BET bromodomain proteins regulate immune checkpoints through both AMPK-dependent and independent pathways

Huang, Kunlin

06 July 2020

Immune exhaustion can be a major clinical problem for patients who have cancer or chronic inflammation. Persistent antigen stimulation drives T cells to express multiple surface markers called immune checkpoints. When these markers bind to their corresponding ligands that are expressed by antigen (e.g. tumor cells), T cells become metabolically impaired and lose several important functions; some cell signaling pathways are inhibited, while other intracellular mediators are re-modulated. Eventually, both CD4+ and CD8+ T cells behave dysfunctionally in ways that may facilitate cancer progression. Immune checkpoints are a major hallmark of immune exhaustion. In addition, natural killer (NK) cells, a critical immune cell subset in the peripheral immune system, also express immune checkpoint molecules, and are responsible for detecting and destroying circulating tumor cells. Yet, little research has investigated immune checkpoints on NK cells. Here, we explored the role of Bromodomain and ExtraTerminal domain (BET) proteins (BRD2, BRD3, BRD4), which are important transcriptional co-regulators, and critical for proliferation and metastasis in many cancer types, in the regulation of immune checkpoint molecules in several immune cell subsets, including CD4+ and CD8+ T cells, and NK cells. Through binding to acetylated histone tails of nucleosomal chromatin, BET proteins assist in transcription of multiple genes. Deregulated expression of BET proteins promotes cancer development or tumor cell metastasis, and new data show the BET proteins contribute to immune exhaustion. Furthermore, Type 2 diabetes mellitus (T2DM) is another worrisome problem related to cancer. T2DM patients show increased risk of developing cancer. Patients with both T2DM and any type of cancer show higher risks for metastasis. Significantly, T2DM patients also show immune exhaustion, suggesting a hypothesis that BET proteins may couple immune system dysfunction, abnormal metabolism and cancer incidence or progression. Specifically, T2DM has been defined to be a metabolic and a chronic inflammatory disease. The 5' Adenosine Monophosphate-activated Protein Kinase (AMPK) signaling pathway is a key pivot of cell metabolism and as well a significant target of drugs that normalize blood glucose, such as metformin. Based on published data, we considered that it is important to explore the mechanism of how immune checkpoints are regulated through metabolic pathways, focusing on immune exhaustion in T2DM patients. Moreover, considering that the expression of BET proteins promotes cancer development and progression, and metastasis and immune exhaustion are characteristic of many cancers as well, we suspected a potential relationship among BET proteins, the AMPK metabolic signaling pathway and immune exhaustion is worth exploring. Here, we measure expression of the immune checkpoint molecules TIM-3, TIGIT, PD-1, and CTLA-4 on normal T cells and NK cells by flow cytometry. We demonstrate different degrees of regulation of immune checkpoints by BET proteins on stimulated T cells and NK cells. Comparing stimulated-only cells with stimulated-plus AMPK inhibitor cells, we found that inhibition of the AMPK signaling pathway causes divergent expression patterns for TIM-3 and TIGIT, PD-1 and CTLA-4. Simultaneous inhibition of both BET proteins and the AMPK signaling pathway, shows that BET proteins regulate TIM-3 and TIGIT through an AMPK-independent metabolic pathway and regulate PD-1 and CTLA-4 through an AMPK-dependent pathway. Overall, we show TIM-3 and TIGIT, PD-1 and CTLA-4 display different expression patterns under regulation of the AMPK signaling pathway, and we show that BET proteins regulate TIM-3, TIGIT, PD-1 and CTLA-4 through both AMPK-dependent and -independent pathways. These findings are important because they reveal novel mechanisms of immune checkpoint regulation, which may be valuable for targeting in cancer patients who are being treated with checkpoint inhibitors.

