Sarah Knocke scite author profile

There is evidence that viral oncolysis is synergistic with immune checkpoint inhibition in cancer therapy but the underlying mechanisms are unclear. Here, we investigated whether local viral infection of malignant tumors is capable of overcoming systemic resistance to PD-1-immunotherapy by modulating the spectrum of tumor-directed CD8 T-cells. To focus on neoantigen-specific CD8 T-cell responses, we performed transcriptomic sequencing of PD-1-resistant CMT64 lung adenocarcinoma cells followed by algorithm-based neoepitope prediction. Investigations on neoepitope-specific T-cell responses in tumor-bearing mice demonstrated that PD-1 immunotherapy was insufficient whereas viral oncolysis elicited cytotoxic T-cell responses to a conserved panel of neoepitopes. After combined treatment, we observed that PD-1-blockade did not affect the magnitude of oncolysis-mediated antitumoral immune responses but a broader spectrum of T-cell responses including additional neoepitopes was observed. Oncolysis of the primary tumor significantly abrogated systemic resistance to PD-1-immunotherapy leading to improved elimination of disseminated lung tumors. Our observations were confirmed in a transgenic murine model of liver cancer where viral oncolysis strongly induced PD-L1 expression in primary liver tumors and lung metastasis. Furthermore, we demonstrated that combined treatment completely inhibited dissemination in a CD8 T-cell-dependent manner. Therefore, our results strongly recommend further evaluation of virotherapy and concomitant PD-1 immunotherapy in clinical studies.

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Cell entry, efficient RNA replication, and production of infectious hepatitis C virus progeny in mouse liver-derived cells

Frentzen

Anggakusuma

Gürlevik

et al. 2013

Hepatology

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Only humans and chimpanzees are susceptible to chronic infection by hepatitis C virus (HCV). The restricted species tropism of HCV is determined by distinct host factor requirements at different steps of the viral life cycle. In addition, effective innate immune targeting precludes efficient propagation of HCV in nonhuman cells. Speciesspecificity of HCV host factor usage for cell entry and virus release has been explored. However, the reason for inefficient HCV RNA replication efficiency in mouse liver cells remains elusive. To address this, we generated novel mouse liver-derived cell lines with specific lesions in mitochondrial antiviral signaling protein (MAVS), interferon regulatory factor 3 (IRF3), or Interferon-a/b receptor (IFNAR) by in vivo immortalization. Blunted innate immune responses in these cells modestly increased HCV RNA replication. However, ectopic expression of liver-specific human microRNA 122 (miR-122) further boosted RNA replication in all knockout cell lines. Remarkably, MAVS 2/2 miR-122 cells sustained vigorous HCV RNA replication, attaining levels comparable to the highly permissive human hepatoma cell line Huh-7.5. RNA replication was dependent on mouse cyclophilin and phosphatidylinositol-4 kinase III alpha (PI4KIIIa) and was also observed after transfection of full-length viral RNA. Additionally, ectopic expression of either human or mouse apolipoprotein E (ApoE) was sufficient to permit release of infectious particles. Finally, expression of human entry cofactors rendered these cells permissive to HCV infection, thus confirming that all steps of the HCV replication cycle can be reconstituted in mouse liver-derived cells. Conclusion: Blunted innate immunity, abundant miR-122, and HCV entry factor expression permits propagation of HCV in mouse liverderived cell lines. (HEPATOLOGY 2014;59:78-88) P ersistent hepatitis C virus (HCV) infection is associated with severe liver disease including chronically active hepatitis, cirrhosis, and hepatocellular carcinoma (HCC).1 Current treatment options are limited by side effects and suboptimal response rates and vaccines are not available. Access to permissive and predictive animal models is crucial for analysis of HCV pathophysiology, immune control,

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Tailored Tumor Immunogenicity Reveals Regulation of CD4 and CD8 T Cell Responses against Cancer

et al. 2016

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CD4 and CD8 T cells play a pivotal role in controlling tumor growth. However, the interplay of both cell types and their role in tumor suppression still remain elusive. In this study, we investigated the regulation of CD4 and CD8 T cell responses to different classes of tumor-specific antigens in liver cancer mouse models. Tumors were induced in p19Arf-deficient mice by hydrodynamic injection of transposon plasmids encoding NrasG12V and pre-defined tumor antigens. This allowed for assessing the regulation of tumor-specific CD4 and CD8 T cell responses. We showed that MHC class I tumor immunogenicity was essential to trigger tumor-directed CD4 T cells. Tumor-specific CD8 T cell responses arose independently of CD4 T cells, but they required Th1-polarized CD4 T cells for efficient tumor suppression. Our results further indicate that the immune system is incapable of eliciting sufficient numbers of T cells directed against antigens derived from immunoedited tumors, which consequently leads to a lack of T-cell-mediated tumor suppression in untreated hosts.

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Antitumoural immunity by virus-mediated immunogenic apoptosis inhibits metastatic growth of hepatocellular carcinoma

Boozari

Mundt

Woller

et al. 2010

Gut

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Virus-induced tumor inflammation facilitates effective DC cancer immunotherapy in a Treg-dependent manner in mice

Woller

Knocke²,

Mundt³

et al. 2011

J. Clin. Invest.

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Sarah Knocke

Viral Infection of Tumors Overcomes Resistance to PD-1-immunotherapy by Broadening Neoantigenome-directed T-cell Responses

Cell entry, efficient RNA replication, and production of infectious hepatitis C virus progeny in mouse liver-derived cells

Tailored Tumor Immunogenicity Reveals Regulation of CD4 and CD8 T Cell Responses against Cancer

Antitumoural immunity by virus-mediated immunogenic apoptosis inhibits metastatic growth of hepatocellular carcinoma

Virus-induced tumor inflammation facilitates effective DC cancer immunotherapy in a Treg-dependent manner in mice

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