POST-TRANSLATIONAL REGULATION OF 4-1BB, AN EMERGING TARGET FOR CANCER IMMUNOTHERAPY

Ruoxuan Sun (12457092)

27 April 2022

<p>  </p> <p>Cancer is well known as a disease involving genetic disorders, which make them distinguishable from normal tissue by the altered molecular signatures. Theoretically, malignant cells can be recognized and attacked by innate and adaptive immune system as “non-self” species, and the idea to take advantage of host immunity to treat cancer has been discussed for over a century. Through the multi-disciplinary research efforts from immunology, cancer biology, cell engineering <em>etc.</em>, cancer immunotherapy has been successfully translated from benchside to bedside. While the clinical application of immunotherapeutic regimens has achieved extraordinary success including the unprecedented long-term survival of metastatic melanoma patients, we must take it seriously that only a small proportion (about 20% on average) of patients benefit from immunotherapy, and many develop secondary progression after the initial response. Advancements have been made in biomarker development to identify the group the patients who may benefit from immunotherapy, yet the accuracy and adaptability remain to be improved. In general, the performance of immunotherapy is hardly satisfactory as the current situation.</p> <p><br></p> <p>The effect out of T cell-mediated immune response is mediated by plenty pairs of receptor-ligand interactions in the immune synapse between T cells and target cells. Despite the T cell receptor-mediated first signal and CD28-mediated second signal, a huge collection of co-signals molecules serves unneglectable roles to keep the T-cell immune response fine-tuned under appropriate threshold. Inadequate co-signaling transduction result in with immune deficiency or autoimmunity depending on the type of signal (stimulatory or inhibitory). 4-1BB is a significant co-receptor which is mainly expressed on T cells and delivers activation signal to drive T cell proliferation and cytotoxicity. 4-1BB is targetable for cancer treatment and can be used as a tumor-reactive T cell marker as well. Hence, it is of substantial importance to understand how co-signaling molecules, such as 4-1BB, are regulated under specific physiological or pathological conditions.</p> <p><br></p> <p>Proteins are regulated at multiple levels, including transcription, translation, localization, and interaction with other biomolecules (covalently or non-covalently). Post-translational modification (PTM) constitutes a critical type of mechanism that elicit multidimensional effects to the biophysical properties of target proteins. Herein, I sought to elaborate how 4-1BB, an TNFRSF family co-stimulatory receptor, is possessed and regulated by PTMs, particularly ubiquitination and <em>N</em>-glycosylation. In the first part of this study, I confirmed that 4-1BB is degraded through ubiquitination-proteasome pathway and identified FBXL20 to be the E3 ligase subunit mediating 4-1BB polyubiquitination. While conducting the first section, I noticed that 4-1BB is heavily <em>N</em>-glycosylated and thereby dissected the biological significance of this modification which made up the second part of this study. I experimentally characterized that 4-1BB necessitates its <em>N</em>-glycans to be efficaciously transported to cell membrane through the secretory pathway. Plus, the glycosylated 4-1BB has short half-life. Without the spatial hindrance established by <em>N</em>-linked carbohydrate moieties, the exposed C121 residue of 4-1BB can be used to forms stable multimer which intracellular retention and stabilization of 4-1BB.</p> <p><br></p> <p>This study uncovered the post-translational mechanisms of action of 4-1BB regulation for the first time. More fundamentally, we provided a blueprint to study the post-translational regulation network of immune receptors which may be applied for future investigations in other targets. Our ultimate hope is to be able to grasp the dynamic of key immune regulators in the context of microenvironment and based on which pair the right therapeutics with the correct populations.</p>

Biochemistry

Cell Biology

Immunology

Tumour Immunology

cancer immunotherapies

4-1BB (CD137)

ubiquitination

Glycosylation

Role of neutrophils in breast cancer metastasis

Aneesha Kulkarni (16704405)

