017-3738) Löck, S., Lukiyanchuk, V., Richter, S., Alves, T., Peitzsch, M., Telychko, V., Skvortsov, S., Negro, G., Aschenbrenner, B., Skvortsova, I.-I., Kunz-Schughart, L., Baretton, G., Baumann, M., (0000-0003-1776-9556) Krause, M., Peitzsch, C., (0000-0002-3375-1500) Dubrovska, A., Mukha, A., (0000-0002-3708-8806) Kahya, U., Linge, A., Chen, O., (0000-0002-7017-3738) Löck, S., Lukiyanchuk, V., Richter, S., Alves, T., Peitzsch, M., Telychko, V., Skvortsov, S., Negro, G., Aschenbrenner, B., Skvortsova, I.-I., Kunz-Schughart, L., Baretton, G., Baumann, M., (0000-0003-1776-9556) Krause, M., Peitzsch, C., and (0000-0002-3375-1500) Dubrovska, A.

Abstract

Radiotherapy is one of the curative treatment options for localized prostate cancer (PCa). The curative potential of radiotherapy is mediated by irradiation-induced oxidative stress and DNA damage in tumor cells. However, PCa radiocurability can be impeded by tumor resistance mechanisms and normal tissue toxicity. Metabolic reprogramming is one of the major hallmarks of tumor progression and therapy resistance. Specific metabolic features of PCa might serve as therapeutic targets for tumor radiosensitization and as biomarkers for identifying the patients most likely to respond to radiotherapy. The study aimed to characterize a potential role of glutaminase (GLS)-driven glutamine catabolism as a prognostic biomarker and a therapeutic target for PCa radiosensitization. Methods: We analyzed primary cell cultures and radioresistant (RR) derivatives of the conventional PCa cell lines by gene expression and metabolic assays to identify the molecular traits associated with radiation resistance. Relative radiosensitivity of the cell lines and primary cell cultures were analyzed by 2-D and 3-D clonogenic analyses. Targeting of glutamine (Gln) metabolism was achieved by Gln starvation, gene knockdown, and chemical inhibition. Activation of the DNA damage response (DDR) and autophagy was assessed by gene expression, western blotting, and fluorescence microscopy. Reactive oxygen species (ROS) and the ratio of reduced glutathione (GSH) to oxidized glutathione (GSSG) were analyzed by fluorescence and luminescence probes, respectively. Cancer stem cell (CSC) properties were investigated by sphere-forming assay, CSC marker analysis, and in vivo limiting dilution assays. Single circulating tumor cells (CTCs) isolated from the blood of PCa patients were analyzed by array comparative genome hybridization. Expression levels of the GLS1 and MYC gene in tumor tissues and amino acid concentrations in blood plasma were correlated to a progression-free survival in PCa patients. Res

Published
2021

11. Spectral and spatial shaping of laser-driven proton beams using a pulsed high-field magnet beamline

Author

(0000-0002-9859-2408) Brack, F.-E., (0000-0002-0275-9892) Kroll, F., Gaus, L., Bernert, C., (0000-0002-0582-1444) Beyreuther, E., (0000-0002-5845-000X) Cowan, T., Karsch, L., (0000-0002-0638-6990) Kraft, S., Kunz-Schughart, L. A., Leßmann, E., (0000-0002-9556-0662) Metzkes-Ng, J., (0000-0001-9236-8037) Obst-Hübl, L., (0000-0003-4128-5498) Pawelke, J., (0000-0001-6200-6406) Rehwald, M., (0000-0003-4400-1315) Schlenvoigt, H.-P., (0000-0003-0390-7671) Schramm, U., Sobiella, M., Rita Szabó, E., (0000-0002-3727-7017) Ziegler, T., (0000-0003-3926-409X) Zeil, K., (0000-0002-9859-2408) Brack, F.-E., (0000-0002-0275-9892) Kroll, F., Gaus, L., Bernert, C., (0000-0002-0582-1444) Beyreuther, E., (0000-0002-5845-000X) Cowan, T., Karsch, L., (0000-0002-0638-6990) Kraft, S., Kunz-Schughart, L. A., Leßmann, E., (0000-0002-9556-0662) Metzkes-Ng, J., (0000-0001-9236-8037) Obst-Hübl, L., (0000-0003-4128-5498) Pawelke, J., (0000-0001-6200-6406) Rehwald, M., (0000-0003-4400-1315) Schlenvoigt, H.-P., (0000-0003-0390-7671) Schramm, U., Sobiella, M., Rita Szabó, E., (0000-0002-3727-7017) Ziegler, T., and (0000-0003-3926-409X) Zeil, K.

Abstract

ntense laser-driven proton pulses, inherently broadband and highly divergent, pose a challenge to established beamline concepts on the path to application-adapted irradiation field formation, particularly for 3D. Here we experimentally show the successful implementation of a highly efficient (50% transmission) and tuneable dual pulsed solenoid setup to generate a homogeneous (laterally and in depth) volumetric dose distribution (cylindrical volume of 5 mm diameter and depth) at a single pulse dose of 0.7 Gy via multi-energy slice selection from the broad input spectrum. The experiments were conducted at the Petawatt beam of the Dresden Laser Acceleration Source Draco and were aided by a predictive simulation model verified by proton transport studies. With the characterised beamline we investigated manipulation and matching of lateral and depth dose profiles to various desired applications and targets. Using an adapted dose profile, we performed a first proof-of-technical-concept laser-driven proton irradiation of volumetric in-vitro tumour tissue (SAS spheroids) to demonstrate concurrent operation of laser accelerator, beam shaping, dosimetry and irradiation procedure of volumetric biological samples.

Published
2020

14. Expression of CD68 in Non-Myeloid Cell Types

Author

Gottfried, E., Kunz-Schughart, L. A., Weber, A., Rehli, M., Peuker, A., Müller, A., Kastenberger, M., Brockhoff, G., Andreesen, R., and Kreutz, M.

