Your search keyword '"H-1PV"' showing total 20 results

1. Immune Conversion of Tumor Microenvironment by Oncolytic Viruses: The Protoparvovirus H-1PV Case Study

Author

Antonio Marchini, Laurent Daeffler, Vitaly I. Pozdeev, Assia Angelova, and Jean Rommelaere

Subjects

oncolytic viruses, H-1PV, immunotherapy, immunogenic cell death, combination therapy, tumor microenvironment, Immunologic diseases. Allergy, RC581-607

Abstract

Cancer cells utilize multiple mechanisms to evade and suppress anticancer immune responses creating a “cold” immunosuppressive tumor microenvironment. Oncolytic virotherapy is emerging as a promising approach to revert tumor immunosuppression and enhance the efficacy of other forms of immunotherapy. Growing evidence indicates that oncolytic viruses (OVs) act in a multimodal fashion, inducing immunogenic cell death and thereby eliciting robust anticancer immune responses. In this review, we summarize information about OV-mediated immune conversion of the tumor microenvironment. As a case study we focus on the rodent protoparvovirus H-1PV and its dual role as an oncolytic and immune modulatory agent. Potential strategies to improve H-1PV anticancer efficacy are also discussed.

Published

2019

2. Rational Combination of Parvovirus H1 With CTLA-4 and PD-1 Checkpoint Inhibitors Dampens the Tumor Induced Immune Silencing

Author

Katrin Goepfert, Christiane Dinsart, Jean Rommelaere, Friedrich Foerster, and Markus Moehler

Subjects

melanoma, immune cells, H-1PV, nivolumab, ipilimumab, immunotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The recent therapeutic success of immune checkpoint inhibitors in the treatment of advanced melanoma highlights the potential of cancer immunotherapy. Oncolytic virus-based therapies may further improve the outcome of these cancer patients. A human ex vivo melanoma model was used to investigate the oncolytic parvovirus H-1 (H-1PV) in combination with ipilimumab and/or nivolumab. The effect of this combination on activation of human T lymphocytes was demonstrated. Expression of CTLA-4, PD-1, and PD-L1 immune checkpoint proteins was upregulated in H-1PV-infected melanoma cells. Nevertheless, maturation of antigen presenting cells such as dendritic cells was triggered by H-1PV infected melanoma cells. Combining H-1PV with checkpoint inhibitors, ipilimumab enhanced TNFα release during maturation of dendritic cells; nivolumab increased the amount of IFNγ release. H-1PV mediated reduction of regulatory T cell activity was demonstrated by lower TGF-ß levels. The combination of ipilimumab and nivolumab resulted in a further decline of TGF-ß levels. Similar results were obtained regarding the activation of cytotoxic T cells. H-1PV infection alone and in combination with both checkpoint inhibitors caused strong activation of CTLs, which was reflected by an increased number of CD8+GranB+ cells and increased release of granzyme B, IFNγ, and TNFα. Our data support the concept of a treatment benefit from combining oncolytic H-1PV with the checkpoint inhibitors ipilimumab and nivolumab, with nivolumab inducing stronger effects on cytotoxic T cells, and ipilimumab strengthening T lymphocyte activity.

Published

2019

3. Immune Conversion of Tumor Microenvironment by Oncolytic Viruses: The Protoparvovirus H-1PV Case Study.

Author

Marchini, Antonio, Daeffler, Laurent, Pozdeev, Vitaly I., Angelova, Assia, and Rommelaere, Jean

Subjects

TUMOR microenvironment, CASE studies

Abstract

Cancer cells utilize multiple mechanisms to evade and suppress anticancer immune responses creating a "cold" immunosuppressive tumor microenvironment. Oncolytic virotherapy is emerging as a promising approach to revert tumor immunosuppression and enhance the efficacy of other forms of immunotherapy. Growing evidence indicates that oncolytic viruses (OVs) act in a multimodal fashion, inducing immunogenic cell death and thereby eliciting robust anticancer immune responses. In this review, we summarize information about OV-mediated immune conversion of the tumor microenvironment. As a case study we focus on the rodent protoparvovirus H-1PV and its dual role as an oncolytic and immune modulatory agent. Potential strategies to improve H-1PV anticancer efficacy are also discussed. [ABSTRACT FROM AUTHOR]

Published

2019

4. Rational Combination of Parvovirus H1 With CTLA-4 and PD-1 Checkpoint Inhibitors Dampens the Tumor Induced Immune Silencing.