01 August 2023

<p>Breast cancer remains a major cause of cancer-related deaths among women despite several advances in the field due to metastasis with a 5-year survival rate of less than 30% for metastatic breast cancer. Dissemination of tumor cells to metastatic sites begins as early as the primary tumor is diagnosed at just 4mm in size. These cells remain dormant for extended periods of time evading immune surveillance and later turn into therapy resistant metastases resulting in the poor prognosis in breast cancer patients. Hence, there is a <b>critical need </b>to improve our understanding of the metastatic programs in breast cancer and its contributors to develop better therapy options.</p><p>One such contributor is alcohol which is listed as a carcinogen by the National Toxicology Program. Alcohol consumption is a risk factor for several cancers and increases the risk of breast cancer incidence in a dose dependent manner. We have observed in preliminary studies, that alcohol consumption causes increased neutrophil extracellular trap (NET) formation in the lungs and outgrowth of previously dormant cancer cells in mice. Further, NETs increase cancer cell seeding and play a role in metastasis. Hence, we hypothesized that alcohol consumption breaks cancer cell dormancy by activating neutrophils.</p><p>In this study, we have broken cancer cell dormancy and generated a novel cell line, Alcohol-D2.OR, by inducing outgrowth of the dormant D2.OR cells in mice through alcohol consumption. Reinjection of the Alcohol-D2.OR cells, into alcohol-naïve mice results in aggressive outgrowth of the cells suggesting these cells are modified on a genetic level. Indeed, RNA sequencing analysis of the gene expression in the cells showed that these cells have significantly modified gene expression as well as modified morphology and surface protein expression than the parental D2.OR cells. Importantly, from our analysis we have identified a tumor suppressor, SPINK5 which was significantly downregulated in the alcohol line. Further, SPINK5 expression in cancer cells suppressed neutrophil activity in-vitro. Knockdown of SPINK5 in the parental D2.OR line resulted in outgrowth of the cells in-vivo with increased lung NETs highlighting the importance of this gene for maintenance of dormancy by suppression of neutrophil activity.</p><p>Hence, we have successfully identified a gene responsible for dormancy maintenance, SPINK5 which will aid in not only therapeutic intervention but also in identification of breast cancer patients likely to progress to metastasis. Further, the newly established Alcohol-D2.OR cells provide a novel tool to study other initiators of metastasis in breast cancer.</p><p>A common side-effect of most chemotherapeutic treatments is neutropenia, reduced neutrophils in circulation increasing susceptibility to infections. Hence, GM-CSF is often administered to patients to mobilize bone marrow neutrophils. However, neutrophils have been increasingly shown to promote distant metastases. Circulating disseminated cancer cells (DCCs), which are present as early as primary diagnosis, have been shown to activate neutrophils resulting in the release of neutrophil extracellular traps (NETs). These NETs alter the lung architecture providing a suitable environment for the seeding and growth of DCCs promoting lung metastases. One key player in neutrophil activation is spleen tyrosine kinase (SYK), an intracellular non-receptor kinase which is activated by the engagement of b-integrin on the neutrophil surface.</p><p>Using a chemical genetics approach we are able to specifically inhibit SYK in the murine host. Using our transgenic model of specific SYK inhibition as well as the FDA approved SYK inhibitor, fostamatinib, we see similar results of decreased lung metastases compared to controls. We also observed decreased neutrophil viability in-vitro in the presence of fibronectin, an effect that was not seen on plastic highlighting the importance of integrin mediated activity of SYK. We also observe decreased neutrophil and macrophage infiltration into the lungs upon host-specific SYK inhibition. Overall, these findings suggest a paracrine effect of SYK in stromal cells that promotes favorable tumor microenvironment (TME) and its inhibition may be a useful therapeutic option to combat DCCs from forming metastases.</p><p>Hence, through this work we address two mechanisms of neutrophil-mediated breast cancer metastasis and that therapeutic intervention by rescuing SPINK5 expression in cancer cells or inhibition of SYK in the tumor microenvironment can suppress pulmonary metastasis in breast cancer.</p>

Tumour immunology

Cancer cell biology

Solid tumours

Breast cancer

tumor microenvironment

neutrophils

metastasis

dormancy

The synergistic benefits of combining innate immune stimulators into nanoparticle adjuvants for intradermal vaccination

Juan F Hernandez Franco (15353443)

28 April 2023

<p>  </p> <p>The study presented within demonstrates that Nano-11, a plant-derived nanoparticle adjuvant, can be utilized in conjunction with innate immune stimulators, including the TLR3 agonist poly(I:C) and the STING agonist cyclic-di-AMP, to provoke enhanced immune responses when administered through intradermal vaccines. The study demonstrated that the utilization of a combination adjuvant consisting of Nano-11 and a synthetic STING agonist, ADU-S100, in intradermal vaccination exhibited dose-sparing characteristics and resulted in enhanced immunity in both mice and pigs when compared to intramuscular immunization. The utilization of Nano-11-based adjuvant technology has demonstrated both prophylactic and therapeutic efficacy in mouse models of lymphoma and melanoma. The proposed adjuvant platform for intradermal vaccines, which is based on Nano-11, aims to enhance the accessibility of vaccines for the purposes of controlling infectious diseases and cancers.</p>

