Your search keyword '"Suvi Sorsa"' showing total 34 results

1. Single intravenous administration of oncolytic adenovirus TILT-123 results in systemic tumor transduction and immune response in patients with advanced solid tumors

Author

Elise Jirovec, Dafne C. A. Quixabeira, James H. A. Clubb, Santeri A. Pakola, Tatiana Kudling, Victor Arias, Lyna Haybout, Katriina Jalkanen, Tuomo Alanko, Tine Monberg, Amir Khammari, Brigitte Dreno, Inge Marie Svane, Matthew S. Block, Daniel A. Adamo, Johanna Mäenpää, Claudia Kistler, Suvi Sorsa, Otto Hemminki, Anna Kanerva, João M. Santos, Victor Cervera-Carrascon, and Akseli Hemminki

Subjects

Oncolytic Virus, TILT-123, Intravenous Delivery, Adenovirus, Solid Tumors, Immunotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background A limitation of approved oncolytic viruses is their requirement for intratumoral (i.t.) injection. TILT-123 (igrelimogene litadenorepvec, Ad5/3-E2F-D24-hTNFα-IRES-hIL-2) is a chimeric oncolytic adenovirus suitable for intravenous (i.v.) delivery due to its capsid modification and dual selectivity devices. It is armed with tumor necrosis alpha and interleukin-2 for promoting T-cell activation and lymphocyte trafficking to tumors, thereby enhancing the antitumor immune response. Here, we present the findings after a single i.v. administration of TILT-123 in three phase I dose escalation clinical trials. Methods Patients with advanced solid tumors initially received a single i.v. dose of TILT-123 ranging from 3 × 109 to 4 × 1012 viral particles (VP). Blood was collected at baseline, 1, 16, and 192 h (7 days) post-treatment for bioavailability and serum analysis. Tumor biopsies were collected prior to treatment and 7 days post-treatment for analysis of viral presence and immunological effects. Patients did not receive any other cancer therapies during this period. Results Across all three trials (TUNIMO, TUNINTIL, and PROTA), 52 total patients were treated with i.v. TILT-123. Overall, TILT-123 was found to be well-tolerated, with no dose-limiting toxicities observed. Post-treatment tumor biopsies showed expression of viral genes, presence of TILT-123 adenovirus proteins or DNA, and changes in immune cell infiltration from baseline. Increased virus dose did not lead to increased virus detection in tumors. Median overall survival was longer in patients with confirmed presence of TILT-123 in post-treatment biopsies (280 versus 190 days, p = 0.0405). Conclusion TILT-123 demonstrated safety and significant intratumoral immunomodulation following a single i.v. administration, warranting further investigation. Trial registrations TUNIMO—NCT04695327. Registered 4 January 2021, https://clinicaltrials.gov/study/NCT04695327 . TUNINTIL—NCT04217473. Registered 19 December 2019, https://clinicaltrials.gov/study/NCT04217473 . PROTA—NCT05271318. Registered 4 February 2022, https://clinicaltrials.gov/study/NCT05271318 .

Published

2024

2. Transient lymphocyte count decrease correlates with oncolytic adenovirus efficacy in humans: mechanistic and biomarker findings from TUNIMO phase I trial

Author

Tuomo Alanko, Akseli Hemminki, Víctor Cervera-Carrascón, Riikka Havunen, Kristian Taipale, Dafne C A Quixabeira, Jorma Sormunen, Katriina Peltola, Suvi Sorsa, Santeri A Pakola, Elise Jirovec, Lyna Haybout, Claudia Kistler, Tatiana V Kudling, Victor Arias, James H A Clubb, Mirte van der Heijden, Teijo Pellinen, and Joao M Santos

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background Oncolytic viruses (OVs) are promising immunotherapeutics to treat immunologically cold tumors. However, research on the mechanism of action of OVs in humans and clinically relevant biomarkers is still sparse. To induce strong T-cell responses against solid tumors, TILT-123 (Ad5/3-E2F-d24-hTNFa-IRES-hIL2, igrelimogene litadenorepvec) was developed. TILT-123 encodes two transgenes: tumor necrosis alpha (TNFa) and interleukin-2 (IL-2). TUNIMO (NCT04695327) was a phase I clinical trial using TILT-123 in patients with advanced solid tumors aiming to assess the safety, efficacy, and immunological effects of TILT-123. Research presented in this study evaluated the immunological effects of TILT-123 in the TUNIMO trial by using biological samples collected from the patients during the study, with an objective to leverage the findings to develop possible biomarkers of response and gain insights into possible synergistic combination treatments.Methods 20 patients with advanced solid tumors were treated with TILT-123. Response to therapy was assessed with contrast-enhanced CT and fluorodeoxyglucose positron emission tomography, along with overall survival (OS) calculation. Biological samples from patients were collected in the form of blood and tumor biopsies. Collected samples were analyzed with immunohistochemistry, transcriptomics, proteomics, and flow cytometry.Results TILT-123 induced cyclical decreases in blood lymphocyte count, and more substantial blood lymphocyte count correlated with better radiographical response and longer OS. Lymphocyte count findings were confirmed with external control dataset of 96 patients. More substantial lymphocyte count change was linked to stronger immune activation in plasma proteome after intravenous TILT-123 and the presence of TILT-123 mRNA in tumors. Regarding other assays. tumor biopsies profiled showed increased amounts of CD8+ T cells, CD4+ T cells and NK cells after intravenous TILT-123, but not after intratumoral TILT-123. Transcriptional differences were seen in tumors after intravenous therapy and intratumoral therapy, with patients benefitting therapy showing stronger downregulation of immune activation at all time points.Conclusions TILT-123 therapy induced accumulation of effector lymphocytes in tumors. Peripheral lymphocyte count decrease is a promising biomarker for assessing oncolytic adenovirus therapy response.

Published

2025

3. Effective intravenous delivery of adenovirus armed with TNFα and IL-2 improves anti-PD-1 checkpoint blockade in non-small cell lung cancer

Author

Tatiana V. Kudling, James H.A. Clubb, Santeri Pakola, Dafne C.A. Quixabeira, Iris A.K. Lähdeniemi, Camilla Heiniö, Victor Arias, Riikka Havunen, Victor Cervera-Carrascon, Joao M. Santos, Eva Sutinen, Jari Räsänen, Kristian Borenius, Mikko I. Mäyränpää, Eero Aaltonen, Suvi Sorsa, Otto Hemminki, Anna Kanerva, Emmy W. Verschuren, Ilkka Ilonen, and Akseli Hemminki

Subjects

Immunotherapy, checkpoint inhibitors, adenovirus, intravenous administration, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Lung cancer remains among the most difficult-to-treat malignancies and is the leading cause of cancer-related deaths worldwide. The introduction of targeted therapies and checkpoint inhibitors has improved treatment outcomes; however, most patients with advanced-stage non-small cell lung cancer (NSCLC) eventually fail these therapies. Therefore, there is a major unmet clinical need for checkpoint refractory/resistant NSCLC. Here, we tested the combination of aPD-1 and adenovirus armed with TNFα and IL-2 (Ad5-CMV-mTNFα/mIL-2) in an immunocompetent murine NSCLC model. Moreover, although local delivery has been standard for virotherapy, treatment was administered intravenously to facilitate clinical translation and putative routine use. We showed that treatment of tumor-bearing animals with aPD-1 in combination with intravenously injected armed adenovirus significantly decreased cancer growth, even in the presence of neutralizing antibodies. We observed an increased frequency of cytotoxic tumor-infiltrating lymphocytes, including tumor-specific cells. Combination treatment led to a decreased percentage of immunosuppressive tumor-associated macrophages and an improvement in dendritic cell maturation. Moreover, we observed expansion of the tumor-specific memory T cell compartment in secondary lymphoid organs in the group that received aPD-1 with the virus. However, although the non-replicative Ad5-CMV-mTNFα/mIL-2 virus allows high transgene expression in the murine model, it does not fully reflect the clinical outcome in humans. Thus, we complemented our findings using NSCLC ex vivo models fully permissive for the TNFα and IL-2- armed oncolytic adenovirus TILT-123. Overall, our data demonstrate the ability of systemically administered adenovirus armed with TNFα and IL-2 to potentiate the anti-tumor efficacy of aPD-1 and warrant further investigation in clinical trials.