Author

Goepfert, Katrin, Dinsart, Christiane, Rommelaere, Jean, Foerster, Friedrich, and Moehler, Markus

Subjects

PARVOVIRUSES, MELANOMA treatment, CANCER immunotherapy, CANCER patients, IPILIMUMAB

Abstract

The recent therapeutic success of immune checkpoint inhibitors in the treatment of advanced melanoma highlights the potential of cancer immunotherapy. Oncolytic virus-based therapies may further improve the outcome of these cancer patients. A human ex vivo melanoma model was used to investigate the oncolytic parvovirus H-1 (H-1PV) in combination with ipilimumab and/or nivolumab. The effect of this combination on activation of human T lymphocytes was demonstrated. Expression of CTLA-4, PD-1, and PD-L1 immune checkpoint proteins was upregulated in H-1PV-infected melanoma cells. Nevertheless, maturation of antigen presenting cells such as dendritic cells was triggered by H-1PV infected melanoma cells. Combining H-1PV with checkpoint inhibitors, ipilimumab enhanced TNFα release during maturation of dendritic cells; nivolumab increased the amount of IFNγ release. H-1PV mediated reduction of regulatory T cell activity was demonstrated by lower TGF-ß levels. The combination of ipilimumab and nivolumab resulted in a further decline of TGF-ß levels. Similar results were obtained regarding the activation of cytotoxic T cells. H-1PV infection alone and in combination with both checkpoint inhibitors caused strong activation of CTLs, which was reflected by an increased number of CD8+GranB+ cells and increased release of granzyme B, IFNγ, and TNFα. Our data support the concept of a treatment benefit from combining oncolytic H-1PV with the checkpoint inhibitors ipilimumab and nivolumab, with nivolumab inducing stronger effects on cytotoxic T cells, and ipilimumab strengthening T lymphocyte activity. [ABSTRACT FROM AUTHOR]

Published

2019

5. H-1 Parvovirus as a Cancer-Killing Agent: Past, Present, and Future

Author

Clemens Bretscher and Antonio Marchini

Subjects

oncolytic virus immune therapy, rodent protoparvoviruses, H-1PV, combination therapies, second generation parvovirus treatments, Microbiology, QR1-502

Abstract

The rat protoparvovirus H-1PV is nonpathogenic in humans, replicates preferentially in cancer cells, and has natural oncolytic and oncosuppressive activities. The virus is able to kill cancer cells by activating several cell death pathways. H-1PV-mediated cancer cell death is often immunogenic and triggers anticancer immune responses. The safety and tolerability of H-1PV treatment has been demonstrated in early clinical studies in glioma and pancreatic carcinoma patients. Virus treatment was associated with surrogate signs of efficacy including immune conversion of tumor microenvironment, effective virus distribution into the tumor bed even after systemic administration, and improved patient overall survival compared with historical control. However, monotherapeutic use of the virus was unable to eradicate tumors. Thus, further studies are needed to improve H-1PV’s anticancer profile. In this review, we describe H-1PV’s anticancer properties and discuss recent efforts to improve the efficacy of H-1PV and, thereby, the clinical outcome of H-1PV-based therapies.

Published

2019

6. Synergistic combination of valproic acid and oncolytic parvovirus H‐1PV as a potential therapy against cervical and pancreatic carcinomas

Author

Junwei Li, Serena Bonifati, Georgi Hristov, Tiina Marttila, Séverine Valmary‐Degano, Sven Stanzel, Martina Schnölzer, Christiane Mougin, Marc Aprahamian, Svitlana P. Grekova, Zahari Raykov, Jean Rommelaere, and Antonio Marchini

Subjects

H‐1PV, pancreatic ductal adenocarcinomas, parvovirus NS1 protein, valproic acid, viral oncotherapy, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract The rat parvovirus H‐1PV has oncolytic and tumour‐suppressive properties potentially exploitable in cancer therapy. This possibility is being explored and results are encouraging, but it is necessary to improve the oncotoxicity of the virus. Here we show that this can be achieved by co‐treating cancer cells with H‐1PV and histone deacetylase inhibitors (HDACIs) such as valproic acid (VPA). We demonstrate that these agents act synergistically to kill a range of human cervical carcinoma and pancreatic carcinoma cell lines by inducing oxidative stress, DNA damage and apoptosis. Strikingly, in rat and mouse xenograft models, H‐1PV/VPA co‐treatment strongly inhibits tumour growth promoting complete tumour remission in all co‐treated animals. At the molecular level, we found acetylation of the parvovirus nonstructural protein NS1 at residues K85 and K257 to modulate NS1‐mediated transcription and cytotoxicity, both of which are enhanced by VPA treatment. These results warrant clinical evaluation of H‐1PV/VPA co‐treatment against cervical and pancreatic ductal carcinomas.

