Hemopoese em desnutrição proteica: caracterização do estroma medular e avaliação da participação do cálcio / Hematopoiesis in protein malnutrition: characterization of bone marrow stroma and evaluation of calcium participation.

Ed Wilson Cavalcante Oliveira Santos

11 April 2018

A desnutrição proteica continua sendo um dos principais problemas nutricionais do mundo. Trabalhos de nosso laboratório e de outros autores evidenciam que entre as alterações presentes na desnutrição proteica, está a alteração do tecido hemopoético, com modificações em componentes da matriz extracelular, alterações no ciclo celular da célula tronco/progenitora hemopoética, redução da produção de precursores hemopoéticos, tanto na série eritrocitária como na série leucocitária, levando a anemia e leucopenia. Os mecanismos de participação do Ca2+ nas células da medula óssea são pouco conhecidos, porém, sabe-se que ele atua no processo de hemopoese. Têm sido descrito que elevações da concentração de Ca2+ citoplasmático induzem a proliferação e diferenciação de células mielóides. A ação dessa via em indivíduos desnutridos também é pouco conhecida. Este estudo tem como objetivo avaliar o estabelecimento da celularidade medular in vitro, bem como investigar mecanismos moleculares envolvidos na proliferação e diferenciação dessa celularidade, além de avaliar a ação do cálcio na presença da interleucina-3 em células-tronco hemopoéticas murinas e sua modulação para avaliar alterações na via das MAPKs. Camundongos C57BL/6, machos e adultos foram submetidos à desnutrição proteica e, após a perda de aproximadamente 20% de seu peso corporal, as células da medula óssea foram colhidas. Essas células foram imunofenotipadas, além de reagirem com anticorpos específicos para caracterização da célula-tronco hemopoética e proteínas da via de sinalização de cálcio intracelular. Observamos que a celularidade do estroma medular em cultura de longa duração de animais desnutridos é alterada, principalmente em células de origem mesenquimal, que aparecem em maior número em desnutridos ao longo dos dias de cultura. Além disso, as ondas de cálcio intracelular estavam diminuídas em animais desnutridos, bem como as proteínas p-PKC, p-PLCy, CAMKII, p-AKT e p-STAT5 não respondem ao estímulo de IL-3, levando a uma deficiência da expressão das MAPK: ERK 1/2, JNK e p38. A desnutrição proteica pode causar alterações na celularidade estromal da medula óssea e na diferenciação das células tronco hemopoéticas pela via das MAPKs estimulada por IL-3. / Protein malnutrition remains one of the world\'s major nutritional problems. Studies from our laboratory and others shown that alterations in protein malnutrition include hemopoietic tissue alterations, changes in extracellular matrix components, changes in the hemopoietic stem/progenitor cell tissue, reduction in the production of hemopoietic precursors, in the erythroid series as in the mieloyd series, leading to anemia and leukopenia. Mechanisms of Ca2+ participation in bone marrow cells are poorly understood, but no hemopoiesis has been developed. Elevations of cytoplasmic Ca2+ concentration in proliferation and differentiation of myeloid cells were included. Such an action through malnourished animals is also a little known. This study aims to evaluate the establishment of cellularity in vitro as well as investigate the molecular involvement in cell proliferation and differentiation, as well as to evaluate the action of calcium in the presence of IL-3 in hemopoietic stem cells and its modulation by analytical evaluations in the MAPKs pathway. C57BL/6, male adult mices were subjected to protein restriction and, after loss of approximately 20% of their body weight, bone marrow cells were harvested. These were immunophenotyped in addition to specific activation terms for the hemopoietic stem cell and intracellular signaling pathway proteins. We observed that the bone marrow cells in long-term culture of malnourished animals is altered, mainly in cells of mesenchymal origin, which appears in greater numbers in undernourished throughout the days of culture. In addition, as intracellular calcium waves decreased in malnourished animals, as well as the p-PKC, p-PLC, CAMKII, p-AKT and p-STAT5 proteins did not respond to IL-3, sugesting expression of the expression of MAPK: ERK 1/2, JNK and p38. Protein malnutrition may have changes in bone marrow capacity and differentiation of hemopoietic stem cells through IL-3-stimulated MAPKs.