Published

2023

4. Oncolytic adenovirus coding for bispecific T cell engager against human MUC-1 potentiates T cell response against solid tumors

Author

Saru Basnet, Joao M. Santos, Dafne C.A. Quixabeira, James H.A. Clubb, Susanna A.M. Grönberg-Vähä-Koskela, Victor Arias, Santeri Pakola, Tatiana V. Kudling, Camilla Heiniö, Riikka Havunen, Victor Cervera-Carrascon, Suvi Sorsa, Marjukka Anttila, Anna Kanerva, and Akseli Hemminki

Subjects

oncolytic virus, adenovirus, bispecific T cell engager, MUC1, immunotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Immunotherapy with bispecific T cell engagers has shown efficacy in patients with hematologic malignancies and uveal melanoma. Antitumor effects of bispecific T cell engagers in most solid tumors are limited due to their short serum half-life and insufficient tumor concentration. We designed a novel serotype 5/3 oncolytic adenovirus encoding a human mucin1 antibody and the human CD3 receptor, Ad5/3-E2F-d24-aMUC1aCD3 (TILT-321). TILT-321 is engineered to replicate only in cancer cells, leading to a high concentration of the aMUC1aCD3 molecule in the tumor microenvironment. Infection and cell viability assays were performed to determine the oncolytic potential of the novel construct. The functionality of the virus-derived aMUC1aCD3 was evaluated in vitro. When TILT-321 was combined with allogeneic T cells, rapid tumor cell lysis was observed. TILT-321-infected cells secreted functional aMUC1aCD3, as shown by increased T cell activity and its binding to MUC1 and CD3. In vivo, TILT-321 treatment led to effective antitumor efficacy mediated by increased intratumoral T cell activity in an A549 and patient-derived ovarian cancer xenograft mouse model humanized with peripheral blood mononuclear cells (PBMC). This study provides a proof of concept for an effective strategy to overcome the key limitations of recombinant bispecific T cell engager delivery for solid tumor treatment.

Published

2023

5. 711 Development of oncolytic adenovirus Ad5/3-E2F-D24-hTNFa-IRES-hIL2 (TILT-123) for the treatment of solid tumours – from preclinical testing to phase I clinical trials

Author

Tuomo Alanko, Akseli Hemminki, Víctor Cervera-Carrascón, Riikka Havunen, João Manuel Santos, Juha Kononen, Jorma Sormunen, Katriina Peltola, Riitta Korpisaari, Marjut Jaakkola, Suvi Sorsa, Santeri A Pakola, James Clubb, Elise Jirovec, Dafne CA Quixabeira, Tatiana Kudling, Lyna Haybout, and Claudia Kistler

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

6. 749 Early phase oncology experience on the use of an oncolytic adenovirus encoding for TNFa and IL-2 for the treatment of solid tumors – Interim results

Author

Marco Donia, Tuomo Alanko, Akseli Hemminki, Víctor Cervera-Carrascón, João Santos, Riikka Havunen, Eva Ellebaek, Brigitte Dreno, Inge Svane, Amir Khammari, Juha Kononen, Jorma Sormunen, Katriina Peltola, Riitta Korpisaari, Susanna Juteau, Marjut Jaakkola, Tine Monberg, Suvi Sorsa, Santeri A Pakola, James Clubb, Elise Jirovec, Dafne CA Quixabeira, Tatiana Kudling, Lyna Haybout, and Claudia Kistler

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

7. 745 Immune cell profiling of advanced-stage solid tumors patients treated with an oncolytic adenovirus encoding for TNF-a and IL-2 (TILT-123)

Author

Tuomo Alanko, Akseli Hemminki, Víctor Cervera-Carrascón, João Santos, Riikka Havunen, Juha Kononen, Jorma Sormunen, Katriina Peltola, Riitta Korpisaari, Susanna Juteau, Marjut Jaakkola, Suvi Sorsa, Santeri A Pakola, James Clubb, Elise Jirovec, Dafne CA Quixabeira, Tatiana Kudling, Lyna Haybout, and Claudia Kistler

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

8. 814 Enhancing anti-tumor response in ICI-refractory non-small cell lung cancer through intravenous administration of oncolytic adenovirus armed with hTNFα and hIL-2 in combination with aPD-1 blockade

Author

Akseli Hemminki, Víctor Cervera-Carrascón, Riikka Havunen, Otto Hemminki, Anna Kanerva, João Manuel Santos, Camilla Heiniö, Jari Räsänen, Suvi Sorsa, Santeri A Pakola, James Clubb, Tatiana V Kudling, Susanna AM Grönberg-Vähä-Koskela, Victor Arias, Dafne Alves Quixabeira, Iris Lähdeniemi, Eva Sutinen, Kristian Borenius, Mikko Mäyränpää, Eero Altonen, Emmy W Verschuren, and Ilkka Ilonen

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

9. 739 Emerging proteomic and safety analysis of blood from solid tumor patients receiving TILT-123 (Ad5/3-E2F-d24-hTNFa-IRES-hIL2) monotherapy in TUNIMO phase 1 clinical trial

Author

Tuomo Alanko, Akseli Hemminki, Víctor Cervera-Carrascón, João Santos, Riikka Havunen, Juha Kononen, Jorma Sormunen, Katriina Peltola, Riitta Korpisaari, Marjut Jaakkola, Suvi Sorsa, Santeri A Pakola, James Clubb, Elise Jirovec, Dafne CA Quixabeira, Tatiana Kudling, Lyna Haybout, and Claudia Kistler

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

10. 1518 T-cell inducing oncolytic virus (igrelimogene litadenorepvec; TILT-123) shows safety, anti-tumor activity and induction of immune responses in advanced solid tumor patients (full report on TUNIMO)

Author

Tuomo Alanko, Akseli Hemminki, Víctor Cervera-Carrascón, João Santos, Riikka Havunen, Juha Kononen, Jorma Sormunen, Katriina Peltola, Riitta Korpisaari, Susanna Juteau, Marjut Jaakkola, Suvi Sorsa, Santeri A Pakola, James Clubb, Elise Jirovec, Dafne CA Quixabeira, Lyna Haybout, Claudia Kistler, and Tatiana V Kudling

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

11. Development of a Syrian hamster anti-PD-L1 monoclonal antibody enables oncolytic adenoviral immunotherapy modelling in an immunocompetent virus replication permissive setting

Author

James H. A. Clubb, Tatiana V. Kudling, Mykhailo Girych, Lyna Haybout, Santeri Pakola, Firas Hamdan, Víctor Cervera-Carrascon, Annabrita Hemmes, Susanna Grönberg-Vähä-Koskela, João Manuel Santos, Dafne C. A. Quixabeira, Saru Basnet, Camilla Heiniö, Victor Arias, Elise Jirovec, Shreyas Kaptan, Riikka Havunen, Suvi Sorsa, Abdullah Erikat, Joel Schwartz, Marjukka Anttila, Katri Aro, Tapani Viitala, Ilpo Vattulainen, Vincenzo Cerullo, Anna Kanerva, and Akseli Hemminki

Subjects

adenovirus, oncolytic virus, immune checkpoint inhibitor, immunotherapy, Syrian hamster, PDAC, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionImmune checkpoint inhibitors (ICIs) have revolutionized the treatment of cancer, but preclinical testing of hypotheses such as combination therapies has been complicated, in part due to species incompatibility issues. For example, one of few known permissive animal models for oncolytic adenoviruses is the Syrian hamster, for which an ICI, mainly an anti-PD-L1 monoclonal antibody (mAb) was not previously available. In this study, we developed an anti-Syrian hamster PD-L1 mAb to enable the evaluation of safety and efficacy, when combining anti-PD-L1 with an oncolytic adenovirus encoding tumour necrosis factor alpha (TNFα) and interleukin-2 (IL-2) (Ad5/3-E2F-D24-hTNFα-IRES-hIL-2 or TILT-123).MethodsRecombinant Syrian hamster PD-L1 was expressed and mice immunized for mAb formation using hybridoma technology. Clonal selection through binding and functional studies in vitro, in silico and in vivo identified anti-PD-L1 clone 11B12-1 as the primary mAb candidate for immunotherapy modelling. The oncolytic virus (OV) and ICI combination approach was then evaluated using 11B12-1 and TILT-123 in a Syrian hamster model of pancreatic ductal adenocarcinoma (PDAC).ResultsSupernatants from hybridoma parent subclone 11B12B4 provided the highest positive PD-L1 signal, on Syrian hamster PBMCs and three cancer cell lines (HT100, HapT1 and HCPC1). In vitro co-cultures revealed superior immune modulated profiles of cell line matched HT100 tumour infiltrating lymphocytes when using subclones of 7G2, 11B12 and 12F1. Epitope binning and epitope prediction using AlphaFold2 and ColabFold revealed two distinct functional epitopes for clone 11B12-1 and 12F1-1. Treatment of Syrian hamsters bearing HapT1 tumours, with 11B12-1 induced significantly better (p