Immunology

AMPK

BET proteins

Immune checkpoints

NK cells

T cells

Prognostický a prediktivní význam exprese kontrolních bodů imunitních reakcí u ovariálního karcinomu / The prognostic and predictive role of immune check point inhibitors in ovarian cancer patients

Raková, Jana

January 2018

Epithelial ovarian cancer is the sixth most common tumor disease among women and it is the leading cause of death from all types of gynecologic malignancies. The current standart of care consist of debulking surgery followed by platinum-taxane chemotherapy. Althought some patients benefit from the treatment, most eventually experience platinum-resistance and die from this disease. Immunotherapy based on application of immune checkpoint blockers represents a new treatment strategy in different cancer malignancies. However, emerging clinical data show only limited clinical efficacy of these agents in ovarian cancer patients with objective response rates of 10-15%. Therefore there is a strong need to identify a potential biomarkers, which allows to identify the group of patients, who will benefit the most from this costly treatment. The aim of my diploma thesis was to characterize the prognostic and predictive role of the immune checkpoints within the retrospective and prospective cohort of patients with high-grade serous ovarian cancer (HGSOC). Our study follows, that the expression of PD-L1 molecule and high frequencies of PD-1+ tumor infiltrating lymphocytes (TILs) in tumor microenviroment is significantly correlated with a better prognosis of patients with HGSOC. Moreover, PD-L1 and PD-1...

The Immune Microenvironment in Clear Cell Renal Cell Carcinoma : The heterogeneous immune contextures accompanying CD8+ T cell infiltration in clear cell Renal Cell Carcinoma / Le contexte immunitaire dans le carcinome du rein à cellules claires

Giraldo-Castillo, Nicolas

07 October 2015

Dans cette étude, nous avons tenté de décrypter les mécanismes reliant l’augmentation de lymphocytes infiltrant les tumeurs (LIT) T CD8+ et un pronostic clinique défavorable dans le cancer du rein à cellules claires (ccRCC). Pour cela, nous avons déterminé 1) la relation entre le pronostic associé à l'expression d’immune checkpoints et l’infiltrat de cellules dendritiques (DC) et de LT CD8+ et 2) les caractéristiques phénotypiques des LIT T CD8+. L’expression des immune checkpoints a été déterminée par immunohistochimie dans une cohorte de 135 ccRCC. Nous avons constaté que les densités des cellules exprimant CD8, PD-1 et LAG-3 sont corrélées, et associées à une diminution de PFS et OS. Egalement, les patients dont les tumeurs présentent des densités élevées de cellules PD-1+ et PD-L1 et/ou PD-L2 +, ont le taux de survie le plus faible. Des densités élevées de DC immatures isolées dans le stroma tumoral sont associées à une forte expression d’immune checkpoints et à un faible taux de survie chez ces patients. En revanche, les patients présentant un taux de survie prolongé ont une densité élevée de lymphocytes CD8+, des DC matures au sein de structures lymphoïdes tertiaires, ainsi qu’une faible expression d’immune checkpoints. Nous avons analysé les LIT T CD8+ chez 21 patients ccRCC par Cytométrie de Flux. On a trouvé un groupe de patients (8/21) dont les tumeurs sont caractérisées par la surexpression de marqueurs inhibiteurs (PD1 et TIM3) et de d'activation (CD69 et CD38), par l'expansion des cellules T CD8 + mémoires effectrices et un plus grand potentiel d’agressivité. En résumé, nous avons démontré qu’une densité élevée de LIT T CD8+ dans les ccRCC est accompagnée d’une forte expression d’immune checkpoints et d’une réponse immunitaire mal coordonnée dans un sous-groupe de tumeurs agressives. / To decipher the potential mechanisms linking increased CD8+ T cell infiltration with an adverse clinical outcome in ccRCC, in this study we determined: 1) the prognosis associated with the expression of immune checkpoints and its coordination with dendritic cell (DC) and CD8+ cell infiltration, and 2) the phenotypic traits of CD8+ tumor infiltrating lymphocytes. The prognosis associated with CD8+ and DC infiltrations, in addition to the expression of immune checkpoints were investigated in a cohort of 135 ccRCC by quantitative immunohistochemistry. We found that the densities of CD8+, PD-1+ and LAG-3+ cells were closely correlated, and independently associated with decreased PFS and OS. In addition, patients whose tumors presented both high densities of PD-1+ cells and PD-L1+ and/or L2+ tumor cells, displayed the worst clinical outcome. High densities of immature DC isolated in the tumour stroma were associated with high expression of immune checkpoints and patients’ poor clinical outcome. In contrast, the presence of mature DC within Tertiary Lymphoid Structures identified, among the tumours with high CD8+-TIL densities, those with low expression of immune checkpoints and prolonged survival. We also investigated the phenotype of freshly isolated CD8+TIL in 21 ccRCC by flow cytometry. We found a group tumors (8/21) characterised by the over-expression of inhibitory (PD-1 and TIM-3) and activation markers (CD69 and CD38), the expansion of the effector memory cell subpopulation (CCR7-CD45RA-), and a trend toward more aggressive features. In summary, we demonstrated that the infiltration with CD8+ TIL in ccRCC is accompanied by the enhanced expression of immune checkpoints and a poorly coordinated immune response in a subgroup of aggressive tumors.

