Global ETD Search

311	Development of a human in-vitro pathophysiological model of FUS-ALS based on the induced pluripotent stem-cell technique and translation to patient phenotypes Naumann, Marcel Günter 24 September 2021 (has links) Background: The submitted cumulative dissertation is based on two intertwined main studies with biomolecular foundation and clinical perspective on FUS-ALS complemented by two follow-up projects. This subtype of Amyotrophic lateral sclerosis is caused by heterozygous mutations mainly in the NLS of the FUS gene, which interferes with the proper nuclear import of the gene product. To date, there is no sufficient therapy available for this devastating neurodegenerative disease due to an incomplete pathophysiological understanding. Furthermore, not much is known about the specific clinical phenotype of FUS-ALS patients, including the influence of distinct FUS mutations due to the rarity of the disease. FUS is a DNA/RNA-binding protein that is mainly located in the nucleus and has essential functions in splicing, mRNA transport, transcription, and DNA damage repair. Hypothesis:1. It was hypothesized that the human-induced pluripotent stem-cell technique enables to create a sufficient motor neuron in-vitro cell model, which should provide new insights into unknown pathophysiological processes compared to previous cell models of FUS-ALS due to its patient-specific and human character. Thus, screening for potential therapeutic substances should be feasible using this model system. 2. Judging from the previously demonstrated, essential function of FUS in the DNA damage repair, FUS mutations are expected to increase the risk of malignant diseases in affected patients. Moreover, specific correlations between the nature of the mutation and the clinical, neurological phenotype appear plausible.Material & methods: First, an in-vitro cell culture model of FUS-ALS was established. For this purpose, a patient-specific, induced pluripotent stem cell-derived sMN culture was generated, which contained spinal motor neurons with mutations in the gene FUS or WT control cells. The Microfluidic Chamber system was used for the selective analysis of axons, which enabled the live-cell imaging of lysosomes and mitochondria using TIRF microscopy. For the analysis of DNA damage and its repair, gamma-H2A.X immunofluorescence staining was used on the one hand and live-cell laser ablation microscopy on the other, which allowed the precise induction of DNA damage and the monitoring of the repair response. For this purpose, isogenic FUS-GFP cell lines generated via CRISPR-Cas9n were used. A multicentre, retrospective cross-sectional study was conducted to determine genotype-phenotype correlations and the prevalence of malignant neoplasms in FUS-ALS. Previously published FUS-ALS cases have been added to perform a meta-analysis of clinical features.Results: Primarily, correct neuronal differentiation was observed prior to neurodegenerative phenotypes, perfectly mimicking a neurodegenerative disease in the dish. The typical cellular pathology of cytoplasmatic FUS deposition could be reproduced, making it a suitable model for more in-depth pathophysiological studies. Furthermore, the use of Microfluidic Chambers enabled the guided cultivation of neurons with somato-axonal direction of neurite outgrow along tiny microchannels in silico, resulting in a pure motoneuronal, axonal model. Within the distal axonal compartment of these channels, a loss of motility of both lysosomes and mitochondria was observed in parallel with a loss of the mitochondrial membrane potential, followed by the secondary degeneration of the distal axons of the sMNs with FUS mutation. A pathological increase in nuclear DNA damage has been identified as the cause of the distal-axonal phenotypes. This was due to a reduced nuclear FUS abundance as a result of the FUS-NLS mutation, which impaired proper nuclear import. There was evidence of a vicious cycle in this setting because the loss of the nuclear function of FUS disrupted the proper PAR-dependent DNA damage response, resulting in sustained DNA damage. Moreover, the remaining nuclear FUS was transferred into the cytoplasm upon phosphorylation by DNA-PK in a DNA damage response dependent manner, which is to date a process of unclear biological relevance. However, pharmacological inhibition of either the