Published

2023

12. Comparison of Clinically Relevant Oncolytic Virus Platforms for Enhancing T Cell Therapy of Solid Tumors

Author

Victor Cervera-Carrascon, Dafne C.A. Quixabeira, Riikka Havunen, Joao M. Santos, Emma Kutvonen, James H.A. Clubb, Mikko Siurala, Camilla Heiniö, Sadia Zafar, Teija Koivula, Dave Lumen, Marjo Vaha, Arturo Garcia-Horsman, Anu J. Airaksinen, Suvi Sorsa, Marjukka Anttila, Veijo Hukkanen, Anna Kanerva, and Akseli Hemminki

Subjects

oncolytic virus, immunotherapy, T cell therapy, tumor microenvironment, solid tumor, gene therapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Despite some promising results, the majority of patients do not benefit from T cell therapies, as tumors prevent T cells from entering the tumor, shut down their activity, or downregulate key antigens. Due to their nature and mechanism of action, oncolytic viruses have features that can help overcome many of the barriers currently facing T cell therapies of solid tumors. This study aims to understand how four different oncolytic viruses (adenovirus, vaccinia virus, herpes simplex virus, and reovirus) perform in that task. For that purpose, an immunocompetent in vivo tumor model featuring adoptive tumor-infiltrating lymphocyte (TIL) therapy was used. Tumor growth control (p < 0.001) and survival analyses suggest that adenovirus was most effective in enabling T cell therapy. The complete response rate was 62% for TILs + adenovirus versus 17.5% for TILs + PBS. Of note, TIL biodistribution did not explain efficacy differences between viruses. Instead, immunostimulatory shifts in the tumor microenvironment mirrored efficacy results. Overall, the use of oncolytic viruses can improve the utility of T cell therapies, and additional virus engineering by arming with transgenes can provide further antitumor effects. This phenomenon was seen when an unarmed oncolytic adenovirus was compared to Ad5/3-E2F-d24-hTNFa-IRES-hIL2 (TILT-123). A clinical trial is ongoing, where patients receiving TIL treatment also receive TILT-123 (ClinicalTrials.gov: NCT04217473).

Published

2020

13. Adenovirus Encoding Tumor Necrosis Factor Alpha and Interleukin 2 Induces a Tertiary Lymphoid Structure Signature in Immune Checkpoint Inhibitor Refractory Head and Neck Cancer

Author

James H. A. Clubb, Tatiana V. Kudling, Camilla Heiniö, Saru Basnet, Santeri Pakola, Víctor Cervera Carrascón, João Manuel Santos, Dafne C. A. Quixabeira, Riikka Havunen, Suvi Sorsa, Vincent Zheng, Tuula Salo, Leif Bäck, Katri Aro, Sanni Tulokas, Venla Loimu, and Akseli Hemminki

Subjects

adenovirus, immune checkpoint inhibitor, head and neck cancer, immunotherapy, tertiary lymphoid neogenesis, TNFa, Immunologic diseases. Allergy, RC581-607

Abstract

Immune checkpoint inhibitors (ICI) have provided significant improvement in clinical outcomes for some patients with solid tumors. However, for patients with head and neck cancer, the response rate to ICI monotherapy remains low, leading to the exploration of combinatorial treatment strategies. In this preclinical study, we use an oncolytic adenovirus (Ad5/3) encoding hTNFα and hIL-2 and non-replicate adenoviruses (Ad5) encoding mTNFα and mIL-2 with ICI to achieve superior tumor growth control and improved survival outcomes. The in vitro effect of Ad5/3-E2F-D24-hTNFa-IRES-hIL-2 was characterized through analyses of virus replication, transgene expression and lytic activity using head and neck cancer patient derived cell lines. Mouse models of ICI naïve and refractory oral cavity squamous cell carcinoma were established to evaluate the local and systemic anti-tumor immune response upon ICI treatment with or without the non-replicative adenovirus encoding mTNFα and mIL-2. We delineated the mechanism of action by measuring the metabolic activity and effector function of CD3+ tumor infiltrating lymphocytes (TIL) and transcriptomic profile of the CD45+ tumor immune compartment. Ad5/3-E2F-D24-hTNFa-IRES-hIL-2 demonstrated robust replicative capability in vitro across all head and neck cell lines screened through potent lytic activity, E1a and transgene expression. In vivo, in both ICI naïve and refractory models, we observed improvement to tumor growth control and long-term survival when combining anti-PD-1 or anti-PD-L1 with the non-replicative adenovirus encoding mTNFα and mIL-2 compared to monotherapies. This observation was verified by striking CD3+ TIL derived mGranzyme b and interferon gamma production complemented by increased T cell bioenergetics. Notably, interrogation of the tumor immune transcriptome revealed the upregulation of a gene signature distinctive of tertiary lymphoid structure formation upon treatment of murine anti-PD-L1 refractory tumors with non-replicative adenovirus encoding mTNFα and mIL-2. In addition, we detected an increase in anti-tumor antibody production and expansion of the memory T cell compartment in the secondary lymphoid organs. In summary, a non-replicative adenovirus encoding mTNFα and mIL-2 potentiates ICI therapy, demonstrated by improved tumor growth control and survival in head and neck tumor-bearing mice. Moreover, the data reveals a potential approach for inducing tertiary lymphoid structure formation. Altogether our results support the clinical potential of combining this adenovirotherapy with anti-PD-1 or anti-PD-L1.

Published

2022

14. Adenovirus Armed With TNFa and IL2 Added to aPD-1 Regimen Mediates Antitumor Efficacy in Tumors Refractory to aPD-1

Author

Victor Cervera-Carrascon, Dafne C. A. Quixabeira, Joao M. Santos, Riikka Havunen, Ioanna Milenova, Jan Verhoeff, Camilla Heiniö, Sadia Zafar, Juan J. Garcia-Vallejo, Victor W. van Beusechem, Tanja D. de Gruijl, Aino Kalervo, Suvi Sorsa, Anna Kanerva, and Akseli Hemminki

Subjects

cancer immunotherapy, oncolytic virus, adenovirus, checkpoint inhibitor resistance, tumor microenvironment, Immunologic diseases. Allergy, RC581-607

Abstract

Immune checkpoint inhibitors such as anti-PD-1 have revolutionized the field of oncology over the past decade. Nevertheless, the majority of patients do not benefit from them. Virotherapy is a flexible tool that can be used to stimulate and/or recruit different immune populations. T-cell enabling virotherapy could enhance the efficacy of immune checkpoint inhibitors, even in tumors resistant to these inhibitors. The T-cell potentiating virotherapy used here consisted of adenoviruses engineered to express tumor necrosis factor alpha and interleukin-2 in the tumor microenvironment. To study virus efficacy in checkpoint-inhibitor resistant tumors, we developed an anti-PD-1 resistant melanoma model in vivo. In resistant tumors, adding virotherapy to an anti-PD-1 regimen resulted in increased survival (p=0.0009), when compared to anti-PD-1 monotherapy. Some of the animals receiving virotherapy displayed complete responses, which did not occur in the immune checkpoint-inhibitor monotherapy group. When adenoviruses were delivered into resistant tumors, there were signs of increased CD8 T-cell infiltration and activation, which - together with a reduced presence of M2 macrophages and myeloid-derived suppressor cells - could explain those results. T-cell enabling virotherapy appeared as a valuable tool to counter resistance to immune checkpoint inhibitors. The clinical translation of this approach could increase the number of cancer patients benefiting from immunotherapies.

