Lasse Neukirch scite author profile

Autophagy is a catabolic process that enables cells to degrade obsolete content and refuel energy depots. In colorectal cancer (CRC) autophagy has been shown to promote tumorigenesis through energy delivery in the condition of uncontrolled proliferation. With this study, we aimed at evaluating whether autophagy sustains CRC cell viability and if it impacts therapy resistance. Initially, a colorectal cancer tissue micro array, containing mucosa (n = 10), adenoma (n = 18) and adenocarcinoma (n = 49) spots, was stained for expression of essential autophagy proteins LC3b, Atg7, p62 and Beclin-1. Subsequently, central autophagy proteins were downregulated in CRC cells using siRNA technology. Viability assays, flow cytometry and immunoblotting were performed and three-dimensional cell culture was utilized to study autophagy in a tissue mimicking environment. In our study we found an upregulation of Atg7 in CRC. Furthermore, we identified Atg7 as crucial factor within the autophagy network for CRC cell viability. Its disruption induced cell death via triggering apoptosis and in combination with conventional chemotherapy it exerted synergistic effects in inducing CRC cell death. Cell death was strictly dependent on nuclear LC3b, since simultaneous knockdown of Atg7 and LC3b completely restored viability. This study unravels a novel cell death preventing function of Atg7 in interaction with LC3b, thereby unmasking a promising therapeutic target in CRC.

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Adenovirus based virus-like-vaccines targeting endogenous retroviruses can eliminate growing colorectal cancers in mice

Neukirch

Nielsen

Laursen

et al. 2019

Oncotarget

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Endogenous retroviruses (ERVs) that make up 8% of the human genome have been associated with the development and progression of cancer. The murine model system of the melanoma associated retrovirus (MelARV), which is expressed in different murine cancer cell lines, can be used to study mechanisms and therapeutic approaches against ERVs in cancer. We designed a vaccine strategy (Ad5-MelARV) of adenoviruses encoding the MelARV proteins Gag and Env that assemble in vivo into virus-like particles displaying the cancer-associated MelARV Env to the immune system. The novel vaccine was designed to induce both humoral as well as cellular immune responses in order to attack ERV expressing tumor cells. Despite a lack of antibody induction, we found that T cell responses were strong enough to prevent colorectal CT26 tumor growth and progression in BALB/c mice after a single vaccination before or after tumor challenge. A combination with the checkpoint inhibitor anti-PD-1 further increased the efficacy of the vaccination leading to complete tumor regression. Furthermore, immune responses in vaccinated mice were not restricted to only one cancer cell line but vaccinated animals were also protected from a rechallenge with the distinct breast cancer cell line 4T1. Thus, the developed vaccine strategy could represent a novel tool to successfully target diverse ERV-bearing tumors in cancer patients.

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The potential of adenoviral vaccine vectors with altered antigen presentation capabilities

Neukirch

Fougeroux

Andersson

et al. 2020

Expert Review of Vaccines

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Replication deficient human adenovirus vector serotype 19a/64: Immunogenicity in mice and female cynomolgus macaques

Ragonnaud

Schrödel²,

Mariya

et al. 2018

Vaccine

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Virus-like vaccines against HIV/SIV synergize with a subdominant antigen T cell vaccine

et al. 2019

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Background In non-human primates (NHPs) and humans, partial protection from HIV/SIV infection or suppression of replication is achievable by Env-binding antibodies and Gag-specific CD8+ T-cells targeting protective epitopes. Unfortunately, such T-cell responses are frequently dominated by responses to non-protective, variable epitopes. In this study we attempt to combine three independent approaches, each developed to prevent immunodominance of non-protective epitopes. These approaches were (1) vaccines consisting exclusively of putatively protective p24 Gag highly conserved elements (CEs), (2) vaccines using solely subdominant antigens which were acutely protective in a recent NHP trial, and (3) virus-encoded virus-like particle vaccines (virus-like vaccines/VLVs) using heterologous Env and Gag sequences to enable selection of broadly cross-reactive responses and to avoid immunodominance of non-conserved sequences in prime-boost regimens as previously observed. Methods We vaccinated outbred CD1 mice with HIV-1 clade B Gag/Env encoded in an adenoviral prime and SIVmac239 Gag/Env in an MVA boost. We combined this completely heterologous immunization regimen and the homologous SIVmac239 Gag/Env immunization regimen with an additional prime encoding SIV CEs and accessory antigens Rev, Vif and Vpr (Ad-Ii-SIVCErvv). T-cell responses were analyzed by intracellular cytokine staining of splenocytes and antibody responses by trimer-specific ELISA, avidity and isotype-specific ELISA. Results Env dominance could be avoided successfully in the completely heterologous prime-boost regimen, but Env immunodominance reappeared when Ad-Ii-SIVCErvv was added to the prime. This regimen did however still induce more cross-reactive Gag-specific CD8+ T-cells and Env-specific antibodies. Including Ad-Ii-SIVCErvv in the homologous prime-boost not only elicited accessory antigen-specific CD8+ memory T-cells, but also significantly increased the ratio of Gag- to Env-specific CD8+ T-cells. The CD4+ T-cell response shifted away from structural antigens previously associated with infection-enhancement. Conclusion The homologous Gag/Env prime-boost with Ad-Ii-SIVCErvv prime combined acutely protective CD8+ T-cell responses to subdominant antigens and Env-binding antibodies with chronically protective Gag-specific CD8+ T-cells in outbred mice. This vaccine regimen should be tested in an NHP efficacy trial. Electronic supplementary material The online version of this article (10.1186/s12967-019-1924-1) contains supplementary material, which is available to authorized users.