Innate immunity

Tumour immunology

Immunology not elsewhere classified

immunoloy

vaccine adjuvant applications

Immunotherapeutic vaccine

<b>DRUGGING THE UNDRUGGABLE PROTEIN TYROSINE PHOSPHATASES FOR CANCER THERAPY: EXPECTED AND UNEXPECTED</b>

Yiming Miao (18090124)

21 April 2024

<p dir="ltr">Protein tyrosine phosphorylation is a key post-translational modification that drives numerous cell signaling pathways governing cell proliferation, differentiation, and transcriptional activation. Protein tyrosine kinases (PTKs) and protein tyrosine phosphatases (PTPs) coordinate the protein tyrosine phosphorylation levels while dysregulated PTKs or PTPs activity results in aberrant protein tyrosine phosphorylation levels and cause multiple human diseases including cancer, diabetes, and autoimmune diseases. Targeting PTKs using small molecule inhibitors or antibodies achieved many successes for various indications. For example, targeting epidermal growth factor receptor for cancer therapy and targeting Janus kinase 2 for autoimmune diseases. Meanwhile, targeting PTPs as therapeutic approaches remains underexplored due to the limited understanding of PTP biology and challenging inhibitor development.</p><p><br></p><p dir="ltr">So far, many substrates and pathological mechanisms of PTPs remain elusive. As an example, although it is well recognized that Phosphatases of Regenerating Liver (PRL) family members PRL1/2/3 are overexpressed in the majority of cancer types and are frequently associated with poor clinical outcomes, the pathological mechanism of PRLs is unclear due to the limited understanding of their substrates. In the presented study, I focused on understanding the oncogenic mechanisms of PRL2 phosphatase and the therapeutic potential of targeting PRL2. I developed the first breast-specific PRL2 deletion mouse model to understand the role of PRL2 in estrogen receptor-positive breast tumorigenesis driven by the aberrant PI3K/AKT signaling, which represents over 30% of the human breast cancer population. I found PRL2 deletion drastically extended the median tumor-free survival of mice harboring PI3K gain-of-function mutant from 377 days to 605 days while such extension was invalidated in the absence of PTEN, a major tumor suppressor and one of the substrates of PRL2.</p><p><br></p><p dir="ltr">PTPs are challenging targets for inhibitor development due to the highly conserved and positively charged active site. Most of the identified PTP inhibitors lack the selectivity as a chemical probe for interrogating the PTP biology and are negatively charged which limits their bioavailability as a therapeutic approach. To overcome these defects, we utilized the proteolysis targeting chimera (PROTACs) technique to generate bifunctional small molecules that recruit the protein of interest to an E3 ligase for protein ubiquitination and proteasome degradation. Compared with the traditional occupancy-based inhibitors, PROTACs have improved efficacy and selectivity due to the catalytic degradation turnover and the necessity of the formation of the target-PROTAC-E3 complex. We developed the first-in-class PTP1B/TC-PTP dual degrader named DU-14 and TC-PTP selective degrader named TP1L for cancer immunotherapy. Protein tyrosine phosphatase 1B (PTP1B) and T-cell protein tyrosine phosphatase (TC-PTP) play non-redundant negative regulatory roles in T-cell activation and tumor antigen presentation. Previous studies have shown that the deletion of these two PTPs elicits potent anti-tumor immunity in vivo. I have shown that DU-14 and TP1L efficiently degrade their corresponding target with outstanding selectivity and elevate the cytokine-mediated phosphorylation of their substrates. As a result, I have shown that DU-14 and TP1L elicit potent anti-tumor immunity using co-culture or in vivo tumor models.</p><p><br></p><p dir="ltr">I also discovered an unexpected but beneficial off-target effect of SHP2 allosteric inhibitors under clinical trial and investigated its therapeutic implications for aberrant RAS-driven cancers. Aberrant activation of RAS-MAPK signaling is common in cancer, and efforts to inhibit pathway components have yielded drugs with promising clinical activities. As a central node essential for receptor tyrosine kinase-mediated RAS activation, SHP2 has emerged as an attractive cancer target. Consequently, many SHP2 allosteric inhibitors are now in clinical testing. I discovered a previously unrecognized off-target effect associated with SHP2 allosteric inhibitors. I showed that off-target autophagy inhibition by SHP2 allosteric inhibitors contributes to their anti-tumor activity. Finally, I exemplified a new therapeutic framework that harnesses both the on- and off-target activities of SHP2 allosteric inhibitors for improved treatment of mutant RAS-driven and drug-resistant malignancies such as pancreatic and colorectal cancers.</p><p><br></p><p dir="ltr">In summary, these studies facilitate the understanding of PTP disease biology and provide examples of successful strategies in developing small molecule PTP inhibitors for cancer therapy.</p>