Published

2013

7. Oncolytic virotherapy as emerging immunotherapeutic modality: potential of parvovirus H-1

Author

Markus eMoehler, Katrin eGoepfert, Bernd eHeinrich, Caroline eBreitbach, Maike eDelic, Peter Robert Galle, and Jean eRommelaere

Subjects

Immunotherapy, CTLA-4, Dentritic cells, autonomous parvovirus, H-1PV, talimogene laherparepvec, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Human tumors develop multiple strategies to evade recognition and efficient suppression by the immune system. Therefore, a variety of immunotherapeutic strategies have been developed to reactivate and reorganize the human immune system. The recent development of new antibodies against immune check points may help to overcome the immune silencing induced by human tumors. Some of these antibodies have already been approved for treatment of various solid tumor entities. Interestingly, targeting antibodies may be combined with standard chemotherapy or radiation protocols. Furthermore, recent evidence indicates that intratumoral (it) or intravenous (iv) injections of replicative oncolytic viruses such as herpes simplex-, pox-, parvo- or adenoviruses may also reactivate the human immune system. By generating tumor cell lysates in situ, oncolytic viruses overcome cellular tumor resistance mechanisms and induce immunogenic tumor cell death resulting in the recognition of newly released tumor antigens.This is in particular the case of the oncolytic parvovirus H-1 (H-1PV) which is able to kill human tumor cells and stimulate an antitumor immune response through increased presentation of tumor-associated antigens, maturation of dendritic cells and release of proinflammatory cytokines. Current research and clinical studies aim to assess the potential of oncolytic virotherapy and its combination with immunotherapeutic agents or conventional treatments to further induce effective antitumoral immune responses.

Published

2014

8. Viral genes as oncolytic agents for cancer therapy.

Author

Gupta, Shishir, Gandham, Ravi, Sahoo, A., and Tiwari, A.

Subjects

*VIRAL genes, *CANCER treatment, *CELLULAR signal transduction, *CANCER cells, *GENE expression

Abstract

Many viruses have the ability to modulate the apoptosis, and to accomplish it; viruses encode proteins which specifically interact with the cellular signaling pathways. While some viruses encode proteins, which inhibit the apoptosis or death of the infected cells, there are viruses whose encoded proteins can kill the infected cells by multiple mechanisms, including apoptosis. A particular class of these viruses has specific gene(s) in their genomes which, upon ectopic expression, can kill the tumor cells selectively without affecting the normal cells. These genes and their encoded products have demonstrated great potential to be developed as novel anticancer therapeutic agents which can specifically target and kill the cancer cells leaving the normal cells unharmed. In this review, we will discuss about the viral genes having specific cancer cell killing properties, what is known about their functioning, signaling pathways and their therapeutic applications as anticancer agents. [ABSTRACT FROM AUTHOR]

Published

2015

9. Pediatric and Adult High-Grade Glioma Stem Cell Culture Models Are Permissive to Lytic Infection with Parvovirus H-1

Author

Rafael Josupeit, Sebastian Bender, Sonja Kern, Barbara Leuchs, Thomas Hielscher, Christel Herold-Mende, Jörg R. Schlehofer, Christiane Dinsart, Olaf Witt, Jean Rommelaere, and Jeannine Lacroix

Subjects

oncolytic virus, parvovirus H-1, H-1PV, DIPG, pediatric glioblastoma, tumor initiating cells, glioma stem-like cells, high-grade glioma, Microbiology, QR1-502