Cálcio intracelular

Célula-tronco hemopoética

Desnutrição proteica

Estroma medular

Medula óssea

Bone marrow

Hemopoietic stem cell

Intracellular calcium

Protein malnutrition

Stroma

Participação do IGFBP7 na interação leucemia-estroma e na resistência a quimioterapia / IGFBP7 participates in the reciprocal interaction between leukemia and BM stroma and in leukemia resistance to chemotherapy

Laranjeira, Angelo Brunelli Albertoni, 1981-

05 August 2012

Orientador: José Andrés Yunes / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T10:04:03Z (GMT). No. of bitstreams: 1 Laranjeira_AngeloBrunelliAlbertoni_D.pdf: 13248620 bytes, checksum: 729ec8e23331934ddd1e5803361b6fe6 (MD5) Previous issue date: 2012 / Resumo: A Leucemia Linfóide Aguda (LLA) é o tipo de câncer mais comum que acomete crianças. Sabe-se que a interação do tumor com o contexto celular do hospedeiro (microambiente tumoral) é recíproca, ou seja, na medida em que o tumor estimula o seu microambiente, este potencializa a sobrevivência, proliferação e invasividade tumoral. A interação da LLA com as células estromais da medula óssea tem um impacto positivo na resistência das células leucêmicas à quimioterapia. No presente estudo foi investigado a modulação de uma série genes de sensibilidade e resistência à asparaginase em células de LLA-B precursoras após co-cultura com as células estromais. Mostramos o aumento da expressão e secreção da IGFBP7 pelas células leucêmicas após co-cultivo com células do estroma da medula óssea. Em ensaios com o silenciamento do IGFBP7 em células leucêmicas e células estromais, mostramos que a IGFBP7 atua regulando positivamente o crescimento celular e aumenta a resistência a asparaginase. A IGFBP7 'leucêmica' junto com IGF/insulina atua sobre as células estromais, induzindo nestas células o aumento da produção de asparagina, e diminuindo a ação da asparaginase. Além deste mecanismo de resistência dependente das células estromais, mostramos que a IGFBP7 em conjunto com IGF/insulina promove a resistência das células leucêmicas à ação de outros compostos quimioterápicos (dexametasona e metotrexato) de forma independente da interação leucemia-estroma. Ainda pode ser observado que o plasma de crianças com LLA ao diagnóstico, apresenta maiores níveis de IGFBP7 do que em amostras controles. É importante ressaltar que níveis mais altos de mRNA IGFBP7 foram associados com menor sobrevida livre de leucemia (Modelo de regressão de Cox, P = 0,003), em células de LLAB Ph(-) presursoras / Abstract: Acute Lymphoblastic Leukemia (ALL) is the most common type of cancer that affects children. It is known that the interaction between tumor and the cellular context of the host (tumor microenvironment) is reciprocal, ie, to the extent that the tumor stimulates their microenvironment, this enhances the survival, proliferation and tumor invasiveness. The interaction of ALL with bone marrow stromal cells has a positive impact on leukemia resistance to chemotherapy. In the present study, we investigated the modulation of a series of putative asparaginase-resistance/sensitivity genes in B-precursor ALL upon co-culture with stromal cells. We showed an increase expression and secretion of IGFBP7 in leukemic cells after co-culture with BMSCs. Assays with IGFBP7 knockdown in leukemic cells and stromal cells, showed that IGFBP7 acts as a positive regulator of cell growth and increases resistance to asparaginase. 'Leukemic' IGFBP7 together with IGF/insulin acts on stromal cells, increasing asparagine production, thus reducing the asparaginase effect. Besides this mechanism of resistance dependent of stromal cells, we showed that IGFBP7 in conjunction with IGF/insulin promotes the resistance of leukemia cells to the action of other chemotherapeutic compounds (dexamethasone and methotrexate) independently of the interaction leukemia-stroma. We still observed that diagnostic BM plasma from children with ALL at diagnosis, have higher levels of IGFBP7 than control samples. Importantly, higher levels of IGFBP7 mRNA were associated with lower leukemia-free survival (Cox regression model, P = 0.003) in precursor B-ALL Ph (-) patients / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

Leucemia linfoide aguda

Estroma da medula óssea

Insulina

Gene IGFBP7 humano

Resistência a quimioterápicos

Acute lymphoblastic leukemia

Bone marrow stroma

Chemotherapics resistance

Insulin

Human IGFBP7 gene

Study of marrow microenvironment and focal adherences in myelodysplastic syndromes and leukemias / Étude du microenvironnement médullaire et des complexes d’adhérence focale dans le myélodysplasies et leucémies