Published

2021

15. Abscopal Effect in Non-injected Tumors Achieved with Cytokine-Armed Oncolytic Adenovirus

Author

Riikka Havunen, João M. Santos, Suvi Sorsa, Tommi Rantapero, Dave Lumen, Mikko Siurala, Anu J. Airaksinen, Victor Cervera-Carrascon, Siri Tähtinen, Anna Kanerva, and Akseli Hemminki

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Cancer treatment with local administration of armed oncolytic viruses could potentially induce systemic antitumor effects, or the abscopal effect, as they self-amplify in tumors, induce danger signaling, and promote tumor-associated antigen presentation. In this study, oncolytic adenovirus coding for human tumor necrosis factor alpha (TNF-α) and interleukin-2 (IL-2) Ad5/3-E2F-d24-hTNF-α-IRES-hIL-2 (also known as [a.k.a.] TILT-123) provoked antitumor efficacy in tumors that were injected with Ad5/3-E2F-d24-hTNF-α-IRES-hIL-2 and those that were left non-injected in the same animal. Importantly, the virus was able to travel to distant tumors. To dissect the effects of oncolysis and cytokines, we studied replication-incompetent viruses in mice. Systemic antitumor effects were similar in both models, highlighting the importance of the arming device. The cytokines induced positive changes in immune cell infiltrates and induced the expression of several immune-reaction-related genes in tumors. In addition, Ad5/3-E2F-d24-hTNF-α-IRES-hIL-2 was able to increase homing of adoptively transferred tumor-infiltrating lymphocytes into both injected and non-injected tumors, possibly mediated through chemokine expression. In summary, local treatment with Ad5/3-E2F-d24-hTNF-α-IRES-hIL-2 resulted in systemic antitumor efficacy by inducing immune cell infiltration and trafficking into both treated and untreated tumors. Moreover, the oncolytic adenovirus platform had superior systemic effects over replication-deficient vector through spreading into distant tumors. Keywords: immunotherapy, adenovirus, abscopal effect

Published

2018

16. Oncolytic Adenoviruses Armed with Tumor Necrosis Factor Alpha and Interleukin-2 Enable Successful Adoptive Cell Therapy

Author

Riikka Havunen, Mikko Siurala, Suvi Sorsa, Susanna Grönberg-Vähä-Koskela, Michael Behr, Siri Tähtinen, João Manuel Santos, Pauliina Karell, Juuso Rusanen, Dirk M. Nettelbeck, Anja Ehrhardt, Anna Kanerva, and Akseli Hemminki

Subjects

adenovirus, tumor-infiltrating lymphocytes, cytokines, TNF, interleukin 2, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Adoptive cell therapy holds much promise in the treatment of cancer but results in solid tumors have been modest. The notable exception is tumor-infiltrating lymphocyte (TIL) therapy of melanoma, but this approach only works with high-dose preconditioning chemotherapy and systemic interleukin (IL)-2 postconditioning, both of which are associated with toxicities. To improve and broaden the applicability of adoptive cell transfer, we constructed oncolytic adenoviruses coding for human IL-2 (hIL2), tumor necrosis factor alpha (TNF-α), or both. The viruses showed potent antitumor efficacy against human tumors in immunocompromised severe combined immunodeficiency (SCID) mice. In immunocompetent Syrian hamsters, we combined the viruses with TIL transfer and were able to cure 100% of the animals. Cured animals were protected against tumor re-challenge, indicating a memory response. Arming with IL-2 and TNF-α increased the frequency of both CD4+ and CD8+ TILs in vivo and augmented splenocyte proliferation ex vivo, suggesting that the cytokines were important for T cell persistence and proliferation. Cytokine expression was limited to tumors and treatment-related signs of systemic toxicity were absent, suggesting safety. To conclude, cytokine-armed oncolytic adenoviruses enhanced adoptive cell therapy by favorable alteration of the tumor microenvironment. A clinical trial is in progress to study the utility of Ad5/3-E2F-d24-hTNFa-IRES-hIL2 (TILT-123) in human patients with cancer.

Published

2017

17. Tumor microenvironment remodeling by an engineered oncolytic adenovirus results in improved outcome from PD-L1 inhibition

Author

Victor Cervera-Carrascon, Dafne C.A. Quixabeira, Joao Manuel Santos, Riikka Havunen, Sadia Zafar, Otto Hemminki, Camilla Heiniö, Eleonora Munaro, Mikko Siurala, Suvi Sorsa, Tuomas Mirtti, Petrus Järvinen, Markus Mildh, Harry Nisen, Antti Rannikko, Marjukka Anttila, Anna Kanerva, and Akseli Hemminki

Subjects

oncolytic virus, adenovirus, checkpoint inhibitors, immunotherapy, tumor microenvironment, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Checkpoint inhibitors have revolutionized cancer therapy and validated immunotherapy as an approach. Unfortunately, responses are seen in a minority of patients. Our objective is to use engineered adenoviruses designed to increase lymphocyte trafficking and cytokine production at the tumor, to assess if they increase the response rate to checkpoint inhibition, as these features have been regarded as predictive for the responses. When Ad5/3-E2F-d24-hTNFa-IRES-hIL2 (an oncolytic adenovirus coding for TNFa and IL-2, also known as TILT-123) and checkpoint inhibitors were used together in fresh urological tumor histocultures, a significant shift toward immune activity (not only tumor necrosis alpha and interleukin-2 but also interferon gamma and granzyme B) and increased T-cell trafficking signals (CXCL10) was observed. In vivo, our viruses enabled an anti-PD-L1 (a checkpoint inhibitor) delivering complete responses in all the treated animals (hazard ratios versus anti-PD-L1 alone 0.057 [0.007; 0.451] or virotherapy alone 0.067 [0.011; 0.415]). To conclude, when an engineered oncolytic adenovirus was utilized to modify the tumor microenvironment towards what meta-analyses have pointed as predictive markers for checkpoint inhibitory therapy, the response to them increased synergistically. Of note, key findings were confirmed in fresh patient-derived tumor explants.

Published

2020

18. Cytokine-Coding Oncolytic Adenovirus TILT-123 Is Safe, Selective, and Effective as a Single Agent and in Combination with Immune Checkpoint Inhibitor Anti-PD-1

Author

Riikka Havunen, Riikka Kalliokoski, Mikko Siurala, Suvi Sorsa, João M. Santos, Victor Cervera-Carrascon, Marjukka Anttila, and Akseli Hemminki

Subjects

adenovirus, oncolytic virus, immunotherapy, safety, biodistribution, Cytology, QH573-671

Abstract

Oncolytic viruses provide a biologically multi-faceted treatment option for patients who cannot be cured with currently available treatment options. We constructed an oncolytic adenovirus, TILT-123, to support T-cell therapies and immune checkpoint inhibitors in solid tumors. Adenoviruses are immunogenic by nature, are easy to produce in large quantities, and can carry relatively large transgenes. They are the most commonly used gene therapy vectors and are well tolerated in patients. TILT-123 expresses two potent cytokines, tumor necrosis factor alpha and interleukin-2, to stimulate especially the T-cell compartment in the tumor microenvironment. Before entering clinical studies, the safety and biodistribution of TILT-123 was studied in Syrian hamsters and in mice. The results show that TILT-123 is safe in animals as monotherapy and in combination with an immune checkpoint inhibitor anti-PD-1. The virus treatment induces acute changes in circulating immune cell compartments, but the levels return to normal by the middle of the treatment period. The virus is rapidly cleared from healthy tissues, and it does not cause damage to vital organs. The results support the initiation of a phase 1 dose-escalation trial, where melanoma patients receiving a tumor-infiltrating lymphocyte therapy are treated with TILT-123 (NCT04217473).

Published

2021

19. CD40L coding oncolytic adenovirus allows long-term survival of humanized mice receiving dendritic cell therapy

Author

Sadia Zafar, Suvi Sorsa, Mikko Siurala, Otto Hemminki, Riikka Havunen, Victor Cervera-Carrascon, João Manuel Santos, Hongjie Wang, Andre Lieber, Tanja De Gruijl, Anna Kanerva, and Akseli Hemminki

Subjects

dendritic cells, t-cells, oncolytic adenovirus, ad3, cd40l, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Dendritic cells (DCs) are crucial players in promoting immune responses. Logically, adoptive DC therapy is a promising approach in cancer immunotherapy. One of the major obstacles in cancer immunotherapy in general is the immunosuppressive tumor microenvironment, which hampers the maturation and activation of DCs. Therefore, human clinical outcomes with DC therapy alone have been disappointing. In this study, we use fully serotype 3 oncolytic adenovirus Ad3-hTERT-CMV-hCD40L, expressing human CD40L, to modulate the tumor microenvironment with subsequently improved function of DCs. We evaluated the synergistic effects of Ad3-hTERT-CMV-hCD40L and DCs in the presence of human peripheral blood mononuclear cells ex vivo and in vivo. Tumors treated with Ad3-hTERT-CMV-hCD40L and DCs featured greater antitumor effect compared with unarmed virus or either treatment alone. 100% of humanized mice survived to the end of the experiment, while mice in all other groups died by day 88. Moreover, adenovirally-delivered CD40L induced activation of DCs, leading to induction of Th1 immune responses. These results support clinical trials with Ad3-hTERT-CMV-hCD40L in patients receiving DC therapy.

