Investigating the neuropilin 2/semaphorin 3F pathway in melanocytes, melanoma, and associated therapies

Rivet, Colin

03 July 2018

INTRODUCTION: Melanoma is the most deadly skin cancer with mortality dependent on the extent and location of metastases. Lymphatic metastasis occurs early in melanoma, and tumor-associated lymphatic vessel area correlates with melanoma progression. Recently, the discovery of checkpoint inhibitors has drastically changed the treatment strategy and survival rates in melanoma. Neuropilin-2 (NRP2) is a potential common target in melanoma cells, tumor-associated lymphatic endothelial cells (LECs) and tumor-infiltrating lymphocytes (TILs). NRP2 is a cell surface receptor with competing stimulatory ligands (VEGF-A/-C) and inhibitory ligands (SEMA3F/G). AIM: The goal of this study was to investigate the role of NRP2 in both melanoma cells and the melanoma microenvironment (LECs, TILs) and to examine the effect of semaphorin 3F (SEMA3F) on the tumor cells as well as an immune modulator. RESULTS: Mouse and human melanocytes expressed NRP2 but not other vascular endothelial growth factor (VEGF) receptor tyrosine kinases in vitro and in vivo. NRP2 protein expression, as analyzed by immunohistochemistry, was upregulated in human metastatic melanoma sections. Treatment of melanoma cells in vitro with SEMA3F inhibited migration and phosphorylation of protein kinase B (AKT) but did not inhibit cell viability. SEMA3F also increased programmed cell death-ligand 1 (PD-L1) expression in melanoma. Syngeneic B16F10 melanoma did not grow in global NRP2 knockout (KO) mice but did grow in wild-type mice. In addition, mice inoculated with B16F10 were treated with SEMA3F or phosphate-buffered saline (PBS) by mini-osmotic pumps. Resulting tumors were analyzed histologically for microvessel density and presence of TILs (number and subtype). CONCLUSIONS: Expression of NRP2 protein positively correlated with melanoma progression in human patient samples. NRP2 functions differently in melanoma tumor cells than in host stromal cells (endothelial cells [ECs], LECs). In melanoma, NRP2 is not a VEGF receptor but responds to the ligand, SEMA3F. Alternately, NRP2 appears to be an important VEGF-A/-C co-receptor in tumor-associated angiogenesis and lymphangiogenesis, as demonstrated in the NRP2 transgenic mice studies. SEMA3F inhibited tumor cell migration but increased PD-L1 expression. Systemic treatment with purified SEMA3F protein in melanoma preclinical trials inhibited melanoma growth and microvessel density. Taken together, these results suggest that exploiting the NRP2/SEMA3F signaling axis may be a novel treatment strategy to be used in combination with existing immunotherapy in melanoma. / 2020-07-03T00:00:00Z

Biochemistry

Angiogenesis

Cancer

Immunotherapy

PD-L1

Drug development

Tumor infiltrating lymphocytes

Tumor-infiltrující T buňky a jejich role v adoptivní buněčné imunoterapii nádorových onemocnění / Tumor-infiltrating T cells and their role in adoptive cell immunotherapy of cancer

Střížová, Zuzana

January 2020

Cancer immunotherapy has become a leading treatment modality in metastatic diseases. Although this novel therapy has changed the therapeutic algorithms and patients' outcomes in multiple malignancies, certain proportions of patients still fail to respond to these approaches. In our studies, we aimed to address the main mechanisms of tumor resistance to cancer immunotherapy. We have systematically defined the main challenges in adoptive cell transfer. We have focused on two key mechanisms of the tumor resistance to immunotherapy: poor trafficking of adoptively transferred immune cells into tumors, and the death receptor-induced apoptosis of the tumor-infiltrating immune cells. In our work, we have gone beyond the tumor tissue and searched for the immune cell populations and novel targets that would help to challenge the two mechanisms of resistance. Our data uncovered the therapeutic potential of the paratumoral tissue compartments and, thus, provided new avenues on how to challenge solid tumors by immunotherapy.

The role of the transcription factor FOXP1 in the immune response to breast cancer

De Silva, Jasenthu L. P.