Abstract

Combining virus-induced cytotoxic and immunotherapeutic effects, oncolytic virotherapy represents a promising therapeutic approach for high-grade glioma (HGG). A clinical trial has recently provided evidence for the clinical safety of the oncolytic parvovirus H-1 (H-1PV) in adult glioblastoma relapse patients. The present study assesses the efficacy of H-1PV in eliminating HGG initiating cells. H-1PV was able to enter and to transduce all HGG neurosphere culture models (n = 6), including cultures derived from adult glioblastoma, pediatric glioblastoma, and diffuse intrinsic pontine glioma. Cytotoxic effects induced by the virus have been observed in all HGG neurospheres at half maximal inhibitory concentration (IC50) doses of input virus between 1 and 10 plaque forming units per cell. H-1PV infection at this dose range was able to prevent tumorigenicity of NCH421k glioblastoma multiforme (GBM) “stem-like” cells in NOD/SCID mice. Interestingly NCH421R, an isogenic subclone with equal capacity of xenograft formation, but resistant to H-1PV infection could be isolated from the parental NCH421k culture. To reveal changes in gene expression associated with H-1PV resistance we performed a comparative gene expression analysis in these subclones. Several dysregulated genes encoding receptor proteins, endocytosis factors or regulators innate antiviral responses were identified and represent intriguing candidates for to further study molecular mechanisms of H-1PV resistance.

Published

2016

10. Oncolytic virotherapy as emerging immunotherapeutic modality: potential of parvovirus H-1.

Author

Moehler, Markus, Goepfert, Katrin, Heinrich, Bernd, Breitbach, Caroline J., Delic, Maike, Galle, Peter Robert, and Rommelaere, Jean

Subjects

IMMUNOTHERAPY, IMMUNE system, IMMUNOGLOBULINS, TUMOR antigens, CELL death, DENDRITIC cells, IMMUNE response

Abstract

Human tumors develop multiple strategies to evade recognition and efficient suppression by the immune system. Therefore, a variety of immunotherapeutic strategies have been developed to reactivate and reorganize the human immune system. The recent development of new antibodies against immune check points may help to overcome the immune silencing induced by human tumors. Some of these antibodies have already been approved for treatment of various solid tumor entities. Interestingly, targeting antibodies may be combined with standard chemotherapy or radiation protocols. Furthermore, recent evidence indicates that intratumoral or intravenous injections of replicative oncolytic viruses such as herpes simplex-, pox-, parvo-, or adenoviruses may also reactivate the human immune system. By generating tumor cell lysates in situ, oncolytic viruses overcome cellular tumor resistance mechanisms and induce immunogenic tumor cell death resulting in the recognition of newly released tumor antigens. This is in particular the case of the oncolytic parvovirus H-1 (H-1PV), which is able to kill human tumor cells and stimulate an anti-tumor immune response through increased presentation of tumor-associated antigens, maturation of dendritic cells, and release of pro-inflammatory cytokines. Current research and clinical studies aim to assess the potential of oncolytic virotherapy and its combination with immunotherapeutic agents or conventional treatments to further induce effective antitumoral immune responses. [ABSTRACT FROM AUTHOR]

Published

2014

11. Synergistic combination of valproic acid and oncolytic parvovirus H-1 PV as a potential therapy against cervical and pancreatic carcinomas.

Author

Li, Junwei, Bonifati, Serena, Hristov, Georgi, Marttila, Tiina, Valmary‐Degano, Séverine, Stanzel, Sven, Schnölzer, Martina, Mougin, Christiane, Aprahamian, Marc, Grekova, Svitlana P., Raykov, Zahari, Rommelaere, Jean, and Marchini, Antonio

Abstract

The rat parvovirus H-1PV has oncolytic and tumour-suppressive properties potentially exploitable in cancer therapy. This possibility is being explored and results are encouraging, but it is necessary to improve the oncotoxicity of the virus. Here we show that this can be achieved by co-treating cancer cells with H-1PV and histone deacetylase inhibitors (HDACIs) such as valproic acid (VPA). We demonstrate that these agents act synergistically to kill a range of human cervical carcinoma and pancreatic carcinoma cell lines by inducing oxidative stress, DNA damage and apoptosis. Strikingly, in rat and mouse xenograft models, H-1PV/VPA co-treatment strongly inhibits tumour growth promoting complete tumour remission in all co-treated animals. At the molecular level, we found acetylation of the parvovirus nonstructural protein NS1 at residues K85 and K257 to modulate NS1-mediated transcription and cytotoxicity, both of which are enhanced by VPA treatment. These results warrant clinical evaluation of H-1PV/VPA co-treatment against cervical and pancreatic ductal carcinomas. [ABSTRACT FROM AUTHOR]