Published
2008

17. The CD98 heavy chain is a marker and regulator of head and neck squamous cell carcinoma radiosensitivity

Author

Digomann, D., Kurth, I., Tyutyunnykova, A., Chen, O., Löck, S., Gorodetska, I., Peitzsch, C., Skvortsova, I., Negro, G., Aschenbrenner, B., Eisenhofer, G., Richter, S., Heiden, S., Porrmann, J., Klink, B., Schwager, C., Dowle, A., Hein, L., Kunz-Schughart, L., Abdollahi, A., Lohaus, F., Krause, M., Baumann, M., Linge, A., Dubrovska, A., Digomann, D., Kurth, I., Tyutyunnykova, A., Chen, O., Löck, S., Gorodetska, I., Peitzsch, C., Skvortsova, I., Negro, G., Aschenbrenner, B., Eisenhofer, G., Richter, S., Heiden, S., Porrmann, J., Klink, B., Schwager, C., Dowle, A., Hein, L., Kunz-Schughart, L., Abdollahi, A., Lohaus, F., Krause, M., Baumann, M., Linge, A., and Dubrovska, A.

Abstract

Purpose: The heavy chain of the CD98 protein (CD98hc) is encoded by the SLC3A2 gene. Together with the light subunit LAT1, CD98hc constitutes a heterodimeric transmembrane amino acid transporter. High SLC3A2 mRNA expression levels are associated with poor prognosis in patients with head and neck squamous cell carcinoma (HNSCC) treated with radiochemotherapy. Little is known regarding the CD98hc protein mediated molecular mechanisms of tumor radioresistance. Experimental Design: CD98hc protein expression levels were correlated with corresponding tumor control dose 50 (TCD50) in HNSCC xenograft models. Expression levels of CD98hc and LAT1 in HNSCC cells were modulated by siRNA or CRISPR/Cas9 gene editing. HNSCC cell phenotypes were characterized by transcription profiling, plasma membrane proteomics, metabolic analysis and signaling pathway activation. Expression levels of CD98hc and LAT1 proteins were examined by immunohistochemical analysis of tumor tissues from patients with locally advanced HNSCC treated with primary radiochemotherapy (RCTx). Primary endpoint was locoregional tumor control (LRC). Results: High expression levels of CD98hc resulted in an increase in mTOR pathway activation, amino acid metabolism and DNA repair as well as downregulation of oxidative stress and autophagy. High expression levels of CD98hc and LAT1 proteins were significantly correlated and associated with an increase in radioresistance in HNSCC in vitro and in vivo models. High expression of both proteins identified poor prognosis subgroup in patients with locally advanced HNSCC after RCTx.

Published
2019

22. Medical Applications of Laser-driven Particle Sources - An Overview of Activities in Dresden

Author

Kroll, F., Zeil, K., Obst, L., Rehwald, M., Schlenvoigt, H.-P., Brack, F., Metzkes-Ng, J., Bernert, C., Gaus, L., Ziegler, T., Kluge, T., Garten, M., Hübl, A., Kraft, S., Schramm, U., Beyreuther, E., Karsch, L., Pawelke, J., and Kunz-Schughart, L.

Abstract

The talk summarizes activities of HZDR on the topic of laser-driven particle sources for medical applications. The focus lies on a the development and characterization of a pulsed high-field beamline that allows to transport and spacially as well as spectrally shape a laser-driven ion beam and thereby prepare it for irradiation studies, e.g. on radiobiological studies.

Published
2018

23. Sensitization of pancreatic cancer cells to photons and protons via enzymotherapeutic metabolic targeting of arginine

Author

Sorour, N., Hussein, R., Neubeck, C., Lühr, A., Stasyk, O., and Kunz-Schughart, L. A.

Subjects
endocrine system diseases
Abstract

Background and Aim: The abnormal metabolism of pancreatic ductal adenocarcinoma (PDAC) cells offers some interesting points of attack. About 20-30% of PDACs are described to be auxotrophic for arginine because of a reduced or complete loss of anabolic protein expression and/or activity. New strategies for the treatment of this deadly disease should consider the combination of radiotherapy with novel metabolic targeting modalities. We found various arginine deprivation therapy (ADT) approaches to radiosensitize several non-auxotrophic cancer cell types. Hence, we hypothesized that enzymotherapeutic ADT should be particularly efficient in radiosensitizing auxotrophic PDACs to both photons and protons. Materials and Methods: Human and murine cell lines reflecting auxotrophic PDACs in patients were studied. ADT was achieved with 2 U/ml of recombinant human arginase in the presence and absence of citrulline. Single dose irradiation of 0-30 Gy was applied with a 200kV X-ray tube and a 150 MeV double-scattered proton beam. Treatment response was assessed by 2-D clonogenic survival and/or 3-D spheroid control probability (SCP) assays. Our specifically designed setup allowed the testing of innovative treatment regimens including proton therapy with/without ADT and Gemcitabine (Gem). Results and Conclusions: ADT led to a massive sensitization to X-ray in all PDAC models. Sensitization in 3-D culture was reflected by a significantly reduced SCP and spheroid control dose 50% (SCD50) with an RBE of 2.0. Cells showed a higher sensitivity in the 3-D assay to protons than photons but ADT still further improved the radioresponse. As an example, the RBE of protons plus ADT versus photons alone in one human PDAC spheroid typel was 3.9. In the same model, proton therapy outcome was hardly affected by Gem; however, the combination of ADT with Gem and proton therapy was particularly effective with an exceptional RBE compared to photons of 5.0. Extended mechanistic studies are ongoing; transfer in vivo is envisioned.

Published
2018

24. Glutamine metabolism as potential target for prostate cancer radiosensitization

Author

Tyutyunnykova, A., Chen, O., Richter, S., Eisenhofer, G., Toma, M., Hein, L., Novotny, V., Zschaeck, S., Wirth, M., Kunz-Schughart, L., Krause, M., Baumann, M., Peitzsch, C., and Dubrovska, A.