Signal transduction

Tumour immunology

phosphorylaltion

Cancer biology

On CD4⁺ T Lymphocytes in Solid Tumours

Marits, Per

January 2007

<p>This thesis deals with recognition and elimination of tumours by T lymphocytes and their use in adoptive immunotherapy.</p><p>The first tumour-draining lymph node; the sentinel node, is identified by peritumoural injection of a tracer. This is the hypothesised location for the activation of tumour-reactive lymphocytes. Accordingly, proliferation and IFN-γ production in response to autologous tumour extract was detected in sentinel nodes from patients with colon and urinary bladder cancer. Reactivity in metastatic nodes was generally lower or absent, but the non-responsiveness could be subdued in long-term cultures by addition of tumour antigen and IL-2. A novel padlock-probe based method was developed for measuring the T cell receptor Vβ repertoire. Common Vβ gene expansions were detected in tumour-infiltrating lymphocytes and sentinel nodes. Thus, tumour antigens are recognised in sentinel nodes by Th1 lymphocytes, resulting in a clonally expanded cell population that can be further propagated <i>ex vivo</i>.</p><p>Regulatory T cells (Tregs) may contribute to tumour-induced immunosuppression. Immunohistochemical stainings against the pan-T cell marker CD3 and Treg marker FOXP3 was performed on tumour tissue from 20 historical urinary bladder cancer patients. The ratio of FOXP3⁺ to CD3⁺ cells was lower in patients alive 7 years post-cystectomy, suggesting that Tregs in bladder cancer have prognostic implications.</p><p>Lymphocytes were isolated from sentinel nodes from sixteen patients with advanced or high-risk colon cancer. <i>In vitro</i> expansion with addition of autologous tumour extract and IL-2 mainly promoted the outgrowth of CD4⁺ Th1 lymphocytes, which were safely re-transfused to the patients. Four patients responded with complete tumour regression. Survival time in the Dukes’ D patients was significantly increased compared with conventionally treated controls (2.6 versus 0.8 years; p=0.048).</p><p>In conclusion, human solid tumours are recognised in sentinel nodes and <i>in vitro</i> expanded sentinel node-acquired CD4⁺ T lymphocytes seem useful in the treatment of patients with disseminated cancer.</p>

Molecular medicine

Tumour immunology

T lymphocytes

sentinel node detection

colon cancer

urinary bladder cancer

adoptive immunotherapy

Molekylärmedicin

On CD4+ T Lymphocytes in Solid Tumours

Marits, Per

January 2007

This thesis deals with recognition and elimination of tumours by T lymphocytes and their use in adoptive immunotherapy. The first tumour-draining lymph node; the sentinel node, is identified by peritumoural injection of a tracer. This is the hypothesised location for the activation of tumour-reactive lymphocytes. Accordingly, proliferation and IFN-γ production in response to autologous tumour extract was detected in sentinel nodes from patients with colon and urinary bladder cancer. Reactivity in metastatic nodes was generally lower or absent, but the non-responsiveness could be subdued in long-term cultures by addition of tumour antigen and IL-2. A novel padlock-probe based method was developed for measuring the T cell receptor Vβ repertoire. Common Vβ gene expansions were detected in tumour-infiltrating lymphocytes and sentinel nodes. Thus, tumour antigens are recognised in sentinel nodes by Th1 lymphocytes, resulting in a clonally expanded cell population that can be further propagated ex vivo. Regulatory T cells (Tregs) may contribute to tumour-induced immunosuppression. Immunohistochemical stainings against the pan-T cell marker CD3 and Treg marker FOXP3 was performed on tumour tissue from 20 historical urinary bladder cancer patients. The ratio of FOXP3+ to CD3+ cells was lower in patients alive 7 years post-cystectomy, suggesting that Tregs in bladder cancer have prognostic implications. Lymphocytes were isolated from sentinel nodes from sixteen patients with advanced or high-risk colon cancer. In vitro expansion with addition of autologous tumour extract and IL-2 mainly promoted the outgrowth of CD4+ Th1 lymphocytes, which were safely re-transfused to the patients. Four patients responded with complete tumour regression. Survival time in the Dukes’ D patients was significantly increased compared with conventionally treated controls (2.6 versus 0.8 years; p=0.048). In conclusion, human solid tumours are recognised in sentinel nodes and in vitro expanded sentinel node-acquired CD4+ T lymphocytes seem useful in the treatment of patients with disseminated cancer.