23 January 2018

Breast cancer (BC) was not initially considered an immunogenic tumor; however, recent data show that immune-related factors are associated with patient prognosis and the response to treatment. Several large adjuvant clinical trials have shown that tumor infiltrating lymphocytes (TIL) are significantly associated with a better prognosis and can also predict responsiveness to pre-operative chemotherapy, particularly in the triple negative (TN) & HER2+ BC subtypes (Carsten Denkert et al. 2010; Loi et al. 2013a). Recently, the presence of ectopic lymph node-like structures characterized by distinct T and B cell zones, called tertiary lymphoid structures (TLS), were identified adjacent to the tumor (Gu-Trantien et al. 2013) in 60% of BC (Buisseret et al. 2017b) and linked with a good prognosis (Gu-Trantien et al. 2013). The mechanisms involved in TLS formation and activities and their impact on tumor immunity is relatively unknown. TIL infiltration and TLS formation are likely regulated, in part, by transcription factors (TF) that control cytokine/chemokine production within the tumor microenvironment (TME) (Pimenta and Barnes, 2014). One such TF, the forkhead box protein 1 (FOXP1) is abnormally expressed in various human tumors and has a known role in regulating immune cell functions. Contradictory data on FOXP1 expression together with a lack of information on its immune regulation led us to explore its role in this tumor type. The first part of this thesis research focused on FOXP1-mediated regulation in BC. Gene/protein analysis was examined in the four BC molecular subtypes, revealing its enriched expression in estrogen receptor positive (ER+) tumors (Luminal A/B). Luminal BC is generally less infiltrated compared with frequently high TIL infiltration in ER negative (ER-) tumors (i.e. HER2+ and TN) [reviewed in (Solinas et al. 2017a) and (Loi et al. 2014)]. We found that high FOXP1 expression in a cohort of untreated primary BC was significantly associated with a lower TIL and fewer TLS compared to FOXP1 low (FOXP1lo) tumors. This observation led us to investigate the effect of FOXP1 on cytokines and chemokines potentially involved in TIL recruitment and/or TLS formation. BC cancer cell lines were used to silence [MCF7; FOXP1hi] or overexpress [MDA-MB-231; FOXP1lo] FOXP1 expression. FOXP1 repression upregulated a number of cytokines and chemokines involved in T and B cell migration and function, while FOXP1 overexpression repressed a majority of the same factors. Expression analysis of the major T and B cell cytokine and chemokine genes was performed for FOXP1lo and FOXP1hi primary BC. These data reveal that FOXP1hi BCs have significant decreases in CXCL9, CXCL10, CXCL11, CXCL13, CX3CL1, CCL20, IL2, IL21, granzyme B and IFNγ and high levels of the immunosuppressive cytokines, IL10 and TGFβ. We next performed a lymphocyte migration assay using primary tumor supernatants prepared from FOXP1lo and FOXP1hi BC finding significantly decreased migration of total CD45+ lymphocytes, B cells, helper (CD4+) and cytotoxic (CD8+) T cells using FOXP1hi compared to FOXP1lo SN. Overall, our data suggest that FOXP1 plays an important role in repressing anti-tumor immune responses by negatively regulating TIL migration directed by specific cytokines and chemokines.The second part of this thesis research focused on the role FOXP1 plays in BC TLS. FOXP1 expression in T and B cell TIL and TLS was evaluated using RT-qPCR, multicolor flow cytometry, immunofluorescence (IF) and immunohistochemistry (IHC) and fresh, fixed and frozen breast tissues. Based on the FOXP1 expression two types of TLS were identified in BC: 1) TLS containing a germinal center (GC-TLS) and 2) TLS lacking a GC (non-GC-TLS). Examination of proteins specifically associated with active humoral immune responses allowed us to identify GC-TLS but not non-GC-TLS as functional. Gene expression analysis of micro-dissected tissues revealed distinct immune profiles that characterize B cell follicles in tonsils and spleen as well as aggregates, non-GC-TLS and GC-TLS in BC. This analysis further demonstrates that ongoing cell-mediated immune responses are associated with GC-TLS. The findings from this thesis research add important information to our understanding of how immune responses are initiated and maintained in BC and provide further insight into the identification and organization of functional immune responses at the tumor site. / Doctorat en Sciences biomédicales et pharmaceutiques (Médecine) / info:eu-repo/semantics/nonPublished

Immunologie

Cancérologie

Biologie moléculaire

Apoptosis and apoptosis regulating proteins and factors in small and large cell lung carcinoma

Eerola, A.-K. (Anna-Kaisa)