Subjects
cancer stem cells, radioresistance, glutamine metabolism, prostate cancer
Abstract

Background: A major reprogramming of cellular energy metabolism is a hallmark of tumor cells. In addition to an increased glucose uptake, highly proliferative cancer cells require additional supplies for their biosynthesis and energy production such as glutamine. Glutaminolysis also contributes to the ROS scavenging and activation of the pro-survival signaling pathways. Tumors with enhanced MYC expression, such as prostate cancer have a particularly high demand for glutamine. Herein, we investigated the role of glutamine metabolism pathways for prostate cancer radioresistance. Methods: Prostate cancer cell lines DU145, PC3, LNCaP and their radioresistant sublines (RR) were analyzed by metabolomic and gene expression profiling. The relative cell sensitivity to the inhibition of glutaminolysis was measured by analysis of viability (MTT), apoptosis and necrosis (flow cytometry and Western blotting), levels of ROS and glutathione (flow cytometry), radiosensitivity (colony formation assay, CFA), DNA repair (γH2A.X foci) and tumorigenicity in mice. Primary cell cultures from 12 tumor biopsies and matched benign tissues from prostates cancer patients were characterized by radiobiological 3D CFA and by gene expression profiling, and relative radioresistance was correlated with expression levels of the genes regulating glutaminolysis. The Cancer Genome Atlas (TCGA) datasets were analyzed for correlation of the gene expression levels and patients outcome. Results: Glutaminolysis is upregulated in RR cells, where glutamine is mostly used for production of α-ketoglutarate, which is involved in ROS scavenging and epigenetic resetting by regulation of the histone methylation, whereas α-ketoglutarate utilization for Krebs cycle is suppressed. Deprivation of glutamine or siRNA mediated inhibition of glutaminolysis leads to the induction of endoplasmic reticulum (ER) stress and inhibition of the DNA repair, clonogenicity and in vivo tumorigenicity after irradiation with a more pronounced effect for RR cells. Analysis of the TCGA datasets revealed that a high expression of the genes regulating prostate cancer glutaminolysis is significantly associated with a decrease in relapse free survival after radiotherapy. Discussion: Prostate cancer cell radioresistance is associated with alterations of glutaminolysis, whose inhibition increases the cytotoxic effects of radiation in prostate tumor cells. Expression of the proteins involved in glutaminolysis can be potentially used to predict clinical outcome after radiation therapy.

Published
2017

25. OC-0152: Glutamine metabolism as potential biomarker and target for prostate cancer radiosensitization

Author

Dubrovska, A., primary, Tyutyunnykova, A., additional, Chen, O., additional, Linge, A., additional, Löck, S., additional, Telychko, V., additional, Richter, S., additional, Hein, L., additional, Toma, M., additional, Zschaeck, S., additional, Eisenhofer, G., additional, Wirth, M., additional, Kunz-Schughart, L., additional, Tawk, B., additional, Schwager, C., additional, Abdollahi, A., additional, Baretton, G., additional, Krause, M., additional, and Baumann, M., additional

Published
2018
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26. The Why and How of Amino Acid Analytics in Cancer Diagnostics and Therapy

Author

Manig, F., Kuhne, K., Neubeck, C., Schwarzenbolz, U., Yu, Z., Kessler, B. M., Pietzsch, J., Kunz-Schughart, L. A., Manig, F., Kuhne, K., Neubeck, C., Schwarzenbolz, U., Yu, Z., Kessler, B. M., Pietzsch, J., and Kunz-Schughart, L. A.

Abstract

Pathological alterations in cell functions are frequently accompanied by metabolic reprogramming including modifications in amino acid metabolism. Amino acid detection is thus integral to the diagnosis of many hereditary metabolic diseases. The development of malignant diseases as metabolic disorders comes along with a complex dysregulation of genetic and epigenetic factors affecting metabolic enzymes. Cancer cells might transiently or permanently become auxotrophic for non-essential or semi-essential amino acids such as asparagine or arginine. Also, transformed cells are often more susceptible to local shortage of essential amino acids such as methionine than normal tissues. This offers new points of attacking unique metabolic features in cancer cells. To better understand these processes, highly sensitive methods for amino acid detection and quantification are required. Our review summarizes the main methodologies for amino acid detection with a particular focus on applications in biomedicine and cancer, provides a historical overview of the methodological pre-requisites in amino acid analytics. We compare classical and modern approaches such as the combination of gas chromatography and liquid chromatography with mass spectrometry (GC-MS/LC-MS). The latter is increasingly applied in clinical routine. We therefore illustrate an LC-MS workflow for analyzing arginine and methionine as well as their precursors and analogs in biological material. Pitfalls during protocol development are discussed, but LC-MS emerges as a reliable and sensitive tool for the detection of amino acids in biological matrices. Quantification is challenging, but of particular interest in cancer research as targeting arginine and methionine turnover in cancer cells represent novel treatment strategies.

Published
2017

27. Nanoparticles for radiooncology: Mission, vision, challenges.

Author

Kunz-Schughart, L., Dubrovska, A., Peitzsch, C., Ewe, A., Aigner, A., Schellenburg, S., Muders, M., Hampel, S., Cirillo, G., Iemmae, F., Tietze, R., Alexiou, C., Stephan, H., Zarschlerg, K., Vittorio, O., Kavallaris, M., Parak, W., Mädler, L., Pokhrel, S., Kunz-Schughart, L., Dubrovska, A., Peitzsch, C., Ewe, A., Aigner, A., Schellenburg, S., Muders, M., Hampel, S., Cirillo, G., Iemmae, F., Tietze, R., Alexiou, C., Stephan, H., Zarschlerg, K., Vittorio, O., Kavallaris, M., Parak, W., Mädler, L., and Pokhrel, S.