degradation of the PAR biopolymer or DNA-PK improved the nuclear presence of mutant FUS, restored its function in the DNA damage response, and finally prevented the distal axonal phenotype. Furthermore, the multicentric cohort study included 36 newly diagnosed patients. Only one in 40 patients was diagnosed with a malignant disease. By combining the newly diagnosed patients with previously published cases (186 cases in total), the so far most comprehensive database of FUS-ALS patients has been created. This allowed a thorough genotype-phenotype analysis, which showed a clear correlation between individual FUS mutations and the clinical phenotype. Conclusion: The experimental results indicated a primary nuclear insufficiency of mutated FUS, which is due to an impaired nuclear import and leads to a secondary axonal degeneration and finally to neuronal demise (“Dying-Back”). Potential therapeutic options have been identified, but their applicability and safety must be determined in prospective studies. The hypothesis of a generally increased risk of malignant diseases in the analysed FUS-ALS patient group was rejected. However, the clinical data of the meta-analysis are helpful in the counselling of newly diagnosed FUS-ALS patients, including the decision making of the therapeutic management and clearly add FUS-ALS to the family of diseases characterised by deficient DNA damage repair with purely neurological phenotypes such as AOA1, AOA2, and SCAN1. info:eu-repo/classification/ddc/610 ddc:610
312	Molecular Profiling in Pediatric Oncology – the MOSCATO-01 Experience // Characterization of SMARCB1-Altered Soft Tissue Sarcomas in Response to Pharmacological HDAC Inhibition / Profilage moléculaire en oncologie pédiatrique – expérience de l'essai MOSCATO-01 // Caractérisation des sarcomes des tissus mous présentant des altérations de SMARCB1 traités par des inhibiteurs des HDAC Harttrampf, Anne Catherine 10 December 2018 (has links) 1ère partie: Bien que les patients pédiatriques présentent généralement des taux de survie élevés, environ 20% d’entre eux ne peuvent être guéris avec des approches thérapeutiques standards, principalement ceux souffrant de sarcomes métastatiques, neuroblastomes, tumeurs cérébrales et tumeurs rares. Afin d’établir de nouvelles modalités thérapeutiques en identifiant des facteurs moléculaires qui puissent être ciblés par des approches pharmacologiques, les essais cliniques MOSCATO-01 (Molecular Screening for Cancer Treatment Optimization, NCT01566019) et MAPPYACTS (NCT02613962) ont été respectivement initiés en 2011 et en 2016. Une caractérisation moléculaire systématique des biopsies tumorales de patients avec des tumeurs réfractaires ou en rechute a été réalisée afin de pouvoir proposer des traitements ciblés. Chez 75 patients pédiatriques inclus dans MOSCATO-01 avec des cancers solides comprenant des tumeurs cérébrales, nous avons mis en oeuvre des approches d’hybridation génomique comparée (CGH), de séquençage d’un panel de mutations présélectionnées et de séquençage des exomes et transcrits. Des altérations génomiques pouvant être ciblées ont été identifiées dans 60% des cas, incluant des variations du nombre de copies (42%), des mutations (33%), et des transcrits de fusion (2%). Ces altérations affectent des voies de signalisation oncogéniques majeures, incluant des récepteurs tyrosine kinases et leurs cibles. Des mutations germinales ont été identifiées chez 10% des patients. Quatorze patients ont reçu 17 traitements ciblés; une réponse objective ou une maladie sans progression a été observée chez 5 patients. Nos résultats montrent qu’une approche de médecine de précision peut être envisagée et que des altérations ciblables sont présentes dans les cancers pédiatriques. Les obstacles à franchir concernent l’identification et la sélection des cibles, et la mise en pratique clinique des approches thérapeutiques.2ème partie: Les sarcomes épithélioïdes, des tumeurs très rares, affectent tous les groupes d’âge, dont les adolescents, et présentent à la fois des caractères épithéliaux et mésenchymateux. Comme les tumeurs rhabdoïdes affectant les jeunes enfants, les sarcomes épithélioïdes sont caractérisés par des altérations de SMARCB1, un membre central du complexe de remodelage de la chromatine SWI/SNF. Le phénotype agressif et l’implication fréquente des RTKs dans ces deux tumeurs ainsi que