30 September 1999

Abstract Aptosis denotes a biochemically and morphologically distinct chain of events leading to self-destruction of cell. It is pivotal in the maintenance of tissue homeostasis and also plays a role in neoplasm. In this work, the extent of apoptosis and apoptosis regulating proteins and factors was studied in a total of 94 patients operated for lung carcinoma, including 56 small cell lung carcinomas (SCLC) and 38 large cell lung carcinomas (LCLC). The extent of apoptosis was determined by detecting and counting the relative and absolute numbers of apoptotic cells and bodies using 3'- end labelling of the apoptotic DNA. The extent of apoptosis in SCLC was compared with the cell proliferation activity as determined by Ki-67 immunohistochemistry, with the volume density of necrosis and with the occurrence of immunohistochemically detectable p53 and bcl-2 proteins. In order to test the hypothesis that increased apoptotic activity is connected with neuroendocrine differentiation and with low differentiation degree in LCLC and that it is regulated by bcl-2 family proteins, the extent of apoptosis and tumour necrosis was analysed in relation to the expression of bcl-2 family proteins bcl-2, mcl-1, bax and bak. Apoptosis, tumour infiltrating lymphocytes (TILs), and angiogenesis are important factors that contribute to tumour growth. In the present study immunohistochemical methods were used to investigate the relationships of these factors and their role in the prognosis of the patients with LCLC and SCLC. A remarkably high apoptotic activity was detected in both SCLC and LCLC. The mean apoptotic index in SCLC was 2.70 % and in LCLC 2.49 %. Exceptionally high proliferation activity and high percentage of tumour necrosis was seen in SCLC. 58 % of SCLC showed more than 40 % of Ki-67 positive nuclei, and tumour necrosis was seen in 83 % of the cases. P53 protein accumulation was detected in 38 % and bcl-2 expression in 50 % of SCLC. The extent of apoptosis in SCLC was inversely related to tumour necrosis and p53 protein accumulation. In LCLC, bcl-2 expression was detected in 40 % of the cases. It was associated with neuroendocrine differentiation and predicted favourable prognosis of the patients. A high number of T cells and macrophages with a small number of B cells was detected in both SCLC and LCLC. The occurrence of intratumoural cytotoxic CD8 cells was associated with the occurrence of apoptotic bodies in SCLC. The increased number of intratumoural T cells, CD8-positive cells and macrophages predicted favourable prognosis of the patients with SCLC. In LCLC, an increased number of B cells and macrophages, but not T cells, was associated with better survival. Iaddition to tumour cells, numerous apoptotic bodies could also be found within alveolar macrophages within and close to tumour tissue. In order to test whether such cells could be found in sputum smears and if their presence could be utilised as a marker of malignancy in tumour diagnosis, the occurrence of alveolar macrophages with apoptotic bodies (AMWABs) was analysed in 84 sputum samples and 13 broncho-alveolar lavage (BAL) specimens from patients with and without lung carcinoma. AMWABs could be found in cytological samples of the patients with lung carcinoma. In sputum and BAL specimens, enhanced apoptosis, as measured by an increased number of AMWABs reflected and was indicative of malignancy. This was also true for cytological specimens of the patients even when the actual malignant cells were not found. Therefore the AMWABs served as a marker of pulmonary malignancy.

large cell lung carcinoma (LCLC)

samll cell lung carcinoma (SCLC)

tumour infiltrating lymphocytes (TILs)