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An Endogenous Retrovirus Vaccine Encoding an Envelope with a Mutated Immunosuppressive Domain in Combination with Anti-PD1 Treatment Eradicates Established Tumours in Mice

Daradoumis

Ragonnaud

Skandorff

et al. 2023

Viruses

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Endogenous retroviruses (ERVs) account for 8% of our genome, and, although they are usually silent in healthy tissues, they become reactivated and expressed in pathological conditions such as cancer. Several studies support a functional role of ERVs in tumour development and progression, specifically through their envelope (Env) protein, which contains a region described as an immunosuppressive domain (ISD). We have previously shown that targeting of the murine ERV (MelARV) Env using virus-like vaccine (VLV) technology, consisting of an adenoviral vector encoding virus-like particles (VLPs), induces protection against small tumours in mice. Here, we investigate the potency and efficacy of a novel MelARV VLV with a mutated ISD (ISDmut) that can modify the properties of the adenoviral vaccine-encoded Env protein. We show that the modification of the vaccine’s ISD significantly enhanced T-cell immunogenicity in both prime and prime-boost vaccination regimens. The modified VLV in combination with an α-PD1 checkpoint inhibitor (CPI) exhibited excellent curative efficacy against large established colorectal CT26 tumours in mice. Furthermore, only ISDmut-vaccinated mice that survived CT26 challenge were additionally protected against rechallenge with a triple-negative breast cancer cell line (4T1), showing that our modified VLV provides cross-protection against different tumour types expressing ERV-derived antigens. We envision that translating these findings and technology into human ERVs (HERVs) could provide new treatment opportunities for cancer patients with unmet medical needs.

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Abstract 3563: CD8+ T cell-mediated tumor rejection by an Adeno-associated virus-like particle (AAVLP) vaccine

Neukirch¹,

Schmidt²,

Zörnig³

et al. 2022

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The utilization of adeno-associated viruses (AAVs) as vaccines has primarily been focused on the induction of antibody responses. Displaying antigens derived from HER2 or HPV on the AAV capsid surface lead to strong humoral immune responses. However, the potential of AAVs as T cell inducing vaccines has been poorly investigated. Model antigens have been inserted into the capsid of AAVs to analyze T cell responses, but these studies rather focused on preventing vector immunity for an improved tolerance of gene therapies. By using this as a starting point, we set out to test AAVs as T cell inducing vaccines with the prospect of targeting cancer neoantigens. In first experiments, the general properties of the vaccination strategy were estimated by displaying the ovalbumin-derived model antigen SIINFEKL on the surface of adeno-associated virus-like particles (AAVLPs). Upon injection of the AAVLP-SIINFEKL vaccine, mice developed strong CD8+ T cell responses against the displayed antigen. Highest immune responses were achieved by subcutaneous hock injection of AAVLPs, adjuvanted by Montanide ISA 51 VG. SIINFEKL-specific T cell responses peaked around three weeks after vaccination, whereas a memory subset remained present for long term. The anti-tumor efficacy of the vaccine was shown by injecting SIINFEKL-expressing B16F10 melanoma cells subcutaneously into mice, in which the tumor was completely rejected after vaccination. Interestingly, the induction of CD8+ T cell responses and the tumor protection depended on the presence of CD4+ T cells. Accordingly, T helper epitopes were identified in the AAVLP capsid sequence. In addition to the initial tests, a set of murine neoantigens, derived from B16F10 cells, were displayed on AAVLPs. In direct comparison to a peptide vaccine, which did not have an effect on tumor growth, the AAVLP vaccine had a significant impact on the tumor growth rate. In conclusion, AAVLPs show promising effects as T cell vaccines. The vaccination strategy can be used to induce cytotoxic T cell responses in general and anti-tumor effects in particular. AAV capsid-specific helper epitopes is one inherent advantage, since the AAVLP vaccine delivers immune stimulation within the viral particle itself. Thus, antigen-displaying AAVLPs could be an alternative to current gold standards in the field of neoantigen vaccines and have a prospect for future clinical applications. Citation Format: Lasse Neukirch, Patrick Schmidt, Inka Zörnig, Dirk Jäger, Silke Uhrig-Schmidt. CD8+ T cell-mediated tumor rejection by an Adeno-associated virus-like particle (AAVLP) vaccine [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3563.

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Lasse Neukirch

Knockdown of Atg7 Induces Nuclear-LC3 Dependent Apoptosis and Augments Chemotherapy in Colorectal Cancer Cells

Adenovirus based virus-like-vaccines targeting endogenous retroviruses can eliminate growing colorectal cancers in mice

The potential of adenoviral vaccine vectors with altered antigen presentation capabilities

Replication deficient human adenovirus vector serotype 19a/64: Immunogenicity in mice and female cynomolgus macaques

Virus-like vaccines against HIV/SIV synergize with a subdominant antigen T cell vaccine

An Endogenous Retrovirus Vaccine Encoding an Envelope with a Mutated Immunosuppressive Domain in Combination with Anti-PD1 Treatment Eradicates Established Tumours in Mice

Abstract 3563: CD8+ T cell-mediated tumor rejection by an Adeno-associated virus-like particle (AAVLP) vaccine

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