Abstract

Cancer is one of the leading non-communicable diseases with highest mortality rates worldwide. About half of all cancer patients receive radiation treatment in the course of their disease. However, treatment outcome and curative potential of radiotherapy is often impeded by genetically and/or environmentally driven mechanisms of tumor radioresistance and normal tissue radiotoxicity. While nanomedicine-based tools for imaging, dosimetry and treatment are potential keys to the improvement of therapeutic efficacy and reducing side effects, radiotherapy is an established technique to eradicate the tumor cells. In order to progress the introduction of nanoparticles in radiooncology, due to the highly interdisciplinary nature, expertise in chemistry, radiobiology and translational research is needed. In this report recent insights and promising policies to design nanotechnology-based therapeutics for tumor radiosensitization will be discussed. An attempt is made to cover the entire field from preclinical development to clinical studies. Hence, this report illustrates (1) the radio- and tumor-biological rationales for combining nanostructures with radiotherapy, (2) tumor-site targeting strategies and mechanisms of cellular uptake, (3) biological response hypotheses for new nanomaterials of interest, and (4) challenges to translate the research findings into clinical trials.

Published
2017

28. Aldehyde Dehydrogenase Is Regulated by β-Catenin/TCF and Promotes Radioresistance in Prostate Cancer Progenitor Cells

Author

Cojoc, M., Peitzsch, C., Kurth, I., Trautmann, F., Kunz-Schughart, L. A., Telegeev, G. D., Stakhovsky, E. A., Walker, J. R., Simin, K., Lyle, S., Fuessel, S., Erdmann, K., Wirth, M. P., Krause, M., Baumann, M., and Dubrovska, A.

Abstract

Radiotherapy is a curative treatment option in prostate cancer. Nevertheless, patients with high-risk prostate cancer are prone to relapse. Identification of the predictive biomarkers and molecular mechanisms of radioresistance bears promise to improve cancer therapies. In this study, we show that aldehyde dehydrogenase (ALDH) activity is indicative of radioresistant prostate progenitor cells with an enhanced DNA repair capacity and activation of epithelial-mesenchymal transition (EMT). Gene expression profiling of prostate cancer cells, their radioresistant derivatives, ALDH(+) and ALDH(-) cell populations revealed the mechanisms, which link tumor progenitors to radioresistance, including activation of the WNT/β-catenin signaling pathway. We found that expression of the ALDH1A1 gene is regulated by the WNT signaling pathway and co-occurs with expression of β-catenin in prostate tumor specimens. Inhibition of the WNT pathway led to a decrease in ALDH(+) tumor progenitor population and to radiosensitization of cancer cells. Taken together, our results indicate that ALDH(+) cells contribute to tumor radioresistance and their molecular targeting may enhance the effectiveness of radiotherapy.

Published
2015

33. Cancer stem cell related markers of radioresistance in head and neck squamous cell carcinoma.

Author

Kurth, I., Hein, L., Mäbert, K., Peitzsch, C., Koi, L., Cojoc, M., Kunz-Schughart, L., Baumann, M., Dubrovska, A., Kurth, I., Hein, L., Mäbert, K., Peitzsch, C., Koi, L., Cojoc, M., Kunz-Schughart, L., Baumann, M., and Dubrovska, A.

Abstract

Despite recent advances in understanding of the molecular pathogenesis and improvement of treatment techniques, locally advanced head and neck squamous cell carcinoma (HNSCC) remains associated with an unfavorable prognosis. Compelling evidence suggests that cancer stem cells (CSC) may cause tumor recurrence if they are not eradicated by current therapies as radiotherapy or radio-chemotherapy. Recent in vitro studies have demonstrated that CSCs may be protected from treatment-induced death by multiple intrinsic and extrinsic mechanisms. Therefore, early determination of CSC abundance in tumor biopsies prior-treatment and development of therapeutics, which specifically target CSCs, are promising strategies to optimize treatment. Here we provide evidence that aldehyde dehydrogenase (ALDH) activity is indicative for radioresistant HNSCC CSCs. Our study suggests that ALDH+ cells comprise a population that maintains its tumorigenic properties in vivo after irradiation and may provide tumor regrowth after therapy. We found that ALDH activity in HNSCC cells can be attributed, at least in part, to the ALDH1A3 isoform and inhibition of the ALDH1A3 expression by small interfering RNA (siRNA) decreases tumor cell radioresistance. The expression dynamic of ALDH1A3 upon irradiation by either induction or selection of the ALDH1A3 positive population correlates to in vivo curability, suggesting that changes in protein expression during radiotherapy are indicative for tumor radioresistance. Our data indicate that ALDH1A3+ HNSCC cells may contribute to tumor relapse after irradiation, and inhibition of this cell population might improve therapeutic response to radiotherapy.

Published
2015

34. Simultaneous PLK1 inhibition improves local tumour control after fractionated irradiation

Author

Krause, M., Kummer, B., Deparade, A., Eicheler, W., Pfitzmann, D., Yaromina, A., Kunz-Schughart, L. A., and Baumann, M.

Subjects
Local tumour control, Radiotherapy, Combined treatment, Cell cycle, PLK1 inhibition
Abstract

Purpose: Polo-like kinase 1 (PLK1) plays an important role in mitotic progression, is frequently overexpressed and associated with a poor prognosis of cancer patients, thus providing a promising target in anticancer treatment. Aim of the current project was to evaluate the effect of the novel PLK1 inhibitor BI 6727 in combination with irradiation. Material and methods: In vitro proliferation and radiation cell survival assays as well as in vivo local tumour control assays after single treatment and combined radiation and drug application were carried out using the squamous cell carcinoma models A431 and FaDu. In addition, cell cycle phases were monitored in vitro and in vivo. Results: BI 6727 showed a dose-dependent antiproliferative effect and an increase in the mitotic fraction. BI 6727 alone reduced clonogenic cell survival, while radiosensitivity in vitro (SF2) and in vivo (single-dose TCD50 under clamped hypoxia) was not affected. In contrast, local tumour control was significantly improved after application of BI 6727 simultaneously to fractionated irradiation (A431: TCD50 = 60.5 Gy [95% C.I. 57; 63] after IR alone and

Published
2013

35. Radionuclide binding to Cetuximab - a promising approach for the treatment of Squamous Cells/Radionuklidbindung an Cetuximab – ein vielversprechender Ansatz für die Behandlung von Plattenepithelkarzinomzellen

Author

Eke, I., Förster, C., Ingargiola, M., Kunz-Schughart, L., Baumann, M., Runge, R., Kotzerke, J., Heldt, J.-M., Steinbach, J., and Cordes, N.