Prognostic markers in oropharyngeal cancers

Oguejiofor, Kenneth Kenechukwu

January 2016

Introduction: Human papillomavirus (HPV) is changing the prevalence, survival and treatment paradigms in oropharyngeal squamous cell carcinoma (OPSCC). Improved survival of patients with HPV positive compared to HPV negative OPSCC has led to trials of treatment de-escalation. Current HPV detection methods are imprecise, therefore standardised assessment of transcriptionally active HPV in OPSCC is required. Furthermore, the differences in immune characteristics and/or the hypoxia response/effects could explain observed differences in prognosis between HPV positive and negative OPSCC. Rigorous HPV detection and subsequent biomarker evaluation should provide additional information required before introduction of treatment de-escalation in broad patient groupings. Methods: The study cohort was 218 patients with OPSCC who received radiotherapy with curative intent. HPV status was determined on pre-treatment, formalin-fixed paraffin-embedded blocks using: 1) polymerase chain reaction (PCR); 2) in-situ hybridisation (ISH) and 3) immuno-histochemistry (IHC). QuantiGene multiplex assay was designed to detect mRNA of reference sequences of the common high-risk HPV types (16, 18, 33, 35, 45, 52 and 58). HPV detection methods were compared with mRNA quantification. Multimarker IHC of immune cell markers using chromogenic and fluorescent staining was performed, analysed and compared with single marker IHC using automated multispectral image analysis. A validated multiplex IHC method was used for a) chromogenic (CD3, CD4, CD8, and FoxP3) and b) fluorescent (CD8, CD68 and PD1/PD-L1) evaluation in tumour and stroma compartments. Single marker IHC was used to investigate tumour hypoxia markers (HIF-1α and CA-IX) in HPV positive and negative OPSCC. Results: p16 IHC and ISH were the most sensitive and specific, respectively, for classifying HPV status. The combination of the three tests had the highest positive/negative predictive values compared with QuantiGene mRNA detection. Multiplex validation showed that, for serial sections up to 6 μm apart, there were highly significant correlations (P<0.0001) between single and multiplex counts for both chromogenic and fluorescent IHC. Overall there was less variation in cell counts with fluorescent staining when compared to chromogenic staining. Multiplex IHC of TILs in HPV positive and negative OPSCC showed higher infiltration in both tumour and stromal areas of CD3+CD4+ and CD3+CD8+ T cells but not CD4+FoxP3 Tregs in HPV positive compared with HPV negative OPSCC. Only CD3+CD8+ stromal and not tumour area infiltration was associated with increased survival (P=0.02). PD-L1 expression was higher in HPV negative OPSCC and this was related to macrophage (CD68) expression of PD-L1. In HPV negative tumours infiltration with CD68+PD-L1 was associated with a good prognosis. HPV negative patients had higher expression of HIF-1α but not CA-IX. High expression of both markers was associated with a poor prognosis irrespective of HPV status. Conclusions: There are other prognostic factors operating in the larger subdivision of HPV positive and negative OPSCC. Precise HPV detection and inclusion of other prognostic factors is required before treatment de-escalation is used. Expression of immune inhibitory factors (PD1/PD-L1) alone without contextualisation with immune cell density is insufficient for patient prognostication and potential selection for therapy using immune checkpoint inhibitors. Hypoxia modification of radiotherapy should be explored in both HPV positive and negative OPSCC.

616.99

Molecular basis of immunotolerance in canine neoplasia

Stevenson Salinas, Valentina Beatriz

30 January 2023

Melanoma is a highly malignant neoplasia with high rates of metastasis in humans and dogs. Regardless of being considered a highly immunogenic neoplasm, the function of the immune system is hampered by the expression of immune checkpoint molecules by the cancer cells. In contrast, soft tissue sarcomas are poorly immunogenic, as Tumor infiltrating Lymphocytes are lacking, or when present they are usually at the periphery of the tumor. Still, soft tissue sarcomas are considered immunosuppressed. Checkpoint molecules from the PD-axis are overexpressed in numerous human malignant neoplasia and have recently gained attention with a few reports in canine tumors. Immunotherapies against these checkpoint molecules have shown great efficacy in humans, but in order to determine translational approaches into canine patients, more research is needed. Here we determined the gene expression of Programed Death receptor-1, and its ligands PD-L1 and PD-L2 in canine tumors with two distinct immune profiles. Our results show that regardless of their immune profiles, melanoma versus soft tissue sarcoma, checkpoint molecules expression was higher in malignant tumors with a higher grade. Additionally, we evaluated the expression of these molecules in a set of patients that received histotripsy, which is a non-invasive and non-thermal ultrasound focused therapy that induces mechanical stress to the cells, leading to liquefactive necrosis. Here we reported a focal decrease of the expression of these checkpoint molecules in tissue sections obtain at the treatment interface, compared to those taken from untreated areas of the tumor. In addition, a positive relationship was noticed between the infiltration of CD3+ T lymphocytes and the expression of these checkpoint molecules in both canine melanoma, and soft tissue sarcoma. Our findings demonstrate that immunotherapies targeting these checkpoint molecules have a great potential for efficacy in canine neoplasia, along or combined with tumor ablation therapies that increased immune cell infiltration in poorly immunogenic neoplasia. / Doctor of Philosophy / Melanoma is a highly malignant tumor and very resistant to therapy for humans and dogs. At the same time, this neoplasia is usually highly infiltrated by cells from the immune system. However, this immune infiltration is often inhibited by molecules expressed by the melanoma cells. In contrast, soft tissue sarcoma is considered poorly immunogenic, as they often contain low levels of immune cell infiltrates but are still considered immune suppressed. In this study, we determined the expression of molecules that inhibit the effect of T lymphocytes, specifically Programed cell death receptor-1, PD-Ligand 1, and PD-Ligand 2 for these neoplasms with distinct immune profiles. We encounter that despite their immune profiles, the expression of these molecules is higher in malignant tumors. Additionally, we evaluated the expression of these molecules in a set of patients that received histotripsy, which is a non-invasive and non-thermal focused ultrasound therapy that induces mechanical stress to the cancerigenous cells, leading to its death (necrosis). Here we reported a focal decrease of the expression of these checkpoint molecules in tissue sections obtain at the treatment interface, compared to those taken from untreated areas of the tumor. In addition, a positive relationship was noticed between the infiltration of T lymphocytes and the expression of these checkpoint molecules in both canine melanoma, and soft tissue sarcoma. Our findings demonstrate that immunotherapies targeting these checkpoint molecules have a great potential for efficacy in canine neoplasms, along or combined with tumor ablation therapies that increased immune cell infiltration in poorly immunogenic neoplasia.