Published

2013

12. H-1 Parvovirus as a Cancer-Killing Agent: Past, Present, and Future

Author

Antonio Marchini and Clemens Bretscher

Subjects

H-1 parvovirus, 0301 basic medicine, lcsh:QR1-502, Review, lcsh:Microbiology, Virus, 03 medical and health sciences, 0302 clinical medicine, Immune system, Neoplasms, Virology, Glioma, Animals, Humans, Medicine, Oncolytic Virotherapy, Tumor microenvironment, business.industry, Cancer, medicine.disease, rodent protoparvoviruses, Combined Modality Therapy, oncolytic virus immune therapy, Rats, Oncolytic virus, H-1PV, Oncolytic Viruses, Treatment Outcome, 030104 developmental biology, Infectious Diseases, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, combination therapies, business, second generation parvovirus treatments

Abstract

The rat protoparvovirus H-1PV is nonpathogenic in humans, replicates preferentially in cancer cells, and has natural oncolytic and oncosuppressive activities. The virus is able to kill cancer cells by activating several cell death pathways. H-1PV-mediated cancer cell death is often immunogenic and triggers anticancer immune responses. The safety and tolerability of H-1PV treatment has been demonstrated in early clinical studies in glioma and pancreatic carcinoma patients. Virus treatment was associated with surrogate signs of efficacy including immune conversion of tumor microenvironment, effective virus distribution into the tumor bed even after systemic administration, and improved patient overall survival compared with historical control. However, monotherapeutic use of the virus was unable to eradicate tumors. Thus, further studies are needed to improve H-1PV’s anticancer profile. In this review, we describe H-1PV’s anticancer properties and discuss recent efforts to improve the efficacy of H-1PV and, thereby, the clinical outcome of H-1PV-based therapies.

Published

2019

13. Synergistic combination of valproic acid and oncolytic parvovirus H‐1 <scp>PV</scp> as a potential therapy against cervical and pancreatic carcinomas

Author

Jean Rommelaere, Zahari Raykov, Martina Schnölzer, Tiina Marttila, Marc Aprahamian, Antonio Marchini, Svitlana P. Grekova, Christiane Mougin, Séverine Valmary-Degano, Sven Stanzel, Junwei Li, Serena Bonifati, and Georgi Hristov

Subjects

DNA damage, parvovirus NS1 protein, Uterine Cervical Neoplasms, Apoptosis, Mice, SCID, Biology, Parvovirus, Mice, Rats, Nude, valproic acid, Mice, Inbred NOD, viral oncotherapy, Cell Line, Tumor, medicine, Animals, Humans, Cytotoxicity, Research Articles, Valproic Acid, pancreatic ductal adenocarcinomas, Carcinoma, biology.organism_classification, Rats, Oncolytic virus, H-1PV, Histone Deacetylase Inhibitors, Pancreatic Neoplasms, Disease Models, Animal, Oncolytic Viruses, Oxidative Stress, Cancer cell, Immunology, Cancer research, Molecular Medicine, Female, lipids (amino acids, peptides, and proteins), Histone deacetylase, HeLa Cells, medicine.drug

Abstract

The rat parvovirus H-1PV has oncolytic and tumour-suppressive properties potentially exploitable in cancer therapy. This possibility is being explored and results are encouraging, but it is necessary to improve the oncotoxicity of the virus. Here we show that this can be achieved by co-treating cancer cells with H-1PV and histone deacetylase inhibitors (HDACIs) such as valproic acid (VPA). We demonstrate that these agents act synergistically to kill a range of human cervical carcinoma and pancreatic carcinoma cell lines by inducing oxidative stress, DNA damage and apoptosis. Strikingly, in rat and mouse xenograft models, H-1PV/VPA co-treatment strongly inhibits tumour growth promoting complete tumour remission in all co-treated animals. At the molecular level, we found acetylation of the parvovirus nonstructural protein NS1 at residues K85 and K257 to modulate NS1-mediated transcription and cytotoxicity, both of which are enhanced by VPA treatment. These results warrant clinical evaluation of H-1PV/VPA co-treatment against cervical and pancreatic ductal carcinomas.

Published

2013

14. Pediatric and Adult High-Grade Glioma Stem Cell Culture Models Are Permissive to Lytic Infection with Parvovirus H-1

Author

Barbara Leuchs, R Josupeit, Thomas Hielscher, Olaf Witt, Jeannine Lacroix, Sonja Kern, Christiane Dinsart, Sebastian Bender, Jean Rommelaere, J�rg R. Schlehofer, and Christel Herold-Mende