Contexte immunitaire dans le cancer

Immunomodulation

Cancer du rein

Structures lymphoïdes tertiaires

Immune checkpoints

Immunohistochimie

Immunohistochemistry

Tertiary Lymphoid Structures

571.96

Impact of Targeting the Autophagy Related Gene Beclin 1 on the Immune Landscape of Melanoma / L'impact de l’inhibition du gène de l’autophagie Beclin 1 sur le paysage immunitaire du mélanome

Arakelian, Tsolère

09 July 2018

L'immunothérapie basée sur le blocage des points de contrôle immunitaire (ICBs) est un traitement prometteur pour les patients atteints de mélanome ; cependant, seule une petite sous-population en tire un bénéfice à long terme. Un des défis pour améliorer l'efficacité et étendre le bénéfice des ICBs aux patients non répondeurs est de concevoir des approches innovantes permettant de transformer les tumeurs dites "froides ou désertes pour les cellules immunitaire" en tumeurs dites "chaudes ou infiltrées par les cellules immunitaires" qui sont éligibles aux ICBs. Nous avons étudié l'impact du ciblage du gène de l'autophagie Beclin1 sur le paysage immunitaire des tumeurs de mélanome B16-F10. Nos résultats ont démonté que ce ciblage inhibait significativement la croissance tumorale B16-F10 et augmentait l'infiltration des leucocytes CD45+. Le phénotypage immunitaire a révélé une augmentation de l'infiltration de cellules NK (Natural Killer) actives, de macrophages inflammatoires et résidents de type 1, de cellules dendritiques et de lymphocytes T CD8+ actifs. L’inhibition de la croissance tumorale Becn1- n'était plus observée par la déplétion des CD8+ de l'hôte, soulignant ainsi leur rôle dans le contrôle du développement de ces tumeurs. Nos résultats ont démontré que La régulation du paysage immunitaire des tumeurs Becn1- était associée à une modulation du réseau de cytokines/chémokines dans le microenvironnement tumoral (TME). Ainsi, les tumeurs Becn1- présentaient une signature de cytokines inflammatoires (comprenant CCL5, CXCL10 et IFNg) qui pourrait être responsable de l'établissement de microenvironnement inflammatoire permissif aux cellules CD8. Nous avons révélé que la surexpression de l'IFNg dans le TME des tumeurs Becn1- était responsable de l'induction de PD-L1 sur les cellules tumorales par la voie d'activation JAK/STATs. En conclusion, cette étude met en évidence Beclin1 comme une cible majeure, capable d'induire l'infiltration des cellules effectrices immunitaires dans les mélanomes en induisant une signature inflammatoire. Elle fournit également la preuve de concept pour combiner des inhibiteurs d'autophagie avec les ICBs comme une approche de pointe pour améliorer leur efficacité. / Immune Checkpoint Blockades (ICBs)-based immunotherapy has emerged as a promising treatment for melanoma patients; however only a small subset of patients reaps a long term benefit. One of the major challenges to enhance the efficacy and extend the benefit of ICBs to non-responder patients is to design innovative approaches allowing the switch of “immune desert cold tumors” to “immune infiltrated hot tumors" which are eligible for ICB-based therapies. Here, we investigated the impact of targeting the early autophagy gene Beclin1 on the immune landscape of B16-F10 melanoma tumors. We found that targeting Beclin1 (Becn1-) significantly inhibited B16-F10 tumor growth and increased the infiltration of CD45+ leukocytes into the tumor bed. Immune phenotyping revealed an increased infiltration of active Natural Killer (NK) cells, inflammatory and resident type 1 macrophages, dendritic cells, and active CD8+ T lymphocytes. The inhibition of Becn1- tumor growth was no longer observed by depleting host CD8+ T cells, thus highlighting their major role in the control of Becn1- B16-F10 tumor development. We showed that Beclin1-dependent regulation of the immune landscape was associated with profound modulation of the cytokine/chemokine network in the tumor microenvironment (TME). Importantly, we revealed that Becn1- tumors displayed an inflammatory cytokine signature (comprised, but not restricted to, CCL5, CXCL10 and IFNg) that could be responsible for the switch from cold non T-inflamed to hot T-inflamed tumors. Mechanistically, we reported that the overexpression of IFNg in Becn1- TME was responsible for the induction of Programed Death ligand-1 (PD-L1) on tumor cells through the activation of JAK/STATs pathway. Overall, this study highlights Beclin1 as a valuable target, able to drive immune effectors cells into the melanoma tumors by inducing an inflammatory signature. This study provides the proof of concept for combining drugs inhibiting early autophagy process along with ICBs as a cutting-edge approach to improve their efficacy.