Abstract

Fragestellung. Zielgerichtete Therapiestrategien gegen den epidermalen Wachstumsfaktorrezeptor (EGFR) mittels Cetuximab verbessern in Kombination mit Bestrahlung das Überleben und die lokale Tumorkontrolle bei Patienten mit Plattenepithelkarzinomen (SCC) des Kopf/Hals-Bereiches. Trotz dieses Behandlungserfolgs machen auftretende Tumorresistenzen eine weitere Optimierung dieser Therapie notwendig. In unserer Studie untersuchten wir das Überleben von SCC Zellen nach Behandlung mit einem Konjugat aus Cetuximab und dem Radionuklid Yttrium-90 ([90Y]Y-CHX-A´´-DTPA-Cetuximab). Methodik. In vier verschiedene humane SCC Zelllinien (FaDu, SAS, UTSCC14, A431) wurden EGFR-Hemmung und nachgeschalteter Signalmoleküle mittels Western blot und die Bindung von Cetuximab an EGFR durch Fluorochrom-markiertes Cetuximab analysiert. Das Überleben nach Behandlung mit 90Y, [90Y]Y-CHX-A´´-DTPA-Cetuximab (beide ca. 5–15 MBq äquivalent zu 2–6 Gy), Cetuximab-DTPA oder Cetuximab alleine oder in Kombination mit externer Bestrahlung (Röntgenstrahlen; 200 kV, 20 mA, 1.3 Gy/min; 2–6 Gy) wurde im Koloniebildungstest bestimmt. Zusätzlich wurden Adhäsions- und gammaH2AX-Foci-Assays durchgeführt. Ergebnis. Obwohl Cetuximab-Behandlung zu einer Hemmung von EGFR und nachgeschalteten Signalmolekülen führte, zeigte keine der verwendeten Zelllinien eine Strahlensensibilisierung. Fluorochrom-markiertes Cetuximab blieb zellmembranständig ohne Hinweise auf Internalisierung oder Abbau. 90Y]Y-CHX-A´´-DTPA-Cetuximab verringerte das klonogene Überleben signifikant stärker und in Abhängigkeit der EGFR-Expression als alleiniges 90Y. Zellen, die mit 90Y plus externe Bestrahlung behandelt wurden, überlebten deutlich besser als Zellen nach [90Y]Y-CHX-A´´-DTPA-Cetuximab plus externe Bestrahlung. Das klonogene Überleben konnte mit strahleninduzierten gammaH2AX-Foci korreliert werden. Ein Einfluss von Cetuximab auf die Zelladhäsion war nicht zu verzeichnen. Schlussfolgerung. Unsere Daten zeigen, dass eine Verbindung aus Cetuximab und einem Radionuklid das Überleben von SCC Zellen deutlich stärker reduziert als das unkonjugierte Radionuklid oder externe Bestrahlung. Weitere In-vitro- und In-vivo-Studien sind nötig, um zu untersuchen, inwieweit derartige Konjugate in Therapiestrategien im Rahmen einer Strahlentherapie eingebunden werden können.

Published
2012

38. Development of [90Y]Y-CHX-A´´-DTPA-Cetuximab for combination of radioimmunotherapy and external radiotherapy: Radiochemistry and first in vivo results

Author

Heldt, J.-M., Koi, L., Zenker, M., Brüchner, K., Dittfeld, C., Bergmann, R., Mosch, B., Pietzsch, H.-J., Pietzsch, J., Zips, D., Kunz-Schughart, L. A., Baumann, M., and Steinbach, J.

Abstract

Objectives: Radiochemical development, characterisation and preparation of [90Y]Y-CHX-A´´-DTPA-Cetuximab ([90Y]C225). Preclinical evaluation of [90Y]C225 by combination of radioimmunotherapy and external radiotherapy. Methods: CHX-A´´-DTPA was conjugated to C225 via thiourea bond formation in HEPES-buffer at pH 7.2 by reacting 20 equivalents of chelator with C225 for 24 h. Purification of the conjugate was done by ultrafiltration. Chelator to C225 ratio was determined by MALDI-TOF MS and the conjugate’s affinity determined by flow cytometric analysis. Radiolabeling was performed in MES buffer at pH 6.1 at 30°C for 30 min using [90Y]YCl3. Free DTPA chelator (0.1 μg/μL) was added to the reaction mixture for quenching the labeling reaction and fixing unreacted radionuclide. Ex vivo autoradiography ([90Y]C225) was performed, in vivo kinetics were measured with PET using 86Y as radiolabel and biodistribution studies were performed. FaDu tumour bearing nude mice were treated with [90Y]C225 (2.8 MBq 13 g C225 / mouse, i.v.) and external beam irradiation (X-rays, single dose, 1.1 Gy/min). Experimental endpoints are the tumour growth delay and the local tumour control. Some animals are still in follow-up and not all cohorts are completed. The data are preliminary (figure 1B). Results: MALDI-TOF MS analysis of the purified conjugate showed that approximately 5 CHX-A´´-DTPA moieties have been conjugated to C225. The conjugate has not lost affinity to EGFR on cell surfaces when compared to the unconjugated C225 at 0.33 nM (flow cytometry). CHX-A´´-DTPA-C225 was labelled with [90Y]YCl3 with radiolabelling yields >95% and a reproducible specific activity of 1.2 GBq/mg was achieved. Autoradiography studies revealed high tumour accumulation 48 h p.i., also PET showed an increasing antibody accumulation in the tumour, which was abundant after 24 h p.i. These data validate the conjugate to be suitable for therapeutical studies: The combined treatment (internal and external irradiation) was well tolerated by all mice and no histological alterations in organs could be found. The preliminary data in Figure 1B clearly show a dose-effect of the external irradiation. A significant improvement of the local tumour control after external irradiation with 26 Gy was achieved after application of 13 g of radiolabelled C225 compared to unlabelled C225 or to the treatment by external irradiation solely. Conclusions: [90Y]C225 has been successfully prepared, characterized and it can be produced in routine with high avidity and specific activity as prerequisite for long-term preclinical therapeutic studies. Our in-vivo preliminary data support the concept that multimodal cancer treatment results in a potentially relevant improvement of local tumour control in an experimental tumour model. Research Support: The Bundesministerium für Bildung und Forschung (grant 02NUK006, framework “Kompetenzverbund Strahlenforschung” (KVSF)) is gratefully acknowledged for the financial support.