Comparative oncology

checkpoint molecules

canine melanoma

canine soft tissue sarcoma

PD-1

PD-L1

PD-L2

Tumor infiltrating lymphocytes.

More efficient use of HER targeting agents in cancer therapy

Honkanen, T. (Tiia)

08 October 2019

Abstract Cancer treatments have remarkably improved over the past years since targeted therapies and immunotherapy have been introduced to the field of oncology. The benefit of these new therapies is often limited, however, by de novo or acquired therapy resistances, which should be noticed when making clinical decisions. In this current work, we studied the prognostic and predictive values of several immunological markers in metastatic HER2-positive breast cancer treated with trastuzumab, because trastuzumab is still given to patients according to the HER2 status only, without certainty of tumor response. We also determined the role of HER2 and HER3 for cancer stem cells (CSC) in ALK translocated non-small cell lung cancer (NSCLC) cell lines since the CSCs are causing therapy resistance and cancer recurrence. The results demonstrated that a high number of cytotoxic T cells, together with a high number of M1-like macrophages in the center of the tumor (CT), are promising and independent prognostic factors in HER2-positive breast cancer. These markers together also can predict the progression of the disease and the length of trastuzumab discontinuation in tumor response. Expression of HER2 and HER3 increased the stem-like properties of ALK translocated NSCLC cells, which were decreased when the expressions were downregulated. HER2-HER3-dependent CSCs also mediated the ALK therapy resistance. In conclusion, this study suggests that patients with a favorable immunological tumor profile (high number of cytotoxic T cells and M1-like macrophages in the CT) could be treated in a less-intensive manner, that trastuzumab discontinuation could be feasible for these patients, and that targeting of HER2 and HER3 receptors can lead to more effective killing of cancer stem-like cells and should be further studied. / Tiivistelmä Syöpähoidot ovat kehittyneet huomattavasti, kun kohdennetut hoidot ja immunologiset hoidot ovat tulleet perinteisten hoitojen rinnalle. Usein näiden hoitojen hyötyä kuitenkin rajoittaa jo olemassa oleva lääkeresistenssi tai sen kehittyminen, mikä tulisi ottaa huomioon hoitoja suunniteltaessa. Tässä työssä tutkittiin immunologisia merkkiaineita, joilla voitaisiin ennustaa trastutsumabi-hoidon vastetta sekä potilaiden ennustetta levinneessä HER2-positiivisessa rintasyövässä. Tällä hetkellä trastutsumabi-hoitopäätös tehdään pelkän HER2-geenimonistuman mukaan ilman varmuutta siitä, hyötyykö potilas oikeasti hoidosta. Lisäksi tutkimme HER2- ja HER3-reseptorien merkitystä syövän kantasoluille ALK-translokoituneessa ei-pienisoluisessa keuhkosyövässä (NSCLC), sillä syövän kantasolut ovat yksi merkittävimmistä tekijöistä lääkeresistenssin kehittymisessä ja syövän uusiutumisessa. Työssä havaittiin, että kasvaimen keskellä oleva suuri määrä sytotoksisia T-soluja sekä M1-tyypin makrofageja on yhteydessä potilaiden parempaan ennusteeseen ja että kyseiset merkkiaineet ovat toisistaan riippumattomia. Merkkiaineet pystyivät ennustamaan myös taudin etenemistä sekä trastutsumabi-hoitokeskeytyksen pituutta. HER2- ja HER3-proteiinien tuotto lisäsi ALK-translokoituneiden NSCLC-solujen kantasolumaisia ominaisuuksia, jotka puolestaan vähenivät, kun proteiinien tuotto estettiin. Lisäksi HER2-HER3 -riippuvaiset syövän kantasolut säätelivät lääkeresistenssiä kyseisessä taudissa. Työn tulokset viittaavat siihen, että potilaita, joilla on suotuisa kasvaimen immunoprofiili (suuri määrä sytotoksisia T-soluja ja M1-tyypin makrofageja kasvaimen keskellä) pystyttäisiin hoitamaan keveimmillä hoidoilla ja HER2-hoitokeskeytys voisi olla mahdollinen näillä potilailla. Lisäksi työ korostaa HER2- ja HER3-reseptorien kohdentamista syövän kantasolumaisten solujen tehokkaamman tuhoamisen saavuttamiseksi. / Huomautus/Notice Painetussa virheelliset ISBN -tunnukset: ISBN (print) 978-952-42-2343-8 pitäisi olla 978-952-62-2343-8. ISBN (PDF) 978-952-42-2344-5 pitäisi olla 978-952-62-2344-5. Printed version has incorrect ISBNs: ISBN (print) 978-952-42-2343-8 it should be 978-952-62-2343-8. ISBN (PDF) 978-952-42-2344-5 it should be 978-952-62-2344-5.