Mélanome

Autophagie

Chémokines

Points de contrôle immunitaire

Tumeur inflammatoire

Immunothérapie

Melanoma

Autophagy

Chemokines

Immune checkpoints

Inflamed tumor

Immunotherapy

Recherche de nouvelles stratégies thérapeutiques des métastases osseuses : utilisation de la chimiokine CX3CL1 ou de ciments chargés en bisphosphonates / Research of new therapeutic strategies for bone metastases : use of CX3CL1 or bisphosphonate-loaded calcium phosphate cements as new therapeutic tools

Al-Sahlanee, Rasha

28 October 2016

Malgré les avancées thérapeutiques récentes, le pronostic des patients porteurs de métastases osseuses (MO) reste faible, ce qui incite à chercher des nouvelles stratégies thérapeutiques. Les chimiokines sont des acteurs majeurs de la réponse immune, et apparaissent comme des cibles potentielles de l’immunothérapie anti-cancéreuse. Nous avons recherché à définir si la chimiokine CX3CL1 pouvait représenter un axe thérapeutique efficace dans le contexte des MO. Pour cela nous avons développé des modèles murins de MO de cancer du rein et du poumon. Dans le modèle de MO de cancer du poumon, notre travail a démontré que l'expression de CX3CL1 inhibe la croissance tumorale. L’analyse transcriptomique des tumeurs a montré que CX3CL1 diminue (i) l’ostéloyse via un effet sur la triade OPG/RANKL/RANK (ii) l'expression de certains checkpoints, en faveur d’une réponse immune antitumorale. En revanche, dans le modèle de MO de cancer du rein, l’expression de CX3CL1 stimule le développement tumoral et l'ostéolyse via une action sur la triade OPG/RANKL/RANK et inhibe la réponse immune antitumorale via une augmentation de l'expression de certains checkpoints immunitaires. Les bisphosphonates (BPs) sont des agents utilisés pour le traitement des MO. Afin de réduire leurs effets indésirables, nous avons utilisé des ciments de phosphate de calcium (CPC), pour délivrer localement dans l’os des BPs (alendronate, ALN). Notre travail a mis en évidence que (i) ces ciments chargés en ALN relarguent en continue les BPs, (ii) le relarguage d’ALN est efficace pour induire des effets cytotoxiques et pro-apoptotiques vis à vis des cellules de cancer du sein / Despite recent therapeutic improvments, the prognosis for a patient with bone metastases (BM) remains poor, this situation prompting the research of new therapeutic strategies. Chemokines are central players in the immune response, and appear as potential targets in anti-cancer immunotherapies. We are interested to determine whether the CX3CL1 chemokine exerted pro or anti-tumor actions within the bone metastatic context. To address this issue, we developed mouse models of lung or renal cancer BM. In lung cancer BM model, our work demonstrated that CX3CL1 expression led to tumor growth inhibition. Tumors transcriptomic analysis revealed that CX3CL1: (i) impacted bone metabolism by modulating the OPG/RANKL/RANK triad (ii) decreased the expression of certain immune checkpoints, this up-regulating the anti-tumor immune response. By contrast, in renal cancer BM model, CX3CL1 expression stimulated bone tumor development and transcriptomic analysis showed that CX3CL1 (i) promoted osteolysis through an action on the OPG/RANKL/RANK triad (ii) -induced tumor development correlated with an increased expression of certain immune checkpoints, this down-regulating the anti-tumor immune response. Bisphosphonates (BPs) are targeted agents used for BM treatment. In order to reduce their side effects, we used resorbable calcium phosphate cements (CPC), which are frequently used as bone void fillers, as platform for a local delivery of BPs (alendronate, ALN). As a whole, our in vitro data demonstrated that: (i) ALN-CPC cements continuous released ALN; (ii) this ALN release was effective in inducing cytotoxic and pro-apoptotic effects in breast cancer cells