leur similarité (épi-)génétique nous ont conduit à approfondir les relations fonctionnelles entre la régulation des RTKs, la signalisation cellulaire, et les effets de la modulation épigénétique. Des lignées cellulaires de chacun des types de tumeurs ont été étudiées pour déterminer la réponse à l’inhibition pharmacologique des RTKs et des HDAC, ainsi que mTOR et EZH2. La sensibilité la plus grande in vitro a été observée avec le Panobinostat, un inhibiteur de HDAC. Le Panobinostat induit la mort cellulaire et inverse partiellement la transition épithéliale-mésenchymateuse, qui pourrait être corrélée à une régulation différentielle des RTKs EGFR et FGFR2. Comme souvent observé dans le traitement des tumeurs solides par les seuls inhibiteurs de HDAC, le Panobinostat est associé à une inhibition modérée de la croissance tumorale in vivo dans un modèle de sarcome épithélioïde. La combinaison de l’inhibition des HDAC et de l’EGFR augmente la sensibilité vis-à-vis de cette dernière à la fois dans les sarcomes épithélioïdes et les tumeurs rhabdoïdes et représente une stratégie prometteuse pour le traitement des tumeurs solides. / Part 1: Although pediatric cancer patients have high survival rates, 20% cannot be cured with standard therapeutic regimens, predominantly those with metastatic sarcomas, neuroblastomas, malignant brain tumors and rare tumor types. To provide a new rationale for treatment definition by identifying new molecular targets that can be pharmacologically addressed, the Molecular Screening for Cancer Treatment Optimization (MOSCATO-01/NCT01566019) and the MAPPYACTS (NCT02613962) trials are running at Gustave Roussy since 2011 and 2016, respectively. Patients with relapsed or refractory malignancies are undergoing biopsy or surgical intervention at treatment failure for molecular characterization that allows the suggestion of a targeted treatment. In 75 pediatric patients with solid malignancies including brain tumors included in MOSCATO-01, we developed further the initial CGHarray and targeted gene sequencing panel, to whole-exome and RNA sequencing which is currently employed in the international follow-up trial MAPPYACTS. Actionable genomic alterations were identified in 60%, representing a copy number change in 42%, a mutation in 33% and a fusion transcript in 2%. Pathway allocation showed that these targets mainly affected prominent oncogenic signaling pathways including receptor tyrosine kinases and associated downstream signaling. Germline alterations were identified in 10% of patients. Fourteen patients received 17 targeted treatment approaches; objective response or prolonged stable disease was seen in five patients. Our results showed that this approach is safe and feasible in minors and that actionable alterations are present. Significant challenges were encountered in pipeline workflows, target definition, interpretation and selection, and clinical implementation.Part 2: Epithelioid sarcoma is an exceedingly rare soft tissue sarcoma occuring in all age groups, including adolescents and displays both epithelial and mesenchymal features. As rhabdoid tumors, a deleterious entity affecting very young children, epithelioid sarcoma is characterized by alterations affecting core SWI/SNF chromatin remodeling complex member SMARCB1. The aggressive phenotype and frequent involvement of receptor tyrosine kinases in both epithelioid sarcoma and rhabdoid tumor as well as their (epi-)genetic parallels led us to take deeper insight into the relation between tyrosine kinase regulation, signaling and effects of epigenetic modulation. Cell lines of both tumor types were studied in order to determine response to pharmacological inhibition by receptor tyrosine kinase and HDAC inhibitors as well as by agents inhibiting mTOR and EZH2. Both tumor types displayed highest in-vitro sensitivity towards pan-HDAC inhibitor panobinostat. Panobinostat sufficiently induced cell death and partially reversed epithelial-to-mesenchymal transition which could be related to differential regulation of receptor tyrosine kinases EGFR and FGFR2. As often observed in treatment of solid tumors with single agent HDAC inhibitors, panobinostat led to slight tumor growth inhibition in an in-vivo epithelioid sarcoma model. The combination of HDAC and EGFR inhibition increased sensitivity towards the latter in both epithelioid sarcoma and rhabdoid tumor and might be a promising strategy to sufficiently translate HDAC inhibitors into clinics for solid tumors. Cancers pédiatriques Médecine de précision Sarcome épithélioïde Tumeur rhabdoïde Inhibiteurs des HDAC Pediatric cancers Precision medicine Epithelioid sarcoma Rhabdoid tumor HDAC inhibitors