breast cancer

cancer stem cell

trastuzumab

tumor-infiltrating lymphocytes

kasvaimeen infiltroituneet lymfosyytit

rintasyöpä

syövän kantasolut

trastutsumabi

ALK

ERBB

HER2

HER3

NSCLC

CD8+FoxP3+ T cells: A new player in the immune response to ovarian cancer

Kost, Sara E. F.

28 November 2013

Introduction Tumour-infiltrating lymphocytes (TIL) are an important prognostic indicator in high-grade serous ovarian carcinoma (HGSC). Certain types of TIL (in particular CD8+ effector T cells) predict better outcomes, whereas others (most notably CD4+CD25+FoxP3+ regulatory T cells; Tregs) predict worse outcomes. An unconventional subset of CD8+FoxP3+ T cells has been reported to be involved in autoimmunity and in immune response to several cancers. While the functional significance of CD8+FoxP3+ TIL remains poorly understood, they were associated with effective anti-tumour responses in a murine tumour model. Hypothesis CD8+FoxP3+ TIL are present in a subset of cases of HGSC and correlate with a strong immune response and increased patient survival. Experimental Design Multi-colour immunohistochemistry (IHC) was performed on a cohort of 44 primary HGSC specimens to enumerate and locate CD8+FoxP3+ TIL in comparison to CD8+FoxP3- and CD8-FoxP3+ TIL. Triple-colour IHC methodology was developed to further assess the phenotype of CD8+FoxP3+ TIL, including the measurement of additional markers CD4 and CD25 (classical markers of Tregs), Ki-67 (a marker of proliferation), and TIA-1 (a marker of cytotoxic potential). Intraepithelial versus stromal location was determined by staining adjacent sections for the epithelial marker pan-cytokeratin. Survival analysis was performed using a cohort of 188 cases of HGSC. Multi-colour staining was resolved using the Nuance™ multispectral imaging system in conjunction with Metamorph™ software. Survival analysis was performed using Kaplan-Meier and log rank tests. Results CD8+FoxP3+ cells were found in 60% of 44 cases of HGSC, in variable proportions ranging from 0.2 - 7.9% of CD8+ TIL and 0.5 – 12.7% of FoxP3+ TIL. CD8+FoxP3+ TIL were found to be either CD4+ (38.8%) or CD4- (61.2%). The majority of CD8+FoxP3+ TIL were also found to be CD25-TIA-1+Ki-67-, more closely resembling their CD8+FoxP3- counterparts. CD8+FoxP3+ TIL were found mainly in intraepithelial regions and were positively associated with patient survival (progression free survival; P = 0.0396). Conclusions CD8+FoxP3+ TIL are a component of the host immune response to HGSC. They appear to have a non-proliferative effector phenotype, consistent with an active role in the anti-tumour response. CD8+FoxP3+ TIL are associated with increased patient survival. An improved understanding of this new TIL subset may inform future immunotherapeutic strategies for this challenging malignancy. / Graduate / 0982 / sarakost@hotmail.com