Published
2011

39. Erste Ergebnisse zur Untersuchung des Uptakes von Y-90-Cetuximab in vitro an FaDu-Monolayer-Zellen

Author

Runge, R., Ingargiola, M., Förster, C., Freudenberg, R., Wunderlich, G., Heldt, J.-M., Zenker, M., Steinbach, J., Cordes, N., Kunz-Schughart, L., and Kotzerke, J.

Abstract

Ziel/Aim: In einer Vielzahl menschlicher Tumore ist die Expression des Epidermal-Growth-Factor-Receptor (EGFR) nachweisbar und geht mit einer schlechteren Prognose onkologisch behandelter Patienten einher. Der EGFR wird durch seine natürlichen Liganden oder ligandenunabhängig durch Bestrahlung aktiviert. Zu den Substanzen, die den EGFR hemmen gehören monoklonale Antikörper (mAb) z.B. Cetuximab (C225). Die Markierung des C-225 mit dem Beta-Strahler Y-90 ermöglicht eine zielgerichtete Induktion von DNA-Schäden. Es sollte untersucht werden, welchen Einfluss der Zusatz von kaltem C225 auf den Uptake von Y-90-C225 in FaDu-Monolayer-Zellen hat. Methodik/Methods: FaDu-Zellen wurden in 6-Well-Mikrotiterplatten (MTP) ausgesät (1x105 und 3x105 Zellen pro well). Die Inkubation erfolgte mit Y-90-C225 über 24 h bei 37°C mit unterschiedlichen Dosen (0-6 Gy, Geant4 Monte Carlo Toolkits). Y-90-C225 wurde mit unmarkiertem C225 auf C225-Konzentrationen von 1 µg/ml und 5 µg/ml eingestellt und Proben ohne Zusatz von unmarkiertem C225 mitgeführt. Die Bestimmung des zellulär gebundenen Y-90-C225 (Uptake) erfolgte durch Messung der Radioaktivität des ungebunden Y-90-C225 sowie des gebundenen Y-90-C225 im Zelllysat an einem Gammacounter (CobraTM II). Ergebnisse/Results: Der Uptake von Y-90-C225 in FaDu-Zellen zeigte eine Abhängigkeit von der Zellzahl. Der absolute Uptake von Y-90-C225 ohne Zusatz von unmarkiertem C-225 stieg bei Dosissteigerung bzw. Konzentrationserhöhung des mAb nur marginal an, die relativen Werte (bezogen auf die eingesetzte Radioaktivität) zeigten bei 1 Gy den höchsten Uptake (1 Gy: 18,63%, 6 Gy: 3,6 %). Die Kompetition von Y-90-C225 und unmarkiertem C225 um die Bindungsstellen auf der Zellmembran konnte durch die Reduzierung des Y-90-C225-Uptakes mit zunehmendem Anteil von unmarkiertem C225 an der Gesamtantikörperkonzentration nachgewiesen werden. Schlussfolgerungen/Conclusions: Bei höheren Dosen bzw. Antikörperkonzentrationen wurde kein höherer Y-90-C225-Uptake erzielt, was auf eine Sättigung der Rezeptoren/Bindungsstellen hinweist. Die lineare Abnahme der zellulären Bindung des Y-90-C225 bei Erhöhung der Konzentration des unmarkierten C225 deutet auf die gleiche Affinität des markierten und unmarkierten Antikörpers an die EGFR-Bindungsstellen der FaDu-Zellen hin.Zur Verifizierung der Ergebnisse sind weitere Experimente geplant.

Published
2011

40. Entwicklung von [90Y]Y-CHX-A´´-DTPA-Cetuximab für die kombinierte interne und externe Bestrahlung von Tumoren: Radiochemie und erste in-vivo-Ergebnisse

Author

Heldt, J.-M., Koi, L., Zenker, M., Brüchner, K., Dittfeld, C., Bergmann, R., Mosch, B., Pietzsch, H.-J., Pietzsch, J., Zips, D., Kunz-Schughart, L. A., Baumann, M., and Steinbach, J.