313	Etiologic Factors in Soft Tissue Sarcomas Fröhner, Michael, Wirth, Manfred P. January 2001 (has links) Soft tissue sarcomas account for about 1% of all malignancies. The increase in incidence of soft tissue sarcomas during the recent decades may predominantly be attributed to AIDS-related Kaposi’s sarcoma; when this tumor is excluded, conclusive evidence for an age-adjusted increase is lacking. Beside the well investigated role of the human immunodeficiency virus 1 (HIV-1) and the human herpesvirus 8 (HHV-8) in the tumorigenesis of AIDS-related Kaposi’s sarcoma and several inherited disorders, considerable evidence support a relationship between occupational chemicals as vinyl chloride, phenoxyacetic acid herbicides, chlorphenols, dioxin, medicinal measures as Thorotrast exposure and therapeutic irradiation, and the development of soft tissue sarcoma. Hormones and chronic repair processes are further probably sarcoma-promoting factors. Considering the rarity of soft tissue sarcomas despite the vast portion that soft tissues comprise in the human body, additional knowledge on the tumorigenesis of soft tissue sarcomas might considerably contribute to the understanding of the etiologic pathways of malignant tumors in humans. / Weichteilsarkome stellen etwa 1% aller bösartigen Neubildungen. Der in den vergangenen Jahrzehnten beobachtete Inzidenzanstieg geht fast ausschließlich auf die rasante Zunahme an AIDS-assoziierten Kaposi-Sarkomen zurück. Bei Außerachtlassung dieses Tumors gibt es bisher keinen schlüssigen Beweis für eine wirkliche alterskorrigierte Häufigkeitszunahme der Weichteilsarkome. Neben der gut untersuchten Rolle des HIV-1-Virus und des humanen Herpes-Virus 8 bei der Entstehung des AIDS-assoziierten Kaposi-Sarkoms und einigen prädisponierenden genetischen Erkrankungen existieren starke Hinweise für einen Zusammenhang zwischen Industriegiften wie Vinylchlorid, Phenoxyessigsäure-Herbiziden, Chlorphenolen, Dioxinen, medizinischen Maßnahmen wie therapeutischer Bestrahlung oder dem Einsatz von Thorotrast, und der Entwicklung von Weichteilsarkomen. Hormone und chronische Reparaturprozesse sind weitere wahrscheinlich fördernde Einflüsse auf die Entstehung von Weichteilsarkomen. Die Tatsache, daß trotz des großen Anteils, den die Binde- und Stützgewebe an der Körpermasse stellen, nur selten maligne Tumoren von diesen Strukturen ausgehen, läßt hoffen, daß ein besseres Verständnis der an der Kanzerogenese von Weichteilsarkomen beteiligten Mechanismen in der Zukunft wichtige Erkenntnisse über die Entstehung menschlicher Tumoren liefern kann. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/610 ddc:610
314	Myeloid Sarcoma Mansurov, Alay, Singal, Sakshi Singal, Masood, Sara, Jaishankar, Devapiran 12 April 2019 (has links) Acute Myeloid Leukemia (AML) is a potentially fatal disease, more common in an elderly population. The American Cancer Society estimates 21,450 new cases of AML and 10,920 deaths from AML in the United States in 2019. This malignancy originating in the Bone Marrow (BM), usually presents with peripheral blood (PB) abnormalities. Rarely, AML, particularly monoblastic variants can present with extramedullary disease. Here we describe a case of AML presenting with diffuse lymphadenopathy and a biopsy revealing myeloid sarcoma. A 53 years old male developed diffuse lymphadenopathy. Failure of outpatient empiric antibiotic treatment prompted right cervical lymph node biopsy. Lymph node architecture was distorted by the presence of malignant monocytic myeloid cells. Both the peripheral blood and bone marrow were involved by AML with monocytic features. The monoblasts count was 14% in PB and 24% in BM and the promonocyte count was 12% in PB and 26% in BM. Complete Blood Count showed total white blood cell count of 31,700, hemoglobin 11.8, monocytes 22.5% and platelets 122,000. Flow cytometry of the bone marrow demonstrated a blast population with positive expression of cMPO, CD33, CD13, CD11b, HLA-DR, CD64, CD14 and CD4; and negative for CD34, CD117, nTdT, cCD3, cCD79a. Fluorescence in situ hybridization study was positive for MLL gene rearrangement. Molecular study was positive for IDH1 mutation, and negative for IDH2, RUNX1, FLT3 mutations. Further laboratory analysis was significant for lactate dehydrogenase 346, uric acid 8.6, prothrombin time 13.6, INR 1.2, partial thromboplastin time 33.5 and fibrinogen 293. Computed tomography of chest, abdomen, pelvis with contrast revealed extensive adenopathy with enlarged bilateral supraclavicular, bilateral axillary, mediastinal, bilateral hilar, upper abdominal, periaortic retroperitoneal, pelvic and inguinal lymph nodes. Hepatosplenomegaly was also reported. The term Myeloid Sarcoma (MS) is used when leukemic cells are present outside the bone marrow and peripheral blood. MS tends to oocur more commonly in middle aged males (male-to-female ratio, 2:1, median age, 56 years). The Mayo Clinic Experience of 96 cases demonstrated 27% of patients had no bone marrow involvement, and 69% of patients had primary bone marrow disease. Extramedullary involvement can occur prior to, simultaneously, or after bone marrow involvement. Just as in our case this is an important feature for clinicians to remember so that they may recognize this rare entity early. AML Myeloid Sarcoma leukemia Cancer or Carcinogenesis Other Diseases Tumors Tumor Immunology Orphan Rare Diseases Blood Diseases
315	PLOD Family: A Novel Biomarker for Prognosis and Personalized Treatment in Soft Tissue Sarcoma Gong, Siming, Schopow, Nikolas, Duan, Yingjuan, Wu, Changwu, Kallendrusch, Sonja, Osterhoff, Georg 09 June 2023 (has links) Despite various treatment attempts, the heterogenous group of soft tissue sarcomata (STS) with more than 100 subtypes still shows poor outcomes. Therefore, effective biomarkers for prognosis prediction and personalized treatment are of high importance. The Procollagen-Lysine, 2-Oxoglutarate 5-Dioxygenase (PLOD) gene family, which is related to multiple cancer entities, consists of three members which encode important enzymes for the formation of connective tissue. The relation to STS, however, has not yet been explored. In this study, data from The Cancer Genome Atlas (TCGA) and Genotype-Tissue Expression (GTEx) databases were used to analyze the role of PLOD1–3 in STS. It was found that an overexpression of PLOD family members correlates with poor prognosis, which might be due to an increased infiltration of immune-related cells in the tumor microenvironment. In STS, the expression of PLOD genes could be a novel biomarker for prognosis and a personalized, more aggressive treatment in these patients. info:eu-repo/classification/ddc/570 ddc:570
316	Characterization of FET and ETS domain contributions to fusion oncoprotein activity in Ewing sarcoma Boone, Megann A. January 2021 (has links) No description available. Cellular Biology Biomedical Research Molecular Biology Oncology Ewing sarcoma chromosomal translocation FET ETS pediatric cancer oncology fusion protein EWS-FLI
317	Identification of Tumor Antigens and Immune Subtypes for the Development of mRNA Vaccines and Individualized Immunotherapy in Soft Tissue Sarcoma Wu, Changwu, Duan, Yingjuan, Gong, Siming, Osterhoff, Georg, Kallendrusch, Sonja, Schopow, Nikolas 02 June 2023 (has links) Simple Summary Soft tissue sarcomas (STS) are a group of rare malignant tumors with high tissue heterogeneity and poor prognosis, and which are still without effective individualized immunotherapy approaches. In this study, four potential tumor antigens, six STS immune subtypes, and six functional gene modules were identified. The different immune subtypes have different molecular, cellular, and clinical characteristics. The superiority of mRNA vaccine therapies has been demonstrated during the current pandemic as well as in tumor vaccine studies, and the present study provides guidance for future mRNA vaccine development. Furthermore, in future individualized immunotherapies for STS, it is possible to select different immunotherapies based on the different immune subtypes identified in this study. In fact, the immune subtypes identified in this study explain, to some extent, the failure of immunotherapy for certain STS subtypes in previous clinical trials, and facilitate further understanding of strategy selection for the immunotherapy of STS. To our knowledge, this is the first study to address STS mRNA vaccine development and