Subjects

H-1 parvovirus, 0301 basic medicine, oncolytic virus, parvovirus H-1, H-1PV, DIPG, pediatric glioblastoma, tumor initiating cells, glioma stem-like cells, high-grade glioma, Parvovirus H-1, lcsh:QR1-502, Mice, SCID, Biology, lcsh:Microbiology, Article, Virus, 03 medical and health sciences, Mice, Inbred NOD, Virology, Glioma, Neurosphere, medicine, Animals, Humans, Cytotoxic T cell, Oncolytic Virotherapy, Gene Expression Profiling, Stem Cells, Models, Theoretical, medicine.disease, Oncolytic virus, Disease Models, Animal, Oncolytic Viruses, 030104 developmental biology, Infectious Diseases, J0101, Heterografts, Stem cell, Neuroglia

Abstract

Combining virus-induced cytotoxic and immunotherapeutic effects, oncolytic virotherapy represents a promising therapeutic approach for high-grade glioma (HGG). A clinical trial has recently provided evidence for the clinical safety of the oncolytic parvovirus H-1 (H-1PV) in adult glioblastoma relapse patients. The present study assesses the efficacy of H-1PV in eliminating HGG initiating cells. H-1PV was able to enter and to transduce all HGG neurosphere culture models (n = 6), including cultures derived from adult glioblastoma, pediatric glioblastoma, and diffuse intrinsic pontine glioma. Cytotoxic effects induced by the virus have been observed in all HGG neurospheres at half maximal inhibitory concentration (IC50) doses of input virus between 1 and 10 plaque forming units per cell. H-1PV infection at this dose range was able to prevent tumorigenicity of NCH421k glioblastoma multiforme (GBM) “stem-like” cells in NOD/SCID mice. Interestingly NCH421R, an isogenic subclone with equal capacity of xenograft formation, but resistant to H-1PV infection could be isolated from the parental NCH421k culture. To reveal changes in gene expression associated with H-1PV resistance we performed a comparative gene expression analysis in these subclones. Several dysregulated genes encoding receptor proteins, endocytosis factors or regulators innate antiviral responses were identified and represent intriguing candidates for to further study molecular mechanisms of H-1PV resistance.

Published

2016

15. Synergistic combination of valproic acid and oncolytic parvovirus H‐1PV as a potential therapy against cervical and pancreatic carcinomas

Author

Li, Junwei, Bonifati, Serena, Hristov, Georgi, Marttila, Tiina, Valmary‐Degano, Séverine, Stanzel, Sven, Schnölzer, Martina, Mougin, Christiane, Aprahamian, Marc, Grekova, Svitlana P., Raykov, Zahari, Rommelaere, Jean, and Marchini, Antonio

Published

2013

16. A Roadmap for the Success of Oncolytic Parvovirus-Based Anticancer Therapies.

Author

Hartley A, Kavishwar G, Salvato I, and Marchini A

Subjects

Animals, Clinical Trials as Topic, Humans, Oncolytic Virotherapy standards, Rodentia virology, Neoplasms therapy, Oncolytic Virotherapy methods, Oncolytic Viruses pathogenicity, Parvoviridae Infections virology, Parvovirus pathogenicity, Viral Tropism

Abstract

Autonomous rodent protoparvoviruses (PVs) are promising anticancer agents due to their excellent safety profile, natural oncotropism, and oncosuppressive activities. Viral infection can trigger immunogenic cell death, activating the immune system against the tumor. However, the efficacy of this treatment in recent clinical trials is moderate compared with results seen in preclinical work. Various strategies have been employed to improve the anticancer activities of oncolytic PVs, including development of second-generation parvoviruses with enhanced oncolytic and immunostimulatory activities and rational combination of PVs with other therapies. Understanding the cellular factors involved in the PV life cycle is another important area of investigation. Indeed, these studies may lead to the identification of biomarkers that would allow a more personalized use of PV-based therapies. This review focuses on this work and the challenges that still need to be overcome to move PVs forward into clinical practice as an effective therapeutic option for cancer patients.

Published

2020

17. H-1 Parvovirus as a Cancer-Killing Agent: Past, Present, and Future.

Author

Bretscher, Clemens and Marchini, Antonio

Subjects

*DRUG tolerance, *THERAPEUTICS, *CANCER cells, *CELL death, *ONCOGENIC viruses, *TUMOR microenvironment

Abstract

The rat protoparvovirus H-1PV is nonpathogenic in humans, replicates preferentially in cancer cells, and has natural oncolytic and oncosuppressive activities. The virus is able to kill cancer cells by activating several cell death pathways. H-1PV-mediated cancer cell death is often immunogenic and triggers anticancer immune responses. The safety and tolerability of H-1PV treatment has been demonstrated in early clinical studies in glioma and pancreatic carcinoma patients. Virus treatment was associated with surrogate signs of efficacy including immune conversion of tumor microenvironment, effective virus distribution into the tumor bed even after systemic administration, and improved patient overall survival compared with historical control. However, monotherapeutic use of the virus was unable to eradicate tumors. Thus, further studies are needed to improve H-1PV's anticancer profile. In this review, we describe H-1PV's anticancer properties and discuss recent efforts to improve the efficacy of H-1PV and, thereby, the clinical outcome of H-1PV-based therapies. [ABSTRACT FROM AUTHOR]

Published

2019

18. Oncolytic Virotherapy as Emerging Immunotherapeutic Modality: Potential of Parvovirus H-1

Author

Caroline J. Breitbach, Markus Moehler, Jean Rommelaere, Katrin Goepfert, Bernd Heinrich, Maike Delic, and Peter R. Galle

Subjects

Cancer Research, Parvovirus H-1, medicine.medical_treatment, autonomous parvovirus, Review Article, lcsh:RC254-282, JX-594, Immune system, Antigen, medicine, Dentritic cells, dendritic cells, Virotherapy, business.industry, Immunotherapy, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Oncolytic virus, H-1PV, T-VEC, talimogene laherparepvec, Oncology, CTLA-4, Immunology, immunotherapy, Talimogene laherparepvec, business

Abstract

Human tumors develop multiple strategies to evade recognition and efficient suppression by the immune system. Therefore, a variety of immunotherapeutic strategies have been developed to reactivate and reorganize the human immune system. The recent development of new antibodies against immune check points may help to overcome the immune silencing induced by human tumors. Some of these antibodies have already been approved for treatment of various solid tumor entities. Interestingly, targeting antibodies may be combined with standard chemotherapy or radiation protocols. Furthermore, recent evidence indicates that intratumoral (it) or intravenous (iv) injections of replicative oncolytic viruses such as herpes simplex-, pox-, parvo- or adenoviruses may also reactivate the human immune system. By generating tumor cell lysates in situ, oncolytic viruses overcome cellular tumor resistance mechanisms and induce immunogenic tumor cell death resulting in the recognition of newly released tumor antigens.This is in particular the case of the oncolytic parvovirus H-1 (H-1PV) which is able to kill human tumor cells and stimulate an antitumor immune response through increased presentation of tumor-associated antigens, maturation of dendritic cells and release of proinflammatory cytokines. Current research and clinical studies aim to assess the potential of oncolytic virotherapy and its combination with immunotherapeutic agents or conventional treatments to further induce effective antitumoral immune responses.