Chimiokine

Fractalkine CX3CL1

Métastases osseuses

Biomatériaux

Alendronate

Ciment phosphocalcique

Immunothérapie

Chemokine

Fractalkine CX3CL1

Bone metastases

Biomaterial

Alendronate

Calcium phosphate Cements

Immune checkpoints

Immunotherapy

The Evolving Landscape of Biomarkers for Anti-PD-1 or Anti-PD-L1 Therapy

Tunger, Antje, Sommer, Ulrich, Wehner, Rebekka, Kubasch, Anne Sophie, Grimm, Marc-Oliver, Bachmann, Michael Philipp, Platzbecker, Uwe, Bornhäuser, Martin, Baretton, Gustavo, Schmitz, Marc

06 April 2023

The administration of antibodies blocking the immune checkpoint molecules programmed cell death protein 1 (PD-1) or programmed cell death 1 ligand 1 (PD-L1) has evolved as a very promising treatment option for cancer patients. PD-1/PD-L1 inhibition has significantly enhanced expansion, cytokine secretion, and cytotoxic activity of CD4+ and CD8+ T lymphocytes, resulting in enhanced antitumor responses. Anti-PD-1 or anti-PD-L1 therapy has induced tumor regression and improved clinical outcome in patients with different tumor entities, including melanoma, non-small-cell lung cancer, and renal cell carcinoma. These findings led to the approval of various anti-PD-1 or anti-PD-L1 antibodies for the treatment of tumor patients. However, the majority of patients have failed to respond to this treatment modality. Comprehensive immune monitoring of clinical trials led to the identification of potential biomarkers distinguishing between responders and non-responders, the discovery of modes of treatment resistance, and the design of improved immunotherapeutic strategies. In this review article, we summarize the evolving landscape of biomarkers for anti-PD-1 or anti-PD-L1 therapy.

info:eu-repo/classification/ddc/610

ddc:610

Význam složení a funkčních vlastností imunitního infiltrátu nádorového mikroprostředí pro klinický průběh nádorů hlavy a krku / Impact of pattern and functional properties of tumor-infiltrating immune cells for clinical outcome of head and neck cancer

Hladíková, Kamila

January 2020

Head and neck squamous cell carcinoma encompasses a complex and heterogeneous group of malignant diseases. Originally, this tumor type was associated with tobacco and alcohol consumption. However, a significantly expanding subset of tumors associated with oncogenic human papillomavirus infection arising in deep tonsillar crypts was identified within the last decades. Due to the essential role of the immune system in antiviral and anticancer immune response, the prognosis of patients is significantly influenced by the volume, composition and functional capacity of the immune infiltrate. The immunosuppressive landscape of head and neck cancer leads to unfavorable outcome of patients and decreased efficacy of immunotherapy. The response rate to standard treatment is high, however, standard therapy is accompanied by considerable toxicity influencing the quality of life. In 2016, the first immunotherapeutics for the treatment of patients with recurrent squamous cell carcinoma of the head and neck were approved - the anti-PD-1 immune checkpoint inhibitors nivolumab and pembrolizumab. This type of therapy, based on mitigation of immunosuppression, shows strong efficacy and less toxicity in combination with other therapies. Therefore, anti-PD-1 immunotherapy was recently approved in the first-line...