immunophenotyping. This study provides a theoretical framework for STS mRNA vaccine development and the selection of patients for vaccination and provides a reference for promoting individualized immunotherapy. Abstract Soft tissue sarcomas (STS) are a rare disease with high recurrence rates and poor prognosis. Missing therapy options together with the high heterogeneity of this tumor type gives impetus to the development of individualized treatment approaches. This study identifies potential tumor antigens for the development of mRNA tumor vaccines for STS and explores potential immune subtypes, stratifying patients for immunotherapy. RNA-sequencing data and clinical information were extracted from 189 STS samples from The Cancer Genome Atlas (TCGA) and microarray data were extracted from 103 STS samples from the Gene Expression Omnibus (GEO). Potential tumor antigens were identified using cBioportal, the Oncomine database, and prognostic analyses. Consensus clustering was used to define immune subtypes and immune gene modules, and graph learning-based dimensionality reduction analysis was used to depict the immune landscape. Finally, four potential tumor antigens were identified, each related to prognosis and antigen-presenting cell infiltration in STS: HLTF, ITGA10, PLCG1, and TTC3. Six immune subtypes and six gene modules were defined and validated in an independent cohort. The different immune subtypes have different molecular, cellular, and clinical characteristics. The immune landscape of STS reveals the immunity-related distribution of patients and intra-cluster heterogeneity of immune subtypes. This study provides a theoretical framework for STS mRNA vaccine development and the selection of patients for vaccination, and provides a reference for promoting individualized immunotherapy. info:eu-repo/classification/ddc/610 ddc:610
318	Identification and Functional Analysis of Micro-RNAs Encoded by Kaposi’s Sarcoma-Associated Herpesvirus Samols, Mark Atienza 07 June 2007 (has links) No description available. Biology, Microbiology microRNAs Kaposi&8217 s Sarcoma-associated herpesvirus KSHV herpesvirus viral latency viral microRNAs viral microRNA targets
319	Analysis of stem cell collections in adult patients with Ewing sarcoma Franke, Georg-Nikolaus, Pfannes, Roald, Heyn, Simone, Brückner, Mandy, Rieprecht, Susanne, Bach, Enrica, Remane, Yvonne, Leiblein, Sabine, Pönisch, Wolfram, Niederwieser, Dietger, Schwind, Sebastian, Platzbecker, Uwe, Jentzsch, Madlen, Vucinic, Vladan 04 January 2024 (has links) Background: Ewing sarcoma is one of the most frequent soft-tissue tumors in pediatric patients. The current treatment protocols recommend stem cell apheresis (SCA) after completion of the second course of induction therapy with vincristine, ifosfamide, doxorubicine, and etoposide (VIDE). The feasibility of SCA and graft compositions in adult patients with Ewing sarcoma have not been previously analyzed. Methods and Materials: The authors analyzed 29 stem cell collections of 19 adult patients (9 male, 10 female) at a median age of 27 (range 19–53) years mobilized after VIDE (n = 17), cyclophosphamide/topotecan (n = 1) or vincristine, dactinomycin and ifosfamide (n = 1) chemotherapy. All patients were mobilized with filgrastim 5 μg/kg twice daily from day +7 of chemotherapy. The collections were performed if CD34+ cell count in peripheral blood was >10/μL. The target yields were ≥4106 CD34+ cells/kg body weight. Results: Median CD34+ cells/μL in peripheral blood before SCA were 45.8 (range 6.7–614.4)/μL. The median cumulative yields were 10.6 (range 1.5–38.8) CD34+ cells/kg body weight and ≥2106 in all but two patients (89%). CD34, CD3, and CD56 yields in collections after the third VIDE and after later courses did not differ. Four patients underwent high-dose therapy with autologous transplantation, and all were engrafted. Discussion: Stem cell mobilization is feasible in most Ewing sarcoma patients. Additionally, the present study's data suggest that it is safe to postpone stem cell collection to a later VIDE chemotherapy cycle if medically indicated info:eu-repo/classification/ddc/610 ddc:610
320	Molecular basis of immunotolerance in canine neoplasia Stevenson Salinas, Valentina Beatriz 30 January 2023 (has links) 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.

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