Molecular medicine

Tumour immunology

T lymphocytes

sentinel node detection

colon cancer

urinary bladder cancer

adoptive immunotherapy

Molekylärmedicin

Immune recognition and editing of tumours expressing multiple antigenic epitopes in two murine models

Bundell, Christine Stephanie

January 2007

[Truncated abstract] The design of effective immunotherapies, using tumour antigens to stimulate a functional effector cytotoxic T cell (CTL) response in a tumour bearing host, requires an understanding of the 'real time' in vivo relationship between the host immune system and antigens expressed by the developing tumour. However, effector function of endogenous anti-tumour CTLs generated during tumour progression has largely been assessed by indirect ex vivo assays and often focused on a single antigen. Therefore, studies in this thesis evaluated the endogenous in vivo CTL response to multiple tumour antigenic epitopes in murine tumour models using Lewis lung carcinoma cells transfected with ovalbumin (an antigen that contains several intra-molecular MHC class I epitopes with a defined hierarchy) or a polyepitope (that contains a string of immunodominant MHC class I epitopes). Potent effector CTLs were generated to multiple dominant tumour antigenic epioptes early in tumour progression. However, in general, these CTL effectors only transiently retarded tumour growth, and at the later time points of tumour growth they were no longer generated in tumour draining lymph nodes. This coincided with diminished tumour antigen presentation in the same nodes which was found to be due to antigen loss. In both models antigen loss was the result of two processes; immuno-editing of the tumour by the host immune response and genetic instability resulting in antigen loss variants that could evade immune surveillance. A third model was generated that maintained low level tumour antigen expression throughout tumour progression. ... The impact of pre-existing endogenous dominant-epitope specific CTLs on tumour expressing the same epitope was also assessed, and resulted in a reduced tumour incidence and a CTL response restricted to a single antigen of the same MHC allele. Finally, the effects of two different immunotherapy regimens were examined. Intratumoural IL-2 treatment enhanced pre-existing CTL responses to the dominant epitopes leading to tumour regression. In addition, use of a multiple peptide vaccination regimen that avoided T cells competing for peptide-MHC complexes on APC was far more likely to be effective than one that did not. These results demonstrate that immunotherapies targeting tumours that express several dominant neo antigenic epitopes can be effective. The caveat for this approach is that it will only be effective in tumours that have generated an endogenous CTL response and must be used before antigen loss variants emerge.

Tumors -- Immunological aspects

Cancer -- Immunotherapy

Tumor antigens

Tumour immunology

Antigen loss

In vivo CTC function

Multiple tumour antigenic epitones

Inflammation and invasive margin in colorectal cancer

Klintrup, K. (Kai)