Abstract

Hintergrund: Der epidermale Wachstumsfaktor-Rezeptor (EGFR) wird in einer Vielzahl maligner Tumore überexprimiert. Die Hemmung des Rezeptors durch den monoklonalen Antikörper Cetuximab (C225) in Kombination mit fraktionierter Bestrahlung führte bei dieser Tumorentität (prä)klinisch zu einer verbesserten lokalen Tumorkontrolle (1). Ziel: Radiochemische Entwicklung, Charakterisierung und Herstellung von [90Y]Y-CHX-A´´-DTPACetuximab ([90Y]C225). Präklinische Evaluierung von [90Y]C225 in Kombination mit externer Bestrahlung. Kann [90Y]C225 die lokale Tumorkontrolle in Mäusen nach externer Bestrahlung weiter verbessern? Methoden: CHX-A´´-DTPA wurde über Thioharnstoffkupplung in HEPES-Puffer bei pH 7,2 mit C225 konjugiert. Die Reinigung des Konjugates erfolgte durch Ultrafiltration. Das Chelator-C225-Verhältnis wurde durch MALDI-TOF-MS bestimmt. Die Affinität gegenüber EGFR wurde durchflusszytometrisch ermittelt. Die Radiomarkierung erfolgte in MES-Puffer durch 30-minütige Inkubation mit [90Y/86Y]YCl3 bei pH 6,1 und 30°C. Die radiopharmakologische Charakterisierung erfolgte mittels Ex-vivo-Autoradiographie ([90Y]C225) und Kleintier-Positronen-Emissions-Tomographie ([86Y]C225) nach intravenöser Applikation in NMRI-Nacktmäusen (nu/nu) mit subkutan xenotransplantiertem humanen Plattenepithelkarzinom (FaDu) als Modell. Im Rahmen der Therapieexperimente wurden FaDu-NMRI(nu/nu)-Mäuse mit [90Y]C225 (je 2,8 MBq/13 μg C225 i.v.) und/oder externer Bestrahlung (26, 32 und 38 Gy, 200 kV Röntgen, 0,5 mm Cu-Filter, 1,1 Gy/min, Einzeldosis) behandelt. Endpunkte der Therapieexperimente waren Wachstumsverzögerung und lokale Tumorkontrolle 180 Tage nach externer Bestrahlung. Ergebnisse: Es wurden 4 CHX-A´´-DTPA-Moleküle an C225 gekuppelt. Das Konjugat weist mit einem KD-Wert von 0,33 nM im Vergleich zu nativem C225 keinen Affinitätsverlust gegenüber EGFR auf. Bei der Radiomarkierung mit [90Y]YCl3 wurden reproduzierbar spezifische Aktivitäten bis zu 9 GBq/mg C225 und radiochemische Ausbeuten von >95% erzielt. Autoradiographie und PET zeigten 48 h p.i. eine hohe Anreicherung im Tumor. Diese Ergebnisse zeigen, dass das Konjugat für Therapieversuche geeignet ist. Die Kombinationstherapie wurde gut toleriert und es konnten im Vergleich zu den Kontrolltieren histologisch keine Organveränderungen festgestellt werden. Die Tumorkontrolle nach alleiniger externer Bestrahlung zeigt einen klaren Dosiseffekt. Nach 26 Gy externer Bestrahlung war eine signifikant höhere Tumorkontrolle nach Applikation von 13 μg [90Y]C225 im Vergleich zu alleiniger externer Bestrahlung oder zu externer Bestrahlung und unmarkiertem Cetuximab zu verzeichnen. Referenzen: (1) Krause et al. Radiother Oncol. 2005 Feb;74(2):109-15 Gefördert durch das BMBF (02NUK006), Kompetenzverbund Strahlenforschung

Published
2011

41. Multicellular Tumor Spheroids as a Model System for the Evaluation of PET Radiotracer Uptake

Author

Oswald, J., Marschner, K., Kunz-Schughart, L. A., Schwenzer, B., and Pietzsch, J.

Abstract

Aim: Three-dimensional multicellular tumor spheroids (MCTS) of tumor cell lines are a promising model system which reflects the in vivo situation of tumor microregions with increasing accuracy compared with conventional monolayer culture. In this study we quantified the uptake of radiotracers [18F]FDG and [18F]FMISO in various types of MCTS at different diameters and after defined times in culture. Material and Methods: Human tumor cell lines FaDu, HT-29, MCF-7 and EJ-28 and the murine line B16-F10 were cultured in 96 well plates. Culturing was performed in the presence of 0.24% methylcellulose for 3 to 7 days and with seeding densities of 1,000, 5,000, 10,000 and 30,000 cells per well. Diameters of individual spheroids were assessed and cellular uptake of [18F]FDG and [18F]FMISO was recorded after an incubation interval of 2 to 4 hours. MCTS were then harvested, washed onto filters and the individual uptake per spheroid was measured with a gamma counter. Results: Between day 3 and day 7, spheroids of a starting concentration of 10,000 cells showed an increase in diameter of 1.4-fold for HT-29, 1.2-fold for FaDu, 1.3-fold for MCF-7 and 1.1-fold for both EJ-28 and B16-F10 cells. In all cell lines, we observed a good correlation between uptake of [18F]FDG and spheroid diameter and protein content, respectively. With an experimental setting of 10.000 initiated cells and 3 days of culturing, the highest [18F]FDG uptake was achieved in B16-F10 cell spheroids with a value of 1.46±0.41 percent injected dose per MCTS (%ID/MCTS). In comparison, FaDu uptake was 0.63±0.15%ID/MCTS and 0.38±0.05%ID/MCTS in HT-29. EJ-28 and MCF-7 exhibited less than 0.2%ID/MCTS. In parallel, a different uptake pattern was observed for [18F]FMISO. Highest uptake was documented in B16-F10 with 0.23±0.11%ID/MCTS, whereas all other cell lines showed an uptake of 0.03%ID/MCTS or less. These data indicate larger areas of hypoxia in the cores of B16-F10 spheroids compared to other cell lines. Conclusion: Our data show a spheroid-type specific increase in the uptake of both [18F]FDG and the hypoxia marker [18F]FMISO as a function of the spheroid diameters which is indicative for an increasing amount of metabolically active cells and an increment of hypoxic areas in growing spheroids. We conclude (i) that radiotracer uptake is a promising approach to monitor the pathophysiological situation in MCTS and (ii) that MCTS are a valuable tool to study the uptake of new radiotracers in a pathophysiological tumor milieu.

Published
2007

44. EGFR/JIP-4/JNK2 signaling attenuates cetuximab-mediated radiosensitization of squamous cell carcinoma cells.

Author

Eke, I., Schneider, L., Förster, C., Zips, D., Kunz-Schughart, L., Cordes, N., Eke, I., Schneider, L., Förster, C., Zips, D., Kunz-Schughart, L., and Cordes, N.

Abstract

EGF receptor (EGFR) promotes tumor growth as well as radio- and chemoresistance in various human malignancies including squamous cell carcinomas (SCC). In addition to deactivation of prosurvival signaling, cetuximab-mediated EGFR targeting might concomitantly induce self-attenuating signaling bypasses. Identification of such bypass mechanisms is key to improve the efficacy of targeted approaches. Here, we show great similarity of EGFR signaling and radiation survival in cetuximab-treated SCC cells grown in a more physiologic three-dimensional extracellular matrix and as tumor xenografts in contrast to conventional monolayer cell cultures. Using phosphoproteome arrays, we observed strong induction of JNK2 phosphorylation potentially resulting from cetuximab-inhibited EGFR through c-jun-NH(2)-kinase (JNK)-interacting protein-4 (JIP-4), which was identified using an immunoprecipitation-mass spectrometric approach. Inhibition of this signaling bypass by JIP-4 or JNK2 knockdown or pharmacologic JNK2 inhibition enhanced cetuximab efficacy and tumor cell radiosensitivity. Our findings add new facets to EGFR signaling and indicate signaling bypass possibilities of cancer cells to improve their survival on cetuximab treatment. By deactivation of cetuximab-self-attenuating JNK2-dependent signaling, the cytotoxicity, and radiosensitizing potential of cetuximab can be augmented.