Non-Invasive Immunogram. A Multidimensional Approach to Characterize and Monitor Immune Status in Non-Small Cell Lung Cancer

Moreno Manuel, Andrea

22 April 2025

[ES] El cáncer de pulmón no microcítico (CPNM) representa un 80% de los casos de cáncer de pulmón, siendo uno de los tipos de cáncer más frecuentes y mortales. El tratamiento con inmunoterapia ha mejorado significativamente el pronóstico de los pacientes en las últimas décadas. No obstante, no todos los pacientes responden al tratamiento, por lo que se necesitan nuevos biomarcadores para predecir qué pacientes se podrían beneficiar de la inmunoterapia. El principal objetivo de esta tesis es obtener nuevos biomarcadores no invasivos para pacientes de CPNM avanzado tratados con inmunoterapia. Se incluyeron 52 pacientes de CPNM en estadios avanzados tratados con anti-PD1 o anti-PD1 en combinación con quimioterapia (anti-PD1+CT) en primera línea. Se analizaron biomarcadores no invasivos en muestras de sangre periférica, obtenidas antes del tratamiento y en la primera evaluación de respuesta. Los biomarcadores analizados en este estudio fueron: i) parámetros hematológicos e inmunológicos, ii) expresión de genes inmunoreguladores en células mononucleares de sangre periférica (PBMCs), iii) repertorio de TCR-ß y iv) genotipo de HLA. También se analizaron 13 controles sanos, y se observó que los pacientes con CPNM presentaron menores niveles de expresión de genes relacionados con las células T. Además, los pacientes con CPNM tenían menor número de clones de TCR-ß. Se analizó el valor predictivo y pronóstico de los potenciales biomarcadores independientemente en pacientes tratados con anti-PD1 o anti-PD+CT. Se encontraron biomarcadores con valor pronóstico, bien en las muestras basales o en las muestras tomadas en la primera evaluación de respuesta. Al utilizar muestras no invasivas, también se pudo estudiar la dinámica de los biomarcadores a lo largo del tratamiento, observando que algunos cambios ocurrían de manera diferencial en pacientes respondedores o dependiendo del tratamiento. La integración de los datos de las variables analizadas ha resultado en una propuesta de un modelo multivariante capaz de predecir qué pacientes tendrán mejor pronóstico, en el subgrupo de pacientes tratados con anti-PD1. Además, se crearon dos inmunogramas no invasivos incluyendo los ratios de los biomarcadores entre muestras tomadas antes y durante el tratamiento. Estos modelos se realizaron específicamente para cada tipo de tratamiento, y podrían ser útiles para monitorizar la respuesta durante el tratamiento. Este estudio resalta el papel de la biopsia líquida como una herramienta no invasiva para analizar biomarcadores de forma integral que permiten caracterizar y monitorizar el estatus inmune en pacientes con CPNM tratados con inmunoterapia o quimioinmunoterapia. / [CA] El càncer de pulmó no microcític (CPNM) representa un 80% dels casos de càncer de pulmó, i és un dels tipus de càncer més freqüents i mortals. El tractament amb immunoteràpia ha millorat significativament el pronòstic dels pacients en les últimes dècades. Malgrat això, no tots el pacients responen, per la qual cosa es necessiten nous biomarcadors per predir què pacients es beneficiaran del tractament amb immunoteràpia. El principal objectiu d'aquesta tesi és obtindre nous biomarcadors no invasius per a pacients de CPNM avançat tractats amb immunoteràpia. Es van incloure 52 pacients de CPNM en estadis avançats tractats amb anti-PD1 o anti-PD1 en combinació amb quimioteràpia (anti-PD1+CT) en primera línia. Es van analitzar biomarcadors no invasius a partir de mostres de sang perifèrica, que es van obtindre abans del tractament i en la primera avaluació de resposta. Els potencials biomarcadors analitzats en aquest estudi van ser: i) paràmetres hematològics i immunològics, ii) expressió de gens immunoreguladors en cèl·lules mononuclears de sang perifèrica (PBMCs), iii) repertori de TCR-ß i iv) genotip d'HLA. També es van analitzar 13 controls sans, i es va observar que els pacients amb CPNM presentaven menors nivells d'expressió de gens relacionats amb les cèl·lules T. A més, els pacients amb CPNM tenien menor riquesa de