Immunology

Cancer

T regulatory cell

Cytotoxic T cell

CD8+FoxP3+ T cells

Multi-colour Immunohistochemistry

Ovarian cancer

FoxP3

Tumour infiltrating lymphocytes

Úloha imunitního systému u kolorektálního a ovariálního karcinomu / The role of the immune system in colorectal and ovarian cancer

Kocián, Petr

January 2013

Prediction of clinical outcome in cancer is usually achieved by histopathological evaluation of tissue samples obtained during surgical resection of the primary tumor. Traditional tumor staging (AJCC/UICC-TNM classification) summarizes data on tumor burden (T), presence of cancer cells in draining and regional lymph nodes (N) and evidence for metastases (M). However, it is now recognized that clinical outcome cansignificantly vary among patients within the same stage. Data collected from largecohorts of human cancers has demonstrated the impact of immune-classification, which has a prognostic value that may add largely to the significance of the AJCC/UICC TNM-classification. In our study we examined the immune cells that infiltrated the tumor tissues of colorectal and ovarian cancer patients. In a cohort of newly diagnosed colorectal cancer patients we examined the correlations between the KRAS mutational status, patterns of tumor-infiltrating immune cells and the presence of tumor recurrence. Our data suggest that colorectal cancer patients with low levels of tumor-infiltrating lymphocytes, a high CD1a/DC-LAMP tumor-infiltrating dendritic cells ratio, and a KRAS mutation in codon 13 are at a high risk of disease recurrence. In ovarian cancer patients we focused on the dynamics of the tumor-infiltrating...

L'impact de l'infiltration lymphocytaire sur le pronostic de l'adénocarcinome du pancréas

McNicoll, Yannic

06 1900

L’objectif principal de cette étude est de déterminer la valeur pronostique de l’infiltrat lymphocytaire dans l’adénocarcinome du pancréas. Les densités des lymphocytes T CD3+, CD4+, CD8+, FOXP3+ et CD45RO+ intratumoraux (T) et péritumoraux (PT) de 111 spécimens ont été mesurées avec des micromatrices tissulaires. Un Index Lymphocytaire (IL) a été créé basé sur les valeurs des CD4+ T, CD8+ PT et le ratio CD3+ T/PT regroupant les patients selon que les tumeurs présentaient aucune (IL---), 1 à 2 (IL+/-) ou les 3 caractéristiques immunitaires favorables (IL+++). La survie médiane des patients atteints d’un cancer du pancréas est significativement différente selon la catégorie d’index lymphocytaire; elle était de 14 mois pour IL---, de 19 mois pour IL +/- et de 29 mois pour IL+++ (p=0,01). L’IL est un facteur indépendant de survie en analyse multivariée ainsi que la différenciation tumorale et l’utilisation d’un traitement adjuvant. L’IL est un facteur pronostique de survie des adénocarcinomes du pancréas réséqués et devrait pouvoir permettre une meilleure classification des patients. / The main objective of this project was to determine the prognostic significance of T-lymphocytes densities in pancreatic adenocarcinoma. Using tissue microarrays, CD3+, CD4+, CD8+, CD45RO+, and FOXP3 T-cells were quantified by immunohistochemistry in the intratumoral (T) and peritumoral (PT) compartments of 111 specimens. An immune score (IS) based on T CD4+ and PT CD8+ counts and T/PT CD3+ ratio grouped patients into IS---, IS+/- and IS+++ if none, 1 or 2, or all 3 of the favorable immune features were present, respectively. Patients have different overall survival (OS) depending on their IS status. Patients IS--- have a median OS of 14 months and of 19 months and 29 months for those IS+/- and IS+++ respectively (log-rank p=0.01). By multivariate analysis, IS was independently associated with survival as were the histological grade and adjuvant therapy. An immune score that combines specific T-cell location and density may have prognostic value in patients with resected pancreatic adenocarcinoma, independently from current pathologic features.

lymphocytes infiltrants

lymphocytes T

cancer du pancréas

marqueur moléculaire

biomarqueur

immunothérapie

facteur pronostique

antigènes tumoraux

tumour-infiltrating lymphocytes

T-lymphocytes

pancreatic neoplasms

immunotherapy

immune score

prognosis

tumour antigen