Published
2013

45. Discovery of the cancer stem cell related determinants of radioresistance

Author

Peitzsch, C., Kurth, I., Kunz-Schughart, L., Baumann, M., Dubrovska, A., Peitzsch, C., Kurth, I., Kunz-Schughart, L., Baumann, M., and Dubrovska, A.

Abstract

Tumors are known to be heterogeneous containing a dynamic mixture of phenotypically and functionally different tumor cells. The two concepts attempting to explain the origin of intratumor heterogeneity are the cancer stem cell hypothesis and the clonal evolution model. The stochastic model argues that tumors are biologically homogenous and all cancer cells within the tumor have equal ability to propagate the tumor growth depending on continuing mutations and selective pressure. By contrast, the stem cells model suggests that cancer heterogeneity is due to the hierarchy that originates from a small population of cancer stem cells (CSCs) which are biologically distinct from the bulk tumor and possesses self-renewal, tumorigenic and multilineage potential. Although these two hypotheses have been discussed for a long time as mutually exclusive explanations of tumor heterogeneity, they are easily reconciled serving as a driving force of cancer evolution and diversity. Recent discovery of the cancer cell plasticity and heterogeneity makes the CSC population a moving target that could be hard to track and eradicate. Understanding the signaling mechanisms regulating CSCs during the course of cancer treatment. can be indispensable for the optimization of current treatment strategies.

Published
2013

46. Flow cytometric cell-based assay to preselect antibody constructs for radionuclide conjugation

Author

Ingargiola, M., Dittfeld, C., Runge, R., Zenker, M., Heldt, J.-M., Steinbach, J., Cordes, N., Baumann, M., Kotzerke, J., Kunz-Schughart, L., Ingargiola, M., Dittfeld, C., Runge, R., Zenker, M., Heldt, J.-M., Steinbach, J., Cordes, N., Baumann, M., Kotzerke, J., and Kunz-Schughart, L.

Abstract

Radiolabeled antibodies (Abs) are an attractive tool for targeting and delivering particle emitters for therapy or imaging applications. The labeling of Abs with metal radionuclides requires chelating agents and can cause loss of binding to their ligands. The aim of the present approach was to design an easy-handling flow cytometric cell-based assay to evaluate Ab-binding capacity of conjugates of the therapeutic Ab Cetuximab and to verify the most promising candidate in a competitive radioactive binding experiment. The final setup for flow cytometric assessment of cellular binding capacities of epidermal growth factor receptor (EGFR)/ErbB1-directed Ab conjugates is based on (a) the selection of a robust cell line model (b) the definition of nonsaturated staining concentrations for the unconjugated reference Ab Cetuximab plus implementation of a reasonable isotype control, and (c) the calculation of relative Ab affinities based on the flow cytometric data. Two (FaDu, SAS) out of the three cell lines with different total and cell surface expression levels of EGFR turned out to be adequate models but the application of one cell line was sufficient to estimate reduced binding capacities of conjugates relative to Cetuximab. Only 1/11 conjugate Abs exhibited a fluorescence signal comparable to unconjugated Cetuximab and was applied for radiolabeling with Yttrium-90. Unaltered binding affinity of this conjugate was proven in a competitive radioactive Ab-binding study. We conclude that the flow cytometric assay is reliable and that the relative binding capacity of Cetuximab is neither affected by covalent modification with CHX-A″-DTPA (N-[(R)-2-Amino-3-(p-isothiocyanato-phenyl) propyl]-trans-(S,S)-cyclohexane-1,2-diamine-N,N,N′,N″,N″-pentaacetic acid) with a final chelator-to-Ab ratio of 5 nor by subsequent radiolabeling. [90Y]Y-CHX-A″-DTPA-Cetuximab thus qualifies for preclinical treatment testing as a prerequisite for therapeutic application.

Published
2012

49. Cyclooxygenase 2 (COX2) and peroxisome proliferator-activated receptor gamma (PPARG) are stage-dependent prognostic markers of malignant melanoma

Author

Meyer, S, Vogt, T, Landthaler, M, Berand, A, Reichle, A, Bataille, F, Marx, A H, Menz, A, Hartmann, A, Kunz-Schughart, L A, Wild, P J, Meyer, S, Vogt, T, Landthaler, M, Berand, A, Reichle, A, Bataille, F, Marx, A H, Menz, A, Hartmann, A, Kunz-Schughart, L A, and Wild, P J

Abstract

Using tissue microarrays (TMAs) we studied COX2/PPARG immunoreactivity in a broad spectrum of tumors focussing on clinicopathological correlations and the outcome of patients with malignant melanoma (MM). TMA-1 contained normal and tumor tissues (n = 3448) from 47 organs including skin neoplasms (n = 323); TMA-2 88 primary MM, 101 metastases, and 161 benign nevi. Based on a biomodulatory approach combining COX/PPAR-targeting with metronomic low-dose chemotherapy metastases of 36 patients participating in a randomized trial with metastatic (stage IV) melanoma were investigated using TMA-3. COX2/PPARG immunoreactivity significantly increased from nevi to primary MM and metastases; COX2 positivity was associated with advanced Clark levels and shorter recurrence-free survival. Patients with PPARG-positive metastases and biomodulatory metronomic chemotherapy alone or combined with COX2/PPARG-targeting showed a significantly prolonged progression-free survival. Regarding primary MM, COX2 expression indicates an increased risk of tumor recurrence. In metastatic MM, PPARG expression may be a predicitive marker for response to biomodulatory stroma-targeted therapy.

Published
2010

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