Desislava Tsoneva scite author profile

Desislava Tsoneva

5Publications

38Citation Statements Received

107Citation Statements Given

How they've been cited

How they cite others

100

Affiliations

University of Würzburg

Publications

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Humanized Mice with Subcutaneous Human Solid Tumors for Immune Response Analysis of Vaccinia Virus-Mediated Oncolysis

Tsoneva

Minev

Frentzen

et al. 2017

Molecular Therapy - Oncolytics

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Oncolytic vaccinia virus (VACV) therapy is an alternative cancer treatment modality that mediates targeted tumor destruction through a tumor-selective replication and an induction of anti-tumor immunity. We developed a humanized tumor mouse model with subcutaneous human tumors to analyze the interactions of VACV with the developing tumors and human immune system. A successful systemic reconstitution with human immune cells including functional T cells as well as development of tumors infiltrated with human T and natural killer (NK) cells was observed. We also demonstrated successful in vivo colonization of such tumors with systemically administered VACVs. Further, a new recombinant GLV-1h376 VACV encoding for a secreted human CTLA4-blocking single-chain antibody (CTLA4 scAb) was tested. Surprisingly, although proving CTLA4 scAb’s in vitro binding ability and functionality in cell culture, beside the significant increase of CD56bright NK cell subset, GLV-1h376 was not able to increase cytotoxic T or overall NK cell levels at the tumor site. Importantly, the virus-encoded β-glucuronidase as a measure of viral titer and CTLA4 scAb amount was demonstrated. Therefore, studies in our “patient-like” humanized tumor mouse model allow the exploration of newly designed therapy strategies considering the complex relationships between the developing tumor, the oncolytic virus, and the human immune system.

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Combination immunotherapy with oncolytic vaccinia virus and checkpoint inhibitor following local tumor irradiation

Minev¹,

Kohrt²,

Kilinc³

et al. 2014

Journal for ImmunoTherapy of Cancer

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Drug-Encoded Biomarkers for Monitoring Biological Therapies

et al. 2015

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Blood tests are necessary, easy-to-perform and low-cost alternatives for monitoring of oncolytic virotherapy and other biological therapies in translational research. Here we assessed three candidate proteins with the potential to be used as biomarkers in biological fluids: two glucuronidases from E. coli (GusA) and Staphylococcus sp. RLH1 (GusPlus), and the luciferase from Gaussia princeps (GLuc). The three genes encoding these proteins were inserted individually into vaccinia virus GLV-1h68 genome under the control of an identical promoter. The three resulting recombinant viruses were used to infect tumor cells in cultures and human tumor xenografts in nude mice. In contrast to the actively secreted GLuc, the cytoplasmic glucuronidases GusA and GusPlus were released into the supernatants only as a result of virus-mediated oncolysis. GusPlus resulted in the most sensitive detection of enzyme activity under controlled assay conditions in samples containing as little as 1 pg/ml of GusPlus, followed by GusA (25 pg/ml) and GLuc (≥375 pg/ml). Unexpectedly, even though GusA had a lower specific activity compared to GusPlus, the substrate conversion in the serum of tumor-bearing mice injected with the GusA-encoding virus strains was substantially higher than that of GusPlus. This was attributed to a 3.2 fold and 16.2 fold longer half-life of GusA in the blood stream compared to GusPlus and GLuc respectively, thus a more sensitive monitor of virus replication than the other two enzymes. Due to the good correlation between enzymatic activity of expressed marker gene and virus titer, we conclude that the amount of the biomarker protein in the body fluid semiquantitatively represents the amount of virus in the infected tumors which was confirmed by low light imaging. We found GusA to be the most reliable biomarker for monitoring oncolytic virotherapy among the three tested markers.

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Use of GLV-1h68 for Vaccinia Virotherapy and Monitoring

Frentzen

Geissinger

Tsoneva

et al. 2015

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Herein we describe the use of the vaccinia virus strain GLV-1h68 as a theragnostic agent in cancer models. To date, GLV-1h68 has been used successfully in more than 50 xenograft tumor models. The recombinant vaccinia virus strain has been equipped with heterologous expression cassettes for a luciferase-fluorescent protein fusion gene, bacterial beta-galactosidase, as well as a bacterial glucuronidase. The methods to investigate and monitor GLV-1h68 mediated virotherapy, including optical imaging and biomarker analysis, will be presented in detail.

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Targeting hematologic malignancies with oncolytic vaccinia virus constructs

Chen¹,

Kilinc

Zhang³

et al. 2013

Journal for ImmunoTherapy of Cancer

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