Robu, Carmen Mariana

12 March 2012

Les syndromes myélodysplasiques (SMD) sont considérés comme des maladies clonales des cellules souches hématopoïétiques (CSH). Le microenvironnement joue un rôle important par ses contacts direct avec les cellules progénitrices hématopoïétiques (CPH). Notre objectif était d'évaluer les défauts de croissance des cellules stromales mésenchymateuses (CSM) dans les MDS, d’explorer les molécules d’adhérence impliquées, et d'effectuer des corrélations avec leurs dysfonctionnements de croissance et les anomalies des CPH. Les CSM de MDS sont intrinsèquement pathologiques, montrant une baisse continue de la prolifération pendant 14 jours de culture et une capacité clonogénique réduite. Ces anomalies sont corrélés à une diminution des molécules d'adhérence CD44 et CD49e. Par ailleurs, le potentiel clonogénique des CPH est contrôlé par des mécanismes d'adhérence dépendant du stroma, CD49e pouvant être une des molécules impliquées. L’analyse en immunofluorescence des protéines d'adhérence focale (FA), paxilline et pFAK [Y397], et des deux protéines régulatrices, HSP90αβ et p130CAS permet l'identification d’anomalies qualitatives et quantitatives. Une expression accrue de paxilline, pFAK et HSP90αβ et leur forte co-localisation nucléaire dans les CSM d'anémie réfractaire avec excès de blastes (AREB) sont corrélées avec un avantage prolifératif et un impact négatif sur la capacité clonogénique de CPH. Ces résultats ouvrent des possibilités intéressantes : la signalisation via les protéines FA pourrait être impliquée dans les interactions HPC-MSC ; par ailleurs, FAK étant une protéine cliente d’HSP90, les inhibiteurs d’HSP90 sont une potentielle thérapie adjuvante dans les myélodysplasies / Myelodysplastic syndromes (MDS) are regarded as clonal disorders of haematopoietic stem cells (HSC). Recent evidence demonstrates that stromal microenvironment, in addition to HSC defects, plays a particular role via its direct contact with haematopoietic precursor cells (HPC). This thesis aims at evaluating the putative growth deficiencies of mesenchymal stromal cells (MSC) from MDS individuals compared with normal controls, exploring their adhesion profile, assessing the adhesion process-involved molecular substrates, and establishing correlations with their growth patterns and HPC dysfunctions. Functional assays revealed that MSC from MDS are intrinsically pathological, show a continuous decline of proliferation over a 14-day culture and a reduced clonogenic capacity in the absence of signals from HPC. MSC growth defects significantly correlate with decreased CD44 and CD49e expression. Moreover, stroma-dependent adhesion mechanisms control HPC clonogenic potential and CD49e might be one of the molecules involved in this process. Qualitative and quantitative abnormalities of focal adhesion (FA) proteins paxillin and pFAK [Y397] and of two regulatory proteins, HSP90αβ and p130CAS were identified via immunofluorescence analysis. Paxillin, pFAK [Y397] and HSP90αβ increased expression, besides its stronger nuclear colocalization in MSC from RAEB correlates with a consistent proliferative advantage and has a negative impact on HPC clonogenic capacity. These results open interesting opportunities, e.g. HPC-to-MSC interactions involve FA proteins signalling, and, as FAK is an HSP90αβ-client protein, it may enhance the utility of HSP90αβ inhibitors as adjuvant therapy in MDS

Syndromes myélodisplasiques

Cellules stromales mésenchymateuses

Protéines d'adhérence focale

Paxilline

Modèles de croissance

Myelodisplastic syndromes

Refractory aneamia with excess blasts

Mesenchymal stroma cells

Focal adhesion proteins

Paxillin

Growth patterns

Studium epitelově mezenchymových interakcí v nádorech vycházejících z dlaždicových epitelů / Study of Epithelial Mesenchymal Interactions in Squamous Epithelium Derived Tumors