11 September 2012

Abstract Prognostic features of colorectal cancer (CRC) are important for determining the optimal treatment for an individual patient. This study was carried out to evaluate the significance of the prognostic significance of inflammatory cell reaction and tumour budding at the invasive front of the tumour in CRC patients, to study the pattern of alterations in the serum cytokine levels of CRC patients compared to healthy controls, and to evaluate whether the patterns of the cytokine levels alter according to the stage of disease. Study material consists of a series of CRC patients operated in Oulu University Hospital (N=466, studies I-II, and N=148, study III). The intensities of inflammatory cell reaction and tumour budding were estimated and the association of these features with survival was analysed (I-II). Preoperative serum samples were collected from patients and age- and sex-matched controls, and concentrations of 13 cytokines and chemokines were analysed (III). Inflammatory cell reaction and tumour budding at the tumour invasive margin were independent prognostic markers in CRC. In patients with stage I-II disease, high-grade inflammation was associated with better 5-year survival (87.6%) than low-grade inflammation (47.0%). Tumour budding was present in 24.0% of cases and predicted worse 5-year survival (15.4% in contrast to 63.5%). Serum levels of PDGF, IL-6, IL-7, and IL-8 were higher, and levels of MCP-1 were lower in CRC patients compared to controls. A pattern of five most predictive cytokines reached an excellent capacity in discriminating patients from healthy controls and reached an AUC of 0.890 in the ROC analysis. High-stage CRC was associated with increased levels of IL-6, IL-8 and IL-1ra, and metastasised disease was accompanied by an orientation to Th2 cytokine milieu. According to this study, patients with CRC can be stratified into different prognostic groups by assessing inflammatory cell reaction and tumour budding at the invasive front of the tumour. Evaluation of these features may give additional information for making treatment decisions. Serum cytokine profile was shown to change during cancer progression and seems promising in separating CRC patients from healthy controls, but its clinical value is yet to be confirmed. / Tiivistelmä Kasvaimen ennusteeseen vaikuttavien tekijöiden tunteminen on tärkeää syöpäpotilaan yksilöllisen hoidon suunnittelussa. Tässä tutkimuksessa selvitettiin kasvaimen tulehdusreaktion ja kasvaimen reunan silmuilevan kasvutavan merkitystä kolorektaalisyöpäpotilaiden ennusteeseen. Lisäksi tutkimuksessa mitattiin tulehdusreaktion välittäjäaineiden, seerumin sytokiinien, pitoisuuksia potilailla ja verrokeilla sekä näiden pitoisuuksien vaihtelua suhteessa syövän levinneisyyteen. Tutkimusaineisto koostui Oulun yliopistollisessa sairaalassa leikatuista kolorektaalisyöpäpotilaista (N=466, tutkimukset I–II, N=148, tutkimus III). Kasvainnäytteistä tutkittiin kasvaimen tulehdusreaktion ja silmuilevan kasvutavan voimakkuutta ja arvioitiin näitä piirteitä suhteessa potilaiden elinaikatietoihin (tutkimukset I–II). Potilaiden ja verrokkihenkilöiden seeruminäytteistä mitattiin 13 sytokiinin pitoisuudet (tutkimus III). Kasvaimen tulehdusreaktio ja silmuileva kasvutapa osoittautuivat itsenäisiksi ennustetekijöiksi. Potilailla oli parempi 5-vuotisennuste (87.6 %), jos kasvaimen tulehdusreaktio oli voimakas verrattuna tapauksiin, joissa tulehdusreaktio oli heikko (47.0 %). 24 %:ssa kasvaimista kasvutapa oli silmuileva, ja näillä 5-vuotisennuste oli huonompi kuin ei-silmuilevissa (15.4 % vs. 63.5 %). Potilailla todettiin korkeammat seerumin PDGF, IL-6, IL-7, ja IL-8 -pitoisuudet ja matalammat MCP-1 -pitoisuudet kuin verrokeilla. Mittaamalla viiden ennustearvoltaan merkitsevimmän sytokiinin pitoisuudet voitiin potilaat luotettavasti erottaa verrokeista ROC-analyysin avulla, kun ROC-käyrän alle jäävä pinta-ala oli 0.890 %. Pidemmälle levinneissä taudeissa todettiin korkeampia IL-6, IL-8 ja IL-1ra -pitoisuuksia, ja etäpesäkkeisissä taudeissa sytokiinipitoisuudet muuttuivat Th2 -profiilin suuntaiseksi. Tutkimuksen mukaan kasvaimen tulehdusreaktion ja silmuilevan kasvutavan arvioinnilla kolorektaalisyöpäpotilaat voidaan jakaa ennusteellisiin ryhmiin, mitä on mahdollista hyödyntää hoidon suunnittelussa. Seerumin sytokiiniprofiilin osoitettiin muuttuvan taudin edetessä, ja sytokiinien pitoisuudet poikkeavat kolorektaalisyöpäpotilailla verrattuna terveiltä verrokeilta mitattuihin arvoihin.

budding

chemokine

colorectal cancer

cytokine

inflammation

prognosis

tumour immunology

ennuste

kasvaimen immunologia

kasvaimen reunan silmuileva kasvutapa

kemokiini

kolorektaalisyöpä

sytokiini

tulehdus

Exploring potential human cancer neoantigens as targets for adoptive T cell therapy