Published

2014

19. Det onkolytiska parvoviruset H-1PV : tumörsupprimerande mekanismer

Author

Lefverman, Cecilia and Lefverman, Cecilia

Abstract

H-1 parvovirus (H-1PV) är ett autonomt onkolytiskt parvovirus. Dess naturliga värddjur är råtta, men det kan även infektera andra vertebrater. H-1PV kan tas upp av alla celler men är endast skadligt för prolifererande celler i neonatala djur och tumöromvandlade celler. Vid infektion av tumörceller kan tumörsupprimerande mekanismer genereras. Dessa kan vara direkt cytotoxiska och celldödande, eller indirekta genom att aktivera viralt eller tumörspecifikt immunsvar. Under de senaste två decennierna har många framgångsrika prekliniska studier genomförts men de tumörsupprimerande mekanismerna för H-1PV är ännu långt ifrån klarlagda. Den här litteraturstudien syftar till att beskriva några av de egenskaper och mekanismer som är av betydelse för H-1PVs tumörsuppression. Grundförutsättningen för H-1PVs tumörsupprimerande effekt är dess onkotropism, det vill säga att virusets livscykel gynnas av den cellulära miljön som råder i tumörceller. Vid viral replikation och produktion av virala proteiner induceras cytotoxiska mekanismer. Dessa mekanismer varierar mellan olika celltyper. Exempel på cytotoxiska mekanismer som observerats i H-1PV-infekterade tumörceller är cellcykelarrest, aktivering av kaspaser, ackumulering av reaktiva syreföreningar och ackumulering av lysosomala enzymer. Exempel på H-1PV-inducerad immunförsvarsaktivering är aktivering av dendritiska celler och NK-celler (natural killer cells). Hitintills har H-1PV-forskningen fokuserat på behandlingsmöjligheter för humana tumörer, men då andra däggdjur i likhet med människa saknar tidigare antiviral immunitet för H-1PV och har stora fysiologiska likheter med människan är det inte orimligt att anta att H-1PV kan vara en kandidat för tumörbehandling även inom veterinärmedicinen. Exempel på humana tumörtyper som svarat väl på H-1PV-infektion är glioblastoma multiforme, hepatom, lymfom, melanom, och carcinom i pankreas, bröst, mage, colon och cervix. År 2011 inleddes den första kliniska studien för H-1PV. Den studien, Parvovirus H-1 (H-1PV) is an autonomous oncolytic parvovirus. Its natural host is rat, but it can also infect other vertebrates. Cellular virus uptake is possible for all cells but virus infection is only harmful for transformed cells and proliferating cells in neonatal animals. Infection of transformed cells can induce tumor suppressing mechanisms. These mechanisms consist of intracellular cytotoxic mechanisms, induced cell death, and activation of antiviral and tumor specific immunity. During the last two decades pre-clinical studies with promising results have been performed, however there is still much to be clarified about the tumor suppressing properties of H-1PV. This bachelor thesis aims to describe some of the tumor suppressing mechanisms that so far have been indicated for H-1PV. The first reason for the tumor suppression of H-1PV is that H-1PV is oncotropic, which means that the intracellular environment in transformed cells is in favor for the viral life cycle. Viral replication and production of viral proteins induces cytotoxic mechanisms. These mechanisms vary among different cell types. Examples of cytotoxic mechanism that have been observed in H-1PV-infected tumor cells are cell cycle arrest, activation of caspases, accumulation of reactive oxygen species and accumulation of lysosomal enzymes. Examples of H-1PV-induced activation of the immune system are activation of dendritic cells and natural killer cells. So far the research of H-1PV has been focusing on treatment of human tumors, and since other mammals have much the same physiology as humans and in similarity to humans lack preexisting antiviral immunity for H-1PV, it is likely that H-1PV can become a candidate as a antitumor therapy also within the field of veterinarian medicine. Examples of human tumors in which H-1PV has proved efficiency in pre-clinical studies are glioblastoma multiforme, hepatoma, lymphoma, melanoma, and pancreatic, mammary, gastric, colon and cervical carcinoma. In 2011

Published

2015

20. Pediatric and Adult High-Grade Glioma Stem Cell Culture Models Are Permissive to Lytic Infection with Parvovirus H-1.

Author

Josupeit R, Bender S, Kern S, Leuchs B, Hielscher T, Herold-Mende C, Schlehofer JR, Dinsart C, Witt O, Rommelaere J, and Lacroix J

Subjects

Animals, Disease Models, Animal, Gene Expression Profiling, Glioma therapy, Heterografts, Humans, Mice, Inbred NOD, Mice, SCID, Models, Theoretical, Oncolytic Virotherapy methods, H-1 parvovirus growth & development, Neuroglia physiology, Neuroglia virology, Oncolytic Viruses growth & development, Stem Cells physiology, Stem Cells virology

Abstract

Combining virus-induced cytotoxic and immunotherapeutic effects, oncolytic virotherapy represents a promising therapeutic approach for high-grade glioma (HGG). A clinical trial has recently provided evidence for the clinical safety of the oncolytic parvovirus H-1 (H-1PV) in adult glioblastoma relapse patients. The present study assesses the efficacy of H-1PV in eliminating HGG initiating cells. H-1PV was able to enter and to transduce all HGG neurosphere culture models (n = 6), including cultures derived from adult glioblastoma, pediatric glioblastoma, and diffuse intrinsic pontine glioma. Cytotoxic effects induced by the virus have been observed in all HGG neurospheres at half maximal inhibitory concentration (IC50) doses of input virus between 1 and 10 plaque forming units per cell. H-1PV infection at this dose range was able to prevent tumorigenicity of NCH421k glioblastoma multiforme (GBM) "stem-like" cells in NOD/SCID mice. Interestingly NCH421R, an isogenic subclone with equal capacity of xenograft formation, but resistant to H-1PV infection could be isolated from the parental NCH421k culture. To reveal changes in gene expression associated with H-1PV resistance we performed a comparative gene expression analysis in these subclones. Several dysregulated genes encoding receptor proteins, endocytosis factors or regulators innate antiviral responses were identified and represent intriguing candidates for to further study molecular mechanisms of H-1PV resistance.

Published

2016