Kodet, Ondřej

January 2014

This thesis is focused on the epithelial mesenchymal interactions in tumors derived from squamous epithelium including tumors arising from minor cell population (melanocytes). This study is also reflecting aspects of epithelial glycobiology resp. the study of endogenous lectins, the galectins, in head and neck squamous carcinomas. Galectins represent, in the current concepts of cell and tumor biology molecules with a remarkable potential. Galectins participate, besides in regulation of pre- and postnatal homeostasis in normal tissues, also in many pathological processes such as autoimmune reactions or malignancies. In this thesis, we demonstrated the presence of galectin-1 and -2 and their glycoligands in interphasic and mitotic nuclei, which may contribute to regulation of the cell cycle. Furthermore, we demonstrated galectin-9 as a sensitive marker of transformation normal to the dysplastic squamous epithelium in head and neck. The epithelial mesenchymal interactions represent mechanisms, which are responsible for dynamic maintenance of the homeostasis of the organism during prenatal development, postnatal growth and during cyclic renewal of certain tissues. These interactions also participate in wound healing. On the other hand they play a crucial role in the process of tumor transformation,...

Wachstums- und Differenzierungsfaktor 5 beladener Gewebekleber zur verbesserten Integration von Knorpelersatzmaterialien zu subchondralem Knochen

Renz, Yvonne

27 September 2018

Artikulärer Knorpel weist ein geringes Selbstheilungspotential auf und aktuelle Methoden zur Therapie von Knorpeldefekten resultieren meist im Aufbau fibrösen, mechanisch inferioren Regenerationsgewebes. Deshalb wird stetig versucht neue Therapiemethoden zu entwickeln, die häufig auf Tissue Engineering basieren. Ein Ansatz sind biogedruckte Tissue Engineering Konstrukte, die es ermöglichen durch das „Eindrucken“ vitaler Zellen die komplexen zellulären Strukturen des Knorpelgewebes nachzubilden. Trotz vielsprechender Ergebnisse in vitro, scheitert die langfristige Regeneration von Knorpeldefekten mittels Tissue Engineering jedoch häufig an der mangelnden Fixierung und Integration der Konstrukte in das umliegende Gewebe. Besonders um biogedruckte Hydrogelkonstrukte, für die viele gängigen Fixierungsoptionen ungeeignet sind, für das Knorpel Tissue Engineering nutzbar zu machen, müssen daher neue Fixierungs- und Integrationsmethoden entwickelt werden. Als Ansatz zur Verbesserung der osteochondralen Integration von Knorpelersatzmaterialien wurde im Rahmen dieser Arbeit ein GDF-5 beladener Gewebekleber getestet. GDF-5, ein Knorpelmorphogenetisches Protein, kann die chondrogene Differenzierung sowie die Hypertrophie von Vorläuferzellen fördern. Durch den Einsatz eines GDF-5 beladenen Gewebeklebers sollen in den Defekt einwandernde, wirtseigene Progenitorzellen zur chondrogenen Differenzierung und Mineralisierung angeregt werden, mit dem Ziel eine mineralisierte Knorpelgewebsschicht zwischen der subchondralen Knochen-platte und dem implantierten Tissue Engineering Konstrukt zu generieren und so dessen Integration zu verbessern.

info:eu-repo/classification/ddc/636.089

ddc:636.089

Studium epitelově mezenchymových interakcí v nádorech vycházejících z dlaždicových epitelů / Study of Epithelial Mesenchymal Interactions in Squamous Epithelium Derived Tumors

Kodet, Ondřej

January 2014

This thesis is focused on the epithelial mesenchymal interactions in tumors derived from squamous epithelium including tumors arising from minor cell population (melanocytes). This study is also reflecting aspects of epithelial glycobiology resp. the study of endogenous lectins, the galectins, in head and neck squamous carcinomas. Galectins represent, in the current concepts of cell and tumor biology molecules with a remarkable potential. Galectins participate, besides in regulation of pre- and postnatal homeostasis in normal tissues, also in many pathological processes such as autoimmune reactions or malignancies. In this thesis, we demonstrated the presence of galectin-1 and -2 and their glycoligands in interphasic and mitotic nuclei, which may contribute to regulation of the cell cycle. Furthermore, we demonstrated galectin-9 as a sensitive marker of transformation normal to the dysplastic squamous epithelium in head and neck. The epithelial mesenchymal interactions represent mechanisms, which are responsible for dynamic maintenance of the homeostasis of the organism during prenatal development, postnatal growth and during cyclic renewal of certain tissues. These interactions also participate in wound healing. On the other hand they play a crucial role in the process of tumor transformation,...

