Attenuated measles virus controls pediatric acute B-lineage lymphoblastic leukemia in NOD/SCID mice

Lühl, Nike C.; Zirngibl, Felix; Dorneburg, Carmen; Wei, Jiwu; Dahlhaus, Meike; Barth, Thomas F.E.; Meyer, Lüder Hinrich; Queudeville, Manon; Eckhoff, Sarah Mirjam; Debatin, Klaus‐Michael; Beltinger, Christian

doi:10.3324/haematol.2013.087205

Cited by 10 publications

(8 citation statements)

References 51 publications

(56 reference statements)

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“…These include: adult acute lymphoblastic leukemia and chronic lymphocytic leukemia [58,59], adult T cell leukemia/lymphoma [60], atypical teratoid rhabdoid tumor [61], breast cancer [44,62], cholangiocarcinoma [63], colorectal cancer [64], cutaneous T cell lymphoma [65], gliomas [66], head and neck squamous cell cancer [67], hepatoblastoma [68], hepatocellular cancer [51], lung cancer [64,69,70], malignant peripheral nerve sheath tumor [71], mantle cell lymphoma [72], medulloblastoma [53,73,74], melanoma [75,76], mesothelioma [77,78], multiple myeloma [47,79], non-Hodgkin’s lymphoma [80], osteosarcoma [81], ovarian cancer [52,82,83], pancreatic cancer [49,50,84], prostate cancer [45,85], renal cell carcinoma [86], rhabdomyosarcoma [87], and splenic marginal zone lymphoma [88]. …”

Section: Improving the Oncolytic Efficacy And Safety Of MV Strainsmentioning

confidence: 99%

“…To date, there have only been two oncolytic viruses that have achieved regulatory approval worldwide, based on phase III data; both involved intratumorally injected attenuated viruses. H101, an E1B attenuated adenovirus, was approved in 2005 in China after demonstrating superior response rates in combination with chemotherapy over chemotherapy alone in patients with squamous cell cancer of the head and neck or esophagus [5,6]. Similarly, talimogene laherparepvec (T-VEC), an oncolytic herpes virus (HSV1) engineered to produce granulocyte macrophage colony-stimulating factor (GM-CSF), demonstrated a superior durable response rate and promising overall survival in patients with melanoma, becoming the first oncolytic virus approved in the USA and Europe in 2015 [7].…”

Section: Introductionmentioning

confidence: 99%

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Potential and clinical translation of oncolytic measles viruses

Robinson

Galanis

2017

Expert Opinion on Biological Therapy

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Introduction Oncolytic viruses represent a novel treatment modality that is unencumbered by the standard resistance mechanisms limiting the therapeutic efficacy of conventional antineoplastic agents. Attenuated engineered measles virus strains derived from the Edmonston vaccine lineage have undergone extensive preclinical evaluation with significant antitumor activity observed in a broad range of preclinical tumoral models. These have laid the foundation for several clinical trials in both solid and hematologic malignancies, which have demonstrated safety, biologic activity and the ability to elicit antitumor immune responses. Areas covered This review examines the published preclinical data which supported the clinical translation of this therapeutic platform, reviews the available clinical trial data and expands on ongoing phase II testing. It also looks at approaches to optimize clinical applicability and offers future perspectives. Expert opinion Reverse genetic engineering has allowed the generation of oncolytic MV strains retargeted to increase viral tumor specificity, or armed with therapeutic and immunomodulatory genes in order to enhance anti-tumor efficacy. Continuous efforts focusing on exploring methods to overcome resistance pathways and determining optimal combinatorial strategies will facilitate further development of this encouraging antitumor strategy.