Published

2018

20. 715 Emerging results from the use of an oncolytic adenovirus armed with TNFa and IL-2 (TILT-123) in different phase I solid tumor clinical trials

Author

Victor Cervera-Carrascon, Inge Svane, Katriina Peltola, Tuomo Alanko, Riitta Korpisaari, Susanna Juteau, Marjut Jaakkola, Jorma Sormunen, Juha Kononen, Eva Ellebaek Steensgaard, Tine Monberg, Marco Donia, Amir Khammari, Brigitte Dreno, Joao Santos, Suvi Sorsa, Riikka Havunen, and Akseli Hemminki

Published

2022

21. Ad5/3 is able to avoid neutralization by binding to erythrocytes and lymphocytes

Author

Susanna Grönberg-Vähä-Koskela, Camilla Heiniö, Dafne Carolina Alves Quixabeira, Joao Manuel Santos, Fang Zhao, Tatiana V. Kudling, Akseli Hemminki, Victor Cervera-Carrascon, Suvi Sorsa, Anna Kanerva, Riikka Havunen, Sadia Zafar, Pasi Aronen, HUS Comprehensive Cancer Center, Department of Oncology, TRIMM - Translational Immunology Research Program, Research Programs Unit, University of Helsinki, Faculty of Medicine, HUS Helsinki and Uusimaa Hospital District, Clinicum, Medicum, Department of Pathology, HUS Gynecology and Obstetrics, Akseli Eetu Hemminki / Principal Investigator, Department of Obstetrics and Gynecology, and Helsinki University Hospital Area

Subjects

0301 basic medicine, Cancer Research, Erythrocytes, Lung Neoplasms, viruses, Apoptosis, Mice, SCID, Virus Replication, Transduction (genetics), Mice, PHASE-I TRIAL, 0302 clinical medicine, Transduction, Genetic, Tumor Cells, Cultured, Lymphocytes, Cancer, 11832 Microbiology and virology, Oncolytic Virotherapy, 318 Medical biotechnology, biology, Chemistry, 1184 Genetics, developmental biology, physiology, 3. Good health, 030220 oncology & carcinogenesis, Systemic administration, ONCOLYTIC ADENOVIRUS, VIRUS, Molecular Medicine, Female, Antibody, Oncolytic adenovirus, 3122 Cancers, Immunology, FIBER, Adenocarcinoma of Lung, CANCER-PATIENTS, GENE-TRANSFER, OVARIAN-CANCER, Virus, Article, CLINICAL-TRIAL, Adenoviridae, 03 medical and health sciences, In vivo, Animals, Humans, Molecular Biology, Cell Proliferation, RECEPTOR, DESMOGLEIN 2, Antibodies, Neutralizing, Xenograft Model Antitumor Assays, In vitro, Oncolytic virus, 030104 developmental biology, Cancer research, biology.protein, 3111 Biomedicine

Abstract

Oncolytic adenoviruses are promising cancer therapeutic agents. Clinical data have shown adenoviruses’ ability to transduce tumors after systemic delivery in human cancer patients, despite antibodies. In the present work, we have focused on the interaction of a chimeric adenovirus Ad5/3 with human lymphocytes and human erythrocytes. Ad5/3 binding with human lymphocytes and erythrocytes was observed to occur in a reversible manner, which allowed viral transduction of tumors, and oncolytic potency of Ad5/3 in vitro and in vivo, with or without neutralizing antibodies. Immunodeficient mice bearing xenograft tumors showed enhanced tumor transduction following systemic administration, when Ad5/3 virus was bound to lymphocytes or erythrocytes (P

Published

2020

22. Effect of Genetic Modifications on Physical and Functional Titers of Adenoviral Cancer Gene Therapy Constructs

Author

Otto Hemminki, Suvi Sorsa, Riikka Havunen, Elina Haavisto, Anna Kanerva, Sadia Zafar, Anniina Koski, Victor Cervera-Carrascon, Mikko Siurala, Eleonora Munaro, Camilla Heiniö, Susanna Grönberg-Vähä-Koskela, Akseli Hemminki, TRIMM - Translational Immunology Research Program, Research Programs Unit, Department of Pathology, University of Helsinki, HUS Abdominal Center, Akseli Eetu Hemminki / Principal Investigator, Department of Obstetrics and Gynecology, HUS Gynecology and Obstetrics, Department of Oncology, and HUS Comprehensive Cancer Center

Subjects

viruses, Genetic enhancement, Genome, Mice, Transduction (genetics), 0302 clinical medicine, Genome Size, MESOTHELIOMA, Transduction, Genetic, Neoplasms, Transgenes, INTERLEUKIN-2, 0303 health sciences, 1184 Genetics, developmental biology, physiology, Gene Transfer Techniques, adenovirus, gene therapy, 3. Good health, Titer, 030220 oncology & carcinogenesis, VECTORS, Molecular Medicine, Genetic Engineering, Transgene, 3122 Cancers, Genetic Vectors, FIBER, Biology, TRANSDUCTION, OVARIAN-CANCER, Virus, Adenoviridae, DELIVERY, 03 medical and health sciences, ONCOLYTIC ADENOVIRUSES, Cell Line, Tumor, Genetics, cancer, Animals, Humans, Molecular Biology, Biomedicine, oncolytic virus, 030304 developmental biology, STABILITY, RECEPTOR, business.industry, Genetic Therapy, Virology, Oncolytic virus, Gene Expression Regulation, 3111 Biomedicine, business, vector

Abstract

After the discovery and characterization of the adenovirus in the 1950s, this prevalent cause of the common cold and other usually mild diseases has been modified and utilized in biomedicine in several ways. To date, adenoviruses are the most frequently used vectors and therapeutic (e.g., oncolytic) agents with a number of beneficial features. They infect both dividing and nondividing cells, enable high-level, transient protein expression, and are easy to amplify to high concentrations. As an important and versatile research tool, it is of essence to understand the limits and advantages that genetic modification of adenovirus vectors may entail. Therefore, a retrospective analysis was performed of adenoviral gene therapy constructs produced in the same laboratory with similar methods. The aim was to assess the impact of various modifications on the physical and functional titer of the virus. It was found that genome size (designed within "the 105% golden rule") did not significantly affect the physical titer of the adenovirus preparations, regardless of the type of transgene (e.g., immunostimulatory vs. other), number of engineered changes, and size of the mutated virus genome. One statistically significant exception was noted, however. Chimeric adenoviruses (5/3) had a slightly lower physical titer compared to Ad5-based viruses, although a trend for the opposite was true for functional titers. Thus, 5/3 chimeric viruses may in fact be appealing from a safety versus efficacy viewpoint. Armed viruses had lower functional and physical titers than unarmed viruses, while five genomic modifications started to decrease functional titer. Importantly, even highly modified armed viruses generally had good titers compatible with clinical testing. In summary, this paper shows the plasticity of adenovirus for various vector, oncolytic, and armed oncolytic uses. These results inform future generations of adenovirus-based drugs for human use. This information is directly transferable to academic laboratories and the biomedical industry involved in vector design and production optimization.

Published

2019

23. First-in-human clinical trial of an oncolytic adenovirus armed with TNFa and IL-2 in patients with advanced melanoma receiving adoptive cell transfer of tumor-infiltrating lymphocytes

Author

Inge Marie Svane, Victor Cervera-Carrascon, Joao Manuel Santos, Riikka Havunen, Suvi Sorsa, Marco Donia, Amir Khammari, Brigitte Dréno, and Akseli Hemminki