Immisch, Lena

15 November 2022

Der adoptive Transfer von T-Zell-Rezeptor (TZR) modifizierten T-Zellen gegen krebsspezifische Antigene ist ein vielversprechender Ansatz in der Immuntherapie. Geeignete Zielmoleküle für diese Therapie sollten wichtig für das Überleben von Krebszellen sein und zudem in ausreichenden Mengen auf der Zelloberfläche exprimiert werden, um von T-Zellen erkannt zu werden. Die Identifizierung dieser Zielmoleküle ist jedoch eine Herausforderung und erfordert eine intensive Charakterisierung, um eine ausreichende Prozessierung und Präsentation auf den Tumorzellen zu validieren. Ziel dieser Arbeit war, HLA-A2-spezifische Neoepitope als Zielmoleküle für adoptive T-Zell-Therapie zu validieren. Dafür wurden erfolgreich Immunantworten in einem humanen transgenen Mausmodell nach Peptidimmunisierung induziert und TZRs mit hoher Affinität isoliert. Trotz einer hohen funktionellen Avidität von H3.3K27M-spezifischen T-Zellen wurde keine Erkennung von Tumorzellen erreicht. Zweitens wurden TZR-transduzierte T-Zellen gegen die häufige Melanommutation Rac1P29S isoliert, welche zytotoxisch gegen Melanomzelllinien waren. Letztlich wurde beobachtetet, dass TZRs mit hoher Affinität gegen gespleißte Kras und Rac2 Epitope, welche durch Proteasom-katalysiertes Peptidspleißen erzeugt wurden, keine Immunantwort gegen endogen exprimierte Mutationen hervorrufen konnten. Daraus lässt sich schließen, dass gespleißte Epitope wahrscheinlich seltener vorkommen als zuvor angenommen und daher möglicherweise irrelevant für die adoptive T-Zelltherapie sind. Diese Daten deuten darauf hin, dass die Auswahl von Zielmolekülen für die adoptive T-Zell-Therapie mit Hilfe reverser Immunologie auf der Grundlage von Bindungsalgorithmen und der Häufigkeit von Mutationen allein nicht ausreicht. Daher sind vor der Isolierung und Charakterisierung von TZRs zusätzliche Strategien wie z.B. die Analyse des MHC-Immunopeptidoms erforderlich, um die Auswahl geeigneter Zielmoleküle für die T-Zelltherapie zu verbessern. / Adoptive transfer of T cell receptor (TCR)-engineered T cells against tumour-specific neoantigens is a promising approach in cancer immunotherapy. Ideally, targeted antigens are crucial for cancer cell survival and are generated in sufficient amounts to be recognised by T cells. However, the identification of ideal targets remains challenging and requires intensive characterisation to validate sufficient antigen processing and presentation by the tumour cells. This thesis focused on the validation of HLA-A2 binding neoepitopes carrying the recurrent cancer mutations H3.3K27M, Rac1P29S, Rac2P29L or KrasG12V as targets for adoptive T cell therapy. After peptide immunisation, immune responses in a human transgenic mouse model were elicited and high-affinity TCRs successfully isolated. Although H3.3K27M-specific T cells showed high functional avidity, no recognition of cells endogenously expressing mutant H3.3 was achieved. Furthermore, a mechanism to target the common melanoma mutation Rac1P29S with a TCR raised against a heterologous mutation with higher peptide-MHC affinity was described. TCR-transduced T cells induced cytotoxicity against Rac1P29S expressing melanoma cell lines. Lastly, high-affinity TCRs specific for mutant Kras and Rac2 spliced epitopes generated by proteasome-catalysed peptide splicing were successfully isolated, however, TCR-transduced T cells did not induce an immune response against endogenously expressed mutant transgenes. The results indicate that spliced epitopes are probably less abundant than previously estimated and therefore may play a minor role in the generation of targets for adoptive T cell therapy. These data suggest that target selection using a reverse immunology approach based on binding algorithms and frequency of mutations alone is not sufficient. Thus, additional strategies to improve the selection of suitable targets such as the analysis of the MHC immunopeptidome are required prior to TCR isolation and characterisation.