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Section: Improving the Oncolytic Efficacy And Safety Of MV Strainsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Potential and clinical translation of oncolytic measles viruses

Robinson

Galanis

2017

Expert Opinion on Biological Therapy

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“…Within the rapid progress of new therapeutic strategies for the treatment of hematological malignancies, OVs continue to be a promising tool for effective treatments. Attempts to treat hematological malignancies with OVs have also included vesicular stomatitis virus (VSV) [ 40 , 41 ], live attenuated measles virus (MV) [ 42 , 43 ], oncolytic parvovirus [ 44 ], myxoma virus (MYXV) [ 45 , 46 ], and oncolytic poxvirus [ 47 , 48 ]. OVs have shown both advantages and limitations as therapy tools, including challenges and opportunities to improve treatment tolerability.…”

Section: Introductionmentioning

confidence: 99%

Induction of Cell Death in the Human Acute Lymphoblastic Leukemia Cell Line Reh by Infection with Rotavirus Isolate Wt1-5

Guerrero

Acosta

2020

Biomedicines

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Cancer is a major health problem that poses a great challenge to health care systems worldwide. Tools for cancer treatment have rapidly advanced in recent years, resulting in therapeutic strategies which are alternative and complementary to conventional treatment. To identify the cell surface receptors used by a tumor cell-adapted rotavirus and the cell death markers induced by its infection, we use Wt1-5, a rotavirus isolate recently adapted to tumor cells, to infect the human acute lymphoblastic leukemia cell line, Reh. The expression of cell surface receptors used by Wt1-5 was determined using flow cytometry and an antibody blocking assay to test for their implication in virus infection. Viral antigens and cell death markers induced by rotavirus infection were followed by flow cytometric analysis. The present study showed that rotavirus Wt1-5 was able to use cell surface proteins such as heat shock proteins (HSPs) 90, 70, 60 and 40, Hsc70, PDI and integrin β3. Rotavirus Wt1-5 induced cytotoxic effects including changes in cell membrane permeability, alteration of mitochondrial membrane potential, DNA fragmentation and activation of cell death signaling. Wt1-5 deserves to be further studied as a candidate oncolytic agent due to its ability to induce apoptosis in lymphoblastic leukemia-derived cells.

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“…Studies employing MV as an oncolytic virotherapy agent have suggested that SLAMF1 is a therapeutic target in certain hematological diseases. For instance, in mouse models, this therapeutic strategy has been evaluated using attenuated MV to target certain acute lymphoblastic leukemia (ALL) [ 27 ]. Attenuated MV efficiently killed leukemia cells without affecting normal human blood cells and progenitors.…”

Section: Introductionmentioning

confidence: 99%

“…Attenuated MV efficiently killed leukemia cells without affecting normal human blood cells and progenitors. A few intravenous injections of attenuated MV were able to eradicate leukemic blasts [ 27 ]. Takeda et al reported higher susceptibility of lymphoma cells to attenuated therapeutic MV vaccine strain (CAM-70)-induced cytolysis due to elevated expression of SLAMF1 in these cells.…”

Section: Introductionmentioning

confidence: 99%

Signaling lymphocytic activation molecules Slam and cancers: friends or foes?

et al. 2018

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Signaling Lymphocytic Activation Molecules (SLAM) family receptors are initially described in immune cells. These receptors recruit both activating and inhibitory SH2 domain containing proteins through their Immunoreceptor Tyrosine based Switch Motifs (ITSMs). Accumulating evidence suggest that the members of this family are intimately involved in different physiological and pathophysiological events such as regulation of immune responses and entry pathways of certain viruses. Recently, other functions of SLAM, principally in the pathophysiology of neoplastic transformations have also been deciphered. These new findings may prompt SLAM to be considered as new tumor markers, diagnostic tools or potential therapeutic targets for controlling the tumor progression. In this review, we summarize the major observations describing the implications and features of SLAM in oncology and discuss the therapeutic potential attributed to these molecules.

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Attenuated measles virus controls pediatric acute B-lineage lymphoblastic leukemia in NOD/SCID mice

Cited by 10 publications

References 51 publications

Potential and clinical translation of oncolytic measles viruses

Potential and clinical translation of oncolytic measles viruses

Induction of Cell Death in the Human Acute Lymphoblastic Leukemia Cell Line Reh by Infection with Rotavirus Isolate Wt1-5

Signaling lymphocytic activation molecules Slam and cancers: friends or foes?

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