repertori de TCR-ß. S'han analitzat el valor predictiu i pronòstic dels potencials biomarcadors independentment en pacients tractats amb anti-PD1 o anti-PD1+CT. S'han trobat biomarcadors amb valor pronòstic, bé en les mostres basals o en les mostres preses en la primera avaluació de resposta. Com s'han utilitzat mostres no invasives, també s'ha pogut analitzar la dinàmica dels biomarcadores al llarg del tractament, i s'han observat canvis específics de pacients responedors o del tipus de tractament. La integració de les variables analitzades ha resultat en una proposta d'un model multivariant capaç de predir quins pacients amb CPNM tindran millor pronòstic, en el subgrup de pacients tractats amb anti-PD1. També s'han fet dos immunograms no invasius incloent els ràtios dels biomarcadors entre mostres preses abans i durant el tractament. Aquests models son específics per a cada tipus de tractament, i podrien ser útils per a monitorar la resposta durant el tractament. Aquest estudi ressalta el paper de la biòpsia líquida com una eina no invasiva per a analitzar biomarcadors de forma integral que permeten caracteritzar i monitorar l'estatus immune en pacients amb CPNM tractats amb immunoteràpia o quimioimmunoteràpia. / [EN] Non-Small Cell Lung Cancer (NSCLC) represents 80% of lung cancer cases, being one of the most frequent and death causing cancers. Recently developed treatments with immunotherapy have improved patient prognosis. However, a significant number of patients do not respond to treatment, thus there is an urgent need for biomarkers to predict which patients will benefit from immunotherapy. The main objective of this thesis was to obtain novel non-invasive biomarkers for advanced-stage NSCLC patients treated with immunotherapy. This study included 52 advanced-stage NSCLC patients treated with Anti-PD1 or Anti-PD1 in combination with chemotherapy (Anti-PD1+CT) in the first line setting. Non-invasive biomarkers were analysed using peripheral blood samples, which were obtained before first cycle and at first response assessment. The potential biomarkers analysed in this study were: i) haematological and immunological parameters, ii) immune-related gene expression analysed on Peripheral Blood Mononuclear Cells (PBMCs), iii) TCR-ß repertoire, and iv) HLA genotype. 13 healthy subjects were also included in this study. NSCLC patients presented lower T cell related gene expression levels than controls. Furthermore, cancer patients had a lower number of unique TCR-ß clones. We have assessed the predictive and prognostic value of the analysed variables independently on patients treated with anti-PD1 or anti-PD1+CT. We found prognostic biomarkers that could be useful to identify patients who benefit from treatment. Since we used non-invasive samples, we also observed differences in immune-related biomarkers at first response assessment in patients responding to treatment. In addition, biomarker dynamics were useful to identify changes occurring throughout treatment. The integration of data from the analysed variables has resulted in a proposal of a multivariate model capable of predicting patients with improved outcomes to treatment with anti PD1 therapy. Moreover, we have developed two non-invasive inmunograms including the ratios of on- and pre-treatment samples, which could be useful to monitor patients throughout treatment. Altogether, this study highlights the role of non-invasive biomarkers to characterize and monitor immune status in NSCLC patients treated with immunotherapy or chemoimmunotherapy. / This Thesis was supported by the following grants: Fundación Científica Asociación Española Contra el Cáncer. PRDVA18015MORE; Centro de Investigación Biomédica en Red Cáncer. Project B16/12/00350 e Instituto de Salud Carlos III: PI18/00266 / Moreno Manuel, A. (2024). Non-Invasive Immunogram. A Multidimensional Approach to Characterize and Monitor Immune Status in Non-Small Cell Lung Cancer [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/204490

TCR repertoire

HLA genotype

Non-small cell lung cancer

Immunotherapy

Chemoimmunotherapy

Anti-PD1

NSCLC

Liquid biopsy

Biomarkers

Immune checkpoints

BIOLOGIA CELULAR