Tumor-stroma interaction mediated by tissue transglutaminase in pancreatic cancer

Lee, Jiyoon

08 July 2015

Indiana University-Purdue University Indianapolis (IUPUI) / Pancreatic ductal adenocarcinoma (PDA) is a deadly disease due to early metastasis and resistance to chemotherapy. PDA is commonly associated with a dense desmoplastic stroma, which forms a protective niche for cancer cells. Tissue transglutaminase (TG2), a Ca2+-dependent enzyme, is abundantly expressed in pancreatic cancer cells and crosslinks proteins through acyl-transfer transamidation between glutamine and lysine residues. The objective of the study was to determine the functions of TG2 in the pancreatic stroma. Orthotopic pancreatic xenografts and co-culture systems tested the mechanisms by which the enzyme modulates tumor-stroma interactions. We showed that TG2 secreted by cancer cells is enzymatically active and renders the stroma denser by crosslinking collagen, which in turn activates fibroblasts and stimulates their proliferation. Yes-associated protein (YAP) and transcriptional co-activator with PDZ-binding motif (TAZ) are transcription factors involved in mechanotransduction. The TG2-mediated fibrosis-rich, stiff microenvironment conveys mechanical cues to cancer cells leading to activation of YAP and TAZ, promoting cell proliferation and tumor growth. Stable knockdown of TG2 in pancreatic cancer cells led to decreased size of pancreatic xenografts and increased sensitivity of xenografts to gemcitabine. Taken together, our results demonstrate that TG2 secreted in the tumor microenvironment orchestrates the crosstalk between cancer cells and the stroma, fundamentally impacting tumor growth and response to chemotherapy. Our study supports TG2 inhibition in the pancreatic stroma as a novel strategy to block pancreatic cancer progression.

Collagen

Pancreatic Cancer

Stroma

Tissue Transglutaminase

YAP/TAZ

Pancreatic duct -- Etiology

Pancreatic duct -- Cancer

Proteolytic enzymes

Pancreas -- Tumors

Collagen

Transcription factors

Genetic transcription

Potency Analysis of Mesenchymal Stromal Cells Towards Innate and Adaptive Immune Cells

Garbers, Linn

January 2023

Studien utvärderar egenskaper hos mesenkymala stromaceller (MSC) i passage 2 och 3. I ett samarbete mellan Cellcolabs och Karolinska Institutet (KI) genomfördes projektet med Katarina Le Blancs forskargrupp. Genom att studera membranmarkörer från tre friska MSC-donatorer, tillsammans med deras förmåga att differentiera till osteoblaster, adipocyter och kondrocyter, samt deras förmåga att inhibera profileringen av CD8+ och CD4+ T-lymfocyter, och slutligen deras möjlighet att öka uttrycket av Indoleamine 2,3-dioxygenase 1 (IDO1) och interleukin 6 (IL6), kunde en jämförelse mellan passage 2 och 3 göras. I korta drag kunde enbart en tydlig skillnad göras mellan de två passagerna. Skillnaden sågs i förmågan att differentiera till osteoblaster, där passage 3 inte kunde prestera på samma nivå som passage 2. Utöver detta var resultaten för de två typerna jämförbara och antydde inte till några större förändringar mellan passage 2 och 3. För att stärka tillförlitligheten av resultatet bör dock fler MSC-donatorer jämföras. / The study evaluates the characteristics and consistency of mesenchymal stromal cells (MSCs) in two different passages, specifically 2 and 3. In a collaboration between Cellcolabs and Karolinska Institutet (KI), the project was conducted with Katarina Le Blanc’s research group. Through studying the surface expression on cells from three distinct MSC donors, along with their differentiation ability into osteoblasts, adipocytes and chondrocytes, their capability to suppress the proliferation of CD8+ and CD4+ T lymphocytes, and finally their possibility to increase the expression of indoleamine 2,3-dioxygenase 1 (IDO1) and interleukin 6 (IL6), a comparison between passage 2 and 3 could be done. It was seen that a clear distinction could be made between the two passages while looking at their ability to differentiate into osteoblasts. The remaining results showed comparable outcomes between passage 2 and 3, suggesting minor changes with the increased passage number. However, to strengthen the reliability of the outcome, more MSC donors should be compared.