Subjects

Cancer Research, Oncology

Abstract

TPS9590 Background: The long-term complete remission experienced by some cancer patients after receiving immunotherapies, such as adoptively transferred tumor-infiltrating lymphocytes (ACT-TIL), represent the ideal outcome to pursue for the development of therapies for oncology. At the same time, those responses are limited to a minority of treated patients, and adverse events resulting from preconditioning chemotherapy and postconditioning IL2 are a rather common scenario. TILT-123 is an oncolytic adenovirus (Ad5/3-E2F-D24-TNFa-IRES-IL2) designed to enable T-cell therapies and checkpoint inhibition against cancer. Ultimately, the aim of this approach is to expand the proportion of patients benefiting from immunotherapies. Extensive preclinical studies with this technology showed that the virus repolarizes the tumor’s immune microenvironment in a way that favors T-cell presence and their activity against tumor cells. When TILT-123 was used together with TILs in preclinical in vivo models, animals had a higher chance to display curative results while showing reduced toxicity as the use of TILT-123 replaces the pre and post conditioning (Havunen R. et al Mol Ther Oncolytics 2016, Santos J.M. Mol Ther 2018). A Phase I clinical trial (NCT04217473) is ongoing to evaluate safety of the approach in advanced melanoma patients. Extensive biological assays of patient aim to characterize viral transduction of tumors through the intravenous and intratumoral routes, and the recruitment of activated lymphocytes to tumors in order to elucidate the immunological impact of the drug. Methods: The primary aim of NCT04217473 is to evaluate safety of TILT-123 in advanced melanoma patients. Refractory or recurrent stage III/IV patients, which cannot be treated with curative intent with available therapies, and are eligible for ACT-TIL therapy, can potentially participate in the study. TILT-123 administration begins while the manufacturing of ACT-TILs takes place and continues after the TIL-therapy is administered to the patient. In contrast with standard ACT-TIL therapy, patients are not conditioned with lymphodepletion or IL-2 in this approach. Patients must present at least one biopsiable/operable tumor for the generation of TILs and another injectable lesion for intratumoral administration of TILT-123. The open label, dose escalation trial has the main endpoint of establishing TILT-123 safety by day 36 (prior to TIL administration), which is based on the incidence of adverse events, severe adverse events, vital signs, ECG, and safety laboratory results. Secondary endpoints include safety and tolerability after TIL therapy has been administered, evaluation of antitumor responses and studies of tumor immune repolarization. Cohorts 1-3 have been completed without DLTs. Enrollment in cohort 4 was initiated in December 2021. Clinical trial information: NCT04217473.

Published

2022

24. 1032TiP A phase I, first-in-human, study of TILT-123, a tumor-selective oncolytic adenovirus encoding TNFa and IL-2, in participants with advanced melanoma receiving adoptive T-cell therapy with tumor-infiltrating lymphocytes

Author

Suvi Sorsa, Eva Ellebaek, Amir Khammari, Joao Manuel Santos, I.M. Svane, Riikka Havunen, T. Monberg, Victor Cervera-Carrascon, Brigitte Dréno, Marco Donia, and Akseli Hemminki

Subjects

Oncolytic adenovirus, Tumor-infiltrating lymphocytes, business.industry, T cell, Hematology, First in human, Tilt (optics), medicine.anatomical_structure, Oncology, Cancer research, medicine, Tumor necrosis factor alpha, business, Advanced melanoma

Published

2021

25. Tumor microenvironment remodeling by an engineered oncolytic adenovirus results in improved outcome from PD-L1 inhibition

Author

Petrus Järvinen, Riikka Havunen, Otto Hemminki, Eleonora Munaro, Antti Rannikko, Akseli Hemminki, Mikko Siurala, Victor Cervera-Carrascon, Dafne Carolina Alves Quixabeira, Sadia Zafar, Suvi Sorsa, Anna Kanerva, Harry Nisen, Joao Manuel Santos, Tuomas Mirtti, Markus Mildh, Marjukka Anttila, Camilla Heiniö, Department of Pathology, TRIMM - Translational Immunology Research Program, Research Programs Unit, Department of Oncology, University of Helsinki, Medicum, HUS Comprehensive Cancer Center, Clinicum, Urologian yksikkö, Helsinki University Hospital Area, HUS Abdominal Center, HUSLAB, Institute for Molecular Medicine Finland, Department of Surgery, HUS Gynecology and Obstetrics, Akseli Eetu Hemminki / Principal Investigator, and Department of Obstetrics and Gynecology

Subjects

0301 basic medicine, Oncolytic adenovirus, Oncolytic virus, medicine.medical_treatment, 3122 Cancers, Immunology, B7-H1 Antigen, Adenoviridae, 03 medical and health sciences, 0302 clinical medicine, PD-L1, Tumor Microenvironment, medicine, Animals, Humans, Immunology and Allergy, Interferon gamma, Virotherapy, RC254-282, Original Research, Oncolytic Virotherapy, Tumor microenvironment, biology, business.industry, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, adenovirus, Immunotherapy, RC581-607, 3. Good health, Oncolytic Viruses, 030104 developmental biology, Cytokine, Oncology, 030220 oncology & carcinogenesis, Cancer research, biology.protein, 3111 Biomedicine, immunotherapy, Immunologic diseases. Allergy, business, checkpoint inhibitors, Research Article, medicine.drug

Abstract

Checkpoint inhibitors have revolutionized cancer therapy and validated immunotherapy as an approach. Unfortunately, responses are seen in a minority of patients. Our objective is to use engineered adeno- viruses designed to increase lymphocyte trafficking and cytokine production at the tumor, to assess if they increase the response rate to checkpoint inhibition, as these features have been regarded as predictive for the responses. When Ad5/3-E2F-d24-hTNFa-IRES-hIL2 (an oncolytic adenovirus coding for TNFa and IL-2, also known as TILT-123) and checkpoint inhibitors were used together in fresh urological tumor histo- cultures, a significant shift toward immune activity (not only tumor necrosis alpha and interleukin-2 but also interferon gamma and granzyme B) and increased T-cell trafficking signals (CXCL10) was observed. In vivo, our viruses enabled an anti-PD-L1 (a checkpoint inhibitor) delivering complete responses in all the treated animals (hazard ratios versus anti-PD-L1 alone 0.057 [0.007; 0.451] or virotherapy alone 0.067 [0.011; 0.415]). To conclude, when an engineered oncolytic adenovirus was utilized to modify the tumor microenvironment towards what meta-analyses have pointed as predictive markers for checkpoint inhibitory therapy, the response to them increased synergistically. Of note, key findings were confirmed in fresh patient-derived tumor explants.

Published

2020

26. Abstract B07: Oncolytic adenovirus 3 coding for CD40L as an enhancer of dendritic cell therapy

Author

André Lieber, Joao Manuel Santos, Hongjie Wang, Riikka Havunen, Suvi Sorsa, Anna Kanerva, Victor Cervera-Carrascon, Sadia Zafar, Akseli Hemminki, Mikko Siurala, Otto Hemminki, and Tanja D. de Gruijl

Subjects

Oncolytic adenovirus, Cancer Research, Tumor microenvironment, business.industry, medicine.medical_treatment, Immunology, Immunotherapy, Dendritic cell, 3. Good health, Oncolytic virus, Animal data, Immune system, medicine, Cancer research, Cytotoxic T cell, business

Abstract

Dendritic cell (DC) therapy is considered a promising immunotherapeutic approach for treatment of advanced cancer. However, the immunosuppressive tumor microenvironment leads to DC dysfunction. Therefore, in clinical trials DC therapy has generally failed to fulfill its expectations. Oncolytic adenoviruses are well tolerated and have shown to activate antitumor immune responses. Importantly, they can convert immunosuppression locally into a proinflammatory state. To improve the proper activation of transferred DCs, we armed oncolytic adenovirus with CD40 ligand (CD40L). CD40L is known to play an important role in the regulation of immune cells through its capacity to stimulate dendritic cells that leads to the activation of cytotoxic T cells. Therefore, we generated a novel virus Ad3-hTERT-CMV-hCD40L, which is fully serotype 3 adenovirus (Ad3) for intravenous delivery. It features a human telomerase reverse transcriptase (hTERT) promoter for tumor specific replication and expresses human CD40L (hCD40L) under a cytomegalovirus (CMV) promoter for induction of antitumor efficacy. Of note, human and animal data have shown the ability of Ad3 to successfully reach tumors through the intravenous route. In syngeneic studies in an immunocompetent model, DC therapy with our murine CD40L-armed adenovirus showed significant antitumor immune response. This enhanced therapeutic effect is associated with increased tumor specific T cells and induction of T-helper type 1 immune response. This synergistic effect was further evaluated in mice humanized with human peripheral blood mononuclear cells. Treatment with hCD40L-armed adenovirus and human DCs showed 100% survival in conjunction with tumor control. To conclude, CD40L armed oncolytic adenovirus 3 improves DC therapy by favorable alteration of tumor microenvironment. These findings support clinical trials where DC therapy is enhanced with oncolytic adenovirus. Citation Format: João Manuel Santos, Akseli Hemminki, Mikko Siurala, Otto Hemminki, Riikka Havunen, Victor Cervera-Carrascon, Suvi Sorsa, Hongjie Wang, Andre Lieber, Tanja de Gruijl, Anna Kanerva, Sadia Zafar. Oncolytic adenovirus 3 coding for CD40L as an enhancer of dendritic cell therapy [abstract]. In: Proceedings of the AACR Special Conference on Tumor Immunology and Immunotherapy; 2018 Nov 27-30; Miami Beach, FL. Philadelphia (PA): AACR; Cancer Immunol Res 2020;8(4 Suppl):Abstract nr B07.