Tumorimmunologie

Krebsimmuntherapy

Neoantigene

Adoptive T-Zell-Therapie

Tumour immunology

Cancer Immunotherapy

Adoptive T-cell therapy

Neoantigens

570 Biologie

ddc:570

Vorklinische Untersuchungen zur Wirkung einer Tumorvakzine in der Therapie Human Papillomvirus-assoziierter Tumorerkrankungen

Hoffmann, Corinna

02 August 2012

Neuartige Vakzinierungsstrategien zur Aktivierung einer Tumor-spezifischen zellulären Immunantwort sind vielversprechende Ansätze zur Therapie von Tumoren, insbesondere Human Papillomvirus (HPV)-assoziierte Tumore. Bisherige HPV-Impfstudien zeigen zwar die Aktivierung einer spezifischen zellulären Immunantwort, eine Tumorreduktion bleibt jedoch aus. Um diesen Effekt auf Immunzellebene zu definieren, wurde die Wirkung der HPV-Vakzine Ad p14 im Mausmodell und an Untersuchungsmaterial humaner Tumore analysiert. In Mäusen bildeten sich HPV+ TC1-Tumore einer frühen Entwicklungsphase nach Vakzinierung zurück. Tumore einer späten Entwicklungsphase wuchsen dagegen in zwei Intervallen aus. Immunologische Eigenschaften der Tumorzellen blieben dabei unverändert. Unterschiede zeigten sich in den Frequenzen Tumor-infiltrierender Lymphozyten; in progressiven Phasen wurden nur CD4+ T Zellen nachgewiesen, in Regressionsphasen zusätzlich zytotoxische CD8+ T Zellen. Immunmodulatoren, wie Interferon alpha oder DTA-1, einem Antikörper für den Glucocorticoid-induzierten Tumornekrosefaktor-Rezeptor, unterstützten die Wirkung der Vakzine; letzterer erhöhte die Anzahl zytotoxischer CD8+ T Zellen und führte zur Abstoßung der TC1-Tumore. HPV+ Tumorgewebe des Menschen, wie auch ihre Vorstufen, zeigten im Vergleich zu anderen Tumoren, wie Bronchial oder Kolonkarzinomen einen signifikant höheren Anteil an CD4+ und CD8+ T Zellen und an Forkhead Box P3+ regulatorischen T Zellen. Die Ergebnisse deuten darauf hin, dass die immunologischen Abläufe bei der Entwicklung HPV-assoziierter Tumore mit denen vorangeschrittener chronischer Erkrankungen vergleichbar sind, in denen sich CD4+ und CD8+ T Zellantworten erschöpfen während sich gleichzeitig immunsuppressive Mechanismen verstärken. Um die Entwicklung von Impfstoffen zur Therapie HPV-assoziierter Tumore zu verbessern sollten diese Mechanismen ausführlicher betrachtet werden. / Novel vaccination strategies, activating cellular tumour specific immune responses represent a promising approach for the treatment of cancer. Especially featured for these treatments are tumours evolving from chronic human papillomavirus (HPV) infections. But current strategies have not yet proved efficacious for complete tumour regression. Addressing cellular immunological aspects of tumour vaccination, this work focused on effects of HPV vaccine Ad p14 in mice and in samples of human tumours. In mice vaccination resulted in complete regression of early stage murine HPV+ TC1 tumours. Late stage TC1 tumours increased discontinuously. During that process, TC1 cells preserved their immunological characteristics. But frequencies of tumour-infiltrating lymphocytes varied; in progressing tumours only CD4+ T cells occurred, in temporary regressing tumours also CD8+ T cells were detected. Immune modulators, like interferon alpha or glucocorticoid-induced tumour necrosis factor receptor targeting antibody DTA-1 aggravated the effects of vaccination; latter raised cytotoxic CD8+ T cell numbers and resulted in complete tumour regression. Human HPV+ tumours as well as HPV+ precancerous stages revealed numbers of CD4+ and CD8+ T cells and especially of forkhead box P3+ regulatory T cells that were significantly increased compared to melanoma, bronchial or colon carcinoma. To assist further analysis of human HPV-associated cervical cancer and facilitate studies on therapeutic approaches, a humanized mouse model was established. The present work points to immunological exhaustion in the development of HPV-related tumours comparable to chronic diseases where CD4+ and CD8+ T cells exhaust and immunosuppression by regulatory T cells increases at the same time. For the development of appropriate strategies to enhance efficacy in HPV-associated tumour therapy, further knowledge of mechanisms involved in specific T cell activation, T cell exhaustion and immunosuppression is necessary.

therapeutische Vakzine

Human Papillomvirus

Tumorimmunologie

Zervixkarzinom

Xenotransplantationsmodell

therapeutic vaccine

human papillomavirus

tumour immunology

cervical cancer

xenograft model

570 Biowissenschaften, Biologie

32 Biologie

WF 3750

XD 7400

ddc:570