Mesenchymal stroma cells

T cells

interferon gamma

cytokines

tumor necrosis factor alpha

mesenkymala stromaceller

T-celler

interferon gamma

cytokiner

tumörnekrosfaktor alpha

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

THE EFFECT OF CURCUMIN ON LEWIS LUNG CARCINOMA

Yan, Dejun

01 July 2011

No description available.

Animals

Biochemistry

Biology

Biomedical Research

Biophysics

Cellular Biology

Health Sciences

Medicine

Molecular Biology

Oncology

Pharmacology

Physiology

CURCUMIN

LEWIS LUNG CARCINOMA

CURCUMIN-SURVIVING SUBPOPULATIONS

STROMA

LIGHT

Identification de cibles diagnostiques et thérapeutiques potentielles pour l’adénocarcinome canalaire pancréatique dans un nouveau modèle chez l’embryon de poulet

Dumartin, Laurent

15 December 2008

L’Adénocarcinome Canalaire Pancréatique (ACP), la forme majeure de cancer du pancréas, est un des cancers les plus mortels du fait de son agressivité d’invasion locale et de dissémination vasculaire et de l’absence de méthode de détection précoce de la maladie. Nous avons développé un nouveau modèle d’invasion in vivo, sur la membrane chorio-allantoïdienne de l’embryon de poulet, permettant d’analyser les mécanismes d’interactions entre les cellules tumorales pancréatiques et leur microenvironnement. Nous avons montré que dans ce modèle les gènes codant pour les protéines sécrétées nétrine-1 et CXCL4L1/PF4v1 sont surexprimés dans les cellules tumorales au cours du processus d’invasion et que cette surexpression est également retrouvée dans les échantillons de patients humains. Nos études fonctionnelles ont indiqué que la nétrine-1 et CXCL4L1 pourrait jouer le rôle de régulateurs de la progression tumorale selon le modèle suivant : a) la chimiokine CXCL4L1 exercerait de façon paracrine une activité angiostatique sur les cellules endothéliales de l’ACP alors que b) la nétrine-1 aurait une activité pro-tumorale en agissant à la fois sur les cellules tumorales et sur les cellules endothéliales. Ces résultats ont permis d’une part de valider notre modèle en confirmant que les gènes surexprimés sélectionnés peuvent être impliqués dans la progression tumorale chez les patients. D’autre part, notre étude a permis de démontrer que les protéines CXCL4L1 et nétrine-1 constituent de nouvelles cibles thérapeutiques et/ou diagnostiques potentielles pour le cancer du pancréas. / Pancreatic Ductal Adenocarcinoma (PDAC), the major form of pancreatic cancer, is one of the deadliest cancers because of its propensity for local invasion and vascular dissemination and the lack of early diagnostic strategy. We have developed a new in vivo invasion model, on the chick embryo chorioallantoic membrane, allowing the analyze of mechanisms governing interactions between pancreatic tumor cells and their host microenvironment. We showed in its model that the genes encoding netrin-1 and CXCL4L1/PF4v1 secreted proteins are up-regulated in tumor cells in the course of the invasion process and we confirmed these up-regulation was also observed in human patients. Our functional studies indicated that netrin-1 and CXCL4L1 may play regulator roles in tumor progression according to the following model: a) CXCL4L1 chimiokine may have an angiostatic activity on endothelial cells by a paracrine mechanism of action whereas b) netrin-1 may have a pro-tumoral activity by acting on both endothelial and tumor cells. These results allowed in one hand to validate our model by showing that selected up-regulated genes may be involved in PDAC progression in human patients. On the other hand, our work provided evidence that CXCL4L1 and netrin-1 constitute new potential therapeutic and/or diagnostic targets for pancreatic cancer.

Cancer du pancréas

Marqueurs diagnostiques

Invasion

CXCL4L1 / PF4v1

Transcriptome

Interactions tumeur - stroma

Nétrine-1

Apoptose

Membrane chorio-allantoïdienne

Cibles thérapeutiques

Angiogenèse

Modèle tumoral

Diagnostic markers

CXCL4L1 / PF4v1

Netrin-1

Therapeutic targets

Pancreatic cancer

Tumor model

Chorioallantoic membrane

Tumor - stroma interactions

Invasion

Angiogenesis

Apoptosis

Transcriptome