Published

2020

27. Pancreatic cancer therapy with combined mesothelin-redirected chimeric antigen receptor T cells and cytokine-armed oncolytic adenoviruses

Author

Akseli Hemminki, Mikko Siurala, Sonia Guedan, Marco Ruella, Regina M. Young, Brian Keith, Boris Engels, Riikka Havunen, Keisuke Watanabe, John Scholler, Siri Tähtinen, Suvi Sorsa, Tong Da, Carl H. June, and Yanping Luo

Subjects

0301 basic medicine, Oncolytic adenovirus, T-Lymphocytes, T cell, medicine.medical_treatment, GPI-Linked Proteins, Immunotherapy, Adoptive, Adenoviridae, Mice, 03 medical and health sciences, Lymphocytes, Tumor-Infiltrating, 0302 clinical medicine, Cell Line, Tumor, Tumor Microenvironment, medicine, Animals, Humans, Oncolytic Virotherapy, Tumor microenvironment, Receptors, Chimeric Antigen, Tumor-infiltrating lymphocytes, business.industry, General Medicine, Dendritic cell, Immunotherapy, Combined Modality Therapy, Xenograft Model Antitumor Assays, Chimeric antigen receptor, 3. Good health, Oncolytic virus, Pancreatic Neoplasms, Oncolytic Viruses, 030104 developmental biology, medicine.anatomical_structure, Mesothelin, 030220 oncology & carcinogenesis, Cancer research, business, Carcinoma, Pancreatic Ductal, Research Article

Abstract

Pancreatic ductal adenocarcinoma (PDA) is characterized by its highly immunosuppressive tumor microenvironment (TME) that limits T cell infiltration and induces T cell hypofunction. Mesothelin-redirected chimeric antigen receptor T cell (meso-CAR T cell) therapy has shown some efficacy in clinical trials but antitumor efficacy remains modest. We hypothesized that combined meso-CAR T cells with an oncolytic adenovirus expressing TNF-α and IL-2 (Ad5/3-E2F-D24-TNFa-IRES-IL2, or OAd-TNFa-IL2) would improve efficacy. OAd-TNFa-IL2 enhanced the antitumor efficacy of meso-CAR T cells in human-PDA-xenograft immunodeficient mice and efficacy was associated with robustly increased tumor-infiltrating lymphocytes (TILs), enhanced and prolonged T cell function. Mice treated with parental OAd combined with meso-CAR T developed tumor metastasis to the lungs even if primary tumors were controlled. However, no mice treated with combined OAd-TNFa-IL2 and meso-CAR T died of tumor metastasis. We also evaluated this approach in a syngeneic mouse tumor model by combining adenovirus expressing murine TNF-α and IL-2 (Ad-mTNFa-mIL2) and mouse CAR T cells. This approach induced significant tumor regression in mice engrafted with highly aggressive and immunosuppressive PDA tumors. Ad-mTNFa-mIL2 increased both CAR T cell and host T cell infiltration to the tumor and altered host tumor immune status with M1 polarization of macrophages and increased dendritic cell maturation. These findings indicate that combining cytokine-armed oncolytic adenovirus to enhance the efficacy of CAR T cell therapy is a promising approach to overcome the immunosuppressive TME for the treatment of PDA.

Published

2018

28. Adenovirus Coding for Interleukin-2 and Tumor Necrosis Factor Alpha Replaces Lymphodepleting Chemotherapy in Adoptive T Cell Therapy

Author

Sadia Zafar, Joao Manuel Santos, Akseli Hemminki, Suvi Sorsa, Mikko Siurala, Anna Kanerva, Riikka Havunen, Marjukka Anttila, Victor Cervera-Carrascon, University of Helsinki, Department of Oncology, Clinicum, Department of Obstetrics and Gynecology, and HUS Comprehensive Cancer Center

Subjects

0301 basic medicine, Male, medicine.medical_treatment, T-Lymphocytes, Immunotherapy, Adoptive, Mice, 0302 clinical medicine, Cancer immunotherapy, Drug Discovery, METASTATIC MELANOMA, Melanoma, PROLIFERATION, 1184 Genetics, developmental biology, physiology, 3. Good health, RECEPTORS, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Molecular Medicine, CANCER-IMMUNOTHERAPY, HEART-FAILURE, Tumor necrosis factor alpha, medicine.drug, Oncolytic adenovirus, Interleukin 2, INFILTRATING LYMPHOCYTES, T cell, 3122 Cancers, Genetic Vectors, Adenoviridae, Cell Line, 03 medical and health sciences, INFLAMMATION, ONCOLYTIC ADENOVIRUSES, Genetics, medicine, Animals, Humans, Molecular Biology, Pharmacology, HYPERTENSION, Mesocricetus, business.industry, Tumor Necrosis Factor-alpha, medicine.disease, EFFICACY, Oncolytic virus, Disease Models, Animal, 030104 developmental biology, Cancer research, Commentary, Interleukin-2, 3111 Biomedicine, business, CD8

Abstract

Lymphodepleting preconditioning with high-dose chemotherapy is commonly used to increase the clinical efficacy of adoptive T cell therapy (ACT) strategies, however, with severe toxicity for patients. Conversely, oncolytic adenoviruses are safe and, when engineered to express interleukin-2 (IL-2) and tumor necrosis factor alpha (TNF-alpha), they can achieve antitumor immunomodulatory effects similar to lymphodepletion. Therefore, we compare the safety and efficacy of such adenoviruses with a cyclophosphamide-and fludarabine- containing lymphodepleting regimen in the setting of ACT. Human adenovirus (Ad5/3-E2F-D24-hTNF-alpha-IRES-hIL-2; TILT-123) replication was studied using a Syrian hamster pancreatic tumor model (HapT1) infused with tumor- infiltrating lymphocytes (TILs). Using the oncolytic virus instead of lymphodepletion resulted in superior efficacy and survival. Immune cells responsive to TNF-alpha IL-2 were studied using an immunocompetent mouse melanoma model (B16. OVA) infused with ovalbumin-specific T (OT-I) cells. Here, the adenovirus approach improved tumor control together with increased intratumoral Th1 cytokine levels and infiltration of CD8+ T cells and CD86+ dendritic cells. Similar to humans, lymphodepleting preconditioning caused severe cytopenias, systemic inflammation, and damage to vital organs. Toxicity was minimal in adenovirus- and OT-Itreated mice. These findings demonstrate that ACT can be effectively facilitated by cytokine-coding adenovirus without requiring lymphodepletion, a rationale being clinically investigated.

Published

2018

29. Oncolytic Adenoviruses Armed with Tumor Necrosis Factor Alpha and Interleukin-2 Enable Successful Adoptive Cell Therapy

Author

Mikko Siurala, Akseli Hemminki, Pauliina Karell, Susanna Grönberg-Vähä-Koskela, Dirk M. Nettelbeck, Suvi Sorsa, Anna Kanerva, Riikka Havunen, Juuso Rusanen, Michael Behr, Joao Manuel Santos, Anja Ehrhardt, Siri Tähtinen, Clinicum, Department of Oncology, Research Programs Unit, Akseli Eetu Hemminki / Principal Investigator, Department of Obstetrics and Gynecology, University of Helsinki, HUS Comprehensive Cancer Center, and Virus infections and immunity

Subjects

0301 basic medicine, Cancer Research, Adoptive cell transfer, medicine.medical_treatment, 3122 Cancers, TNF, interleukin 2, lcsh:RC254-282, TRANSDUCTION, VIROTHERAPY, Cell therapy, 03 medical and health sciences, 0302 clinical medicine, medicine, Pharmacology (medical), Virotherapy, IMMUNOTHERAPY, IN-VIVO, Tumor microenvironment, Tumor-infiltrating lymphocytes, business.industry, Melanoma, Immunotherapy, adenovirus, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, EFFICACY, SOLID TUMORS, TNF-ALPHA, CANCER, cytokines, 3. Good health, Oncolytic virus, METASTATIC MELANOMA PATIENTS, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, tumor-infiltrating lymphocytes, Immunology, T-CELLS, Molecular Medicine, Original Article, business

Abstract

Adoptive cell therapy holds much promise in the treatment of cancer but results in solid tumors have been modest. The notable exception is tumor-infiltrating lymphocyte (TIL) therapy of melanoma, but this approach only works with high-dose preconditioning chemotherapy and systemic interleukin (IL)-2 postconditioning, both of which are associated with toxicities. To improve and broaden the applicability of adoptive cell transfer, we constructed oncolytic adenoviruses coding for human IL-2 (hIL2), tumor necrosis factor alpha (TNF-alpha), or both. The viruses showed potent antitumor efficacy against human tumors in immunocompromised severe combined immunodeficiency (SCID) mice. In immunocompetent Syrian hamsters, we combined the viruses with TIL transfer and were able to cure 100% of the animals. Cured animals were protected against tumor re-challenge, indicating a memory response. Arming with IL-2 and TNF-alpha increased the frequency of both CD4(+) and CD8(+) TILs in vivo and augmented splenocyte proliferation ex vivo, suggesting that the cytokines were important for T cell persistence and proliferation. Cytokine expression was limited to tumors and treatment-related signs of systemic toxicity were absent, suggesting safety. To conclude, cytokine-armed oncolytic adenoviruses enhanced adoptive cell therapy by favorable alteration of the tumor microenvironment. A clinical trial is in progress to study the utility of Ad5/3-E2F-d24-hTNFa-IRES-hIL2 (TILT-123) in human patients with cancer.

Published

2017

30. TNFa and IL-2 armed adenoviruses enable complete responses by anti-PD-1 checkpoint blockade

Author

Suvi Sorsa, Anna Kanerva, Siri Tähtinen, Pauliina Karell, Mikko Siurala, Riikka Havunen, Victor Cervera-Carrascon, Joao Manuel Santos, Akseli Hemminki, Clinicum, Department of Oncology, University of Helsinki, Institute for Molecular Medicine Finland, Akseli Eetu Hemminki / Principal Investigator, Department of Obstetrics and Gynecology, Faculty of Medicine, and HUS Comprehensive Cancer Center

Subjects

0301 basic medicine, medicine.medical_treatment, therapeutic antibodies, T-CELL THERAPY, 0302 clinical medicine, TUMOR, Cancer immunotherapy, Immunology and Allergy, Medicine, Original Research, models of immunostimulation, adenovirus, adoptive t cell therapies, solid tumors, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, 3. Good health, Cytokine, Oncology, 030220 oncology & carcinogenesis, ONCOLYTIC ADENOVIRUS, CANCER-IMMUNOTHERAPY, immunotherapy, virotherapy, lcsh:Immunologic diseases. Allergy, Oncolytic adenovirus, INFILTRATING LYMPHOCYTES, 3122 Cancers, Immunology, TALIMOGENE LAHERPAREPVEC, lcsh:RC254-282, t cell therapy, 03 medical and health sciences, Immune system, Blocking antibody, melanoma, anti-pd1, Virotherapy, Tumor microenvironment, business.industry, INHIBITORY RECEPTORS, NECROSIS-FACTOR-ALPHA, adoptive cell therapy, Immunotherapy, IDENTITY CRISIS, immunovirotherapy, 030104 developmental biology, Cancer research, checkpoint blockade, lcsh:RC581-607, business

Abstract

Releasing the patient's immune system against their own malignancy by the use of checkpoint inhibitors is delivering promising results. However, only a subset of patients currently benefit from them. One major limitation of these therapies relates to the inability of T cells to detect or penetrate into the tumor resulting in unresponsiveness to checkpoint inhibition. Virotherapy is an attractive tool for enabling checkpoint inhibitors as viruses are naturally recognized by innate defense elements which draws the attention of the immune system. Besides their intrinsic immune stimulating properties, the adenoviruses used here are armed to express tumor necrosis factor alpha (TNFa) and interleukin-2 (IL-2). These cytokines result in immunological danger signaling and multiple appealing T-cell effects, including trafficking, activation and propagation. When these viruses were injected into B16.OVA melanoma tumors in animals concomitantly receiving programmed cell-death protein 1 (PD-1) blocking antibodies both tumor growth control (p

Published

2018

31. T-cell therapy: Enabling oncolytic adenoviruses for the treatment of melanoma

Author

Mikko Siurala, Joao Manuel Santos, Riikka Havunen, Suvi Sorsa, Victor Cervera-Carrascon, and Akseli Hemminki

Subjects

medicine.anatomical_structure, Oncology, business.industry, T cell, Melanoma, medicine, Cancer research, Hematology, business, medicine.disease, Oncolytic virus

Published

2017

32. Delivering complete responses against solid tumors by checkpoint blockade enabled with tumor necrosis factor alpha and interleukin-2 armed adenoviruses

Author

Victor Cervera-Carrascon, Akseli Hemminki, Mikko Siurala, Riikka Havunen, Joao Manuel Santos, and Suvi Sorsa

Subjects

Interleukin 2, 0303 health sciences, business.industry, Hematology, Blockade, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Cancer research, Medicine, Tumor necrosis factor alpha, business, 030304 developmental biology, medicine.drug

Published

2017

33. Replacing lymphodepleting preconditioning with an oncolytic adenovirus coding for tumor necrosis factor alpha and interleukin-2 in adoptive cell therapy

Author

M. Anttila, Akseli Hemminki, Sadia Zafar, Mikko Siurala, Riikka Havunen, Victor Cervera-Carrascon, Suvi Sorsa, and Joao Manuel Santos

Subjects

Interleukin 2, Oncolytic adenovirus, 0303 health sciences, business.industry, Hematology, Cell therapy, 03 medical and health sciences, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Cancer research, medicine, Tumor necrosis factor alpha, business, 030304 developmental biology, medicine.drug

Published

2017

34. Adenoviral production of interleukin‐2 at the tumor site removes the need for systemic postconditioning in adoptive cell therapy

Author

Pauliina Karell, Victor Cervera-Carrascon, Joao Manuel Santos, Siri Tähtinen, Suvi Sorsa, Anna Kanerva, Riikka Havunen, Mikko Siurala, Akseli Hemminki, and Marjukka Anttila

Subjects

0301 basic medicine, Male, Cancer Research, Adoptive cell transfer, medicine.medical_treatment, Melanoma, Experimental, CD8-Positive T-Lymphocytes, Immunotherapy, Adoptive, Cell therapy, Mice, Random Allocation, 0302 clinical medicine, Cell Movement, Cricetinae, Medicine, Lung, B-Lymphocytes, Melanoma, Forkhead Transcription Factors, Adoptive Transfer, Recombinant Proteins, 3. Good health, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Female, Inflammation Mediators, medicine.drug, Interleukin 2, Oncolytic adenovirus, T cell, Genetic Vectors, Adenoviridae, 03 medical and health sciences, Lymphocytes, Tumor-Infiltrating, Animals, Mesocricetus, business.industry, Macrophages, Interleukin-2 Receptor alpha Subunit, Immunotherapy, medicine.disease, Mice, Inbred C57BL, Pancreatic Neoplasms, Disease Models, Animal, 030104 developmental biology, Immunology, Cancer research, Interleukin-2, business, CD8

Abstract

Systemic high dose interleukin-2 (IL-2) postconditioning has long been utilized in boosting the efficacy of T cells in adoptive cell therapy (ACT) of solid tumors. The resulting severe off-target toxicity of these regimens renders local production at the tumor an attractive concept with possible safety gains. We evaluated the efficacy and safety of intratumorally administered IL-2-coding adenoviruses in combination with tumor-infiltrating lymphocyte therapy in syngeneic Syrian hamsters bearing HapT1 pancreatic tumors and with T cell receptor transgenic ACT in B16.OVA melanoma bearing C57BL/6 mice. The models are complementary: hamsters are semi-permissive for human oncolytic adenovirus, whereas detailed immunological analyses are possible in mice. In both models, local production of IL-2 successfully replaced the need for systemic recombinant IL-2 (rIL-2) administration and increased the efficacy of the cell therapy. Furthermore, vectored delivery of IL-2 significantly enhanced the infiltration of CD8+ T cells, M1-like macrophages, and B-cells while systemic rIL-2 increased CD25 + FoxP3+ T cells at the tumor. In contrast with vectored delivery, histopathological analysis of systemic rIL-2-treated animals revealed significant changes in lungs, livers, hearts, spleens, and kidneys. In summary, local IL-2 production results in efficacy and safety gains in the context of ACT. These preclinical assessments provide the rationale for ongoing clinical translation.