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598 results on '"De Palma, Michele"'

2. Cytokine-armed dendritic cell progenitors for antigen-agnostic cancer immunotherapy

Author

Ghasemi, Ali, Martinez-Usatorre, Amaia, Li, Luqing, Hicham, Mehdi, Guichard, Alan, Marcone, Rachel, Fournier, Nadine, Torchia, Bruno, Martinez Bedoya, Darel, Davanture, Suzel, Fernández-Vaquero, Mirian, Fan, Chaofan, Janzen, Jakob, Mohammadzadeh, Yahya, Genolet, Raphael, Mansouri, Nahal, Wenes, Mathias, Migliorini, Denis, Heikenwalder, Mathias, and De Palma, Michele

Published
2024
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3. Apelin-driven endothelial cell migration sustains intestinal progenitor cells and tumor growth

Author

Bernier-Latmani, Jeremiah, Cisarovsky, Christophe, Mahfoud, Samantha, Ragusa, Simone, Dupanloup, Isabelle, Barras, David, Renevey, François, Nassiri, Sina, Anderle, Pascale, Squadrito, Mario Leonardo, Siegert, Stefanie, Davanture, Suzel, González-Loyola, Alejandra, Fournier, Nadine, Luther, Sanjiv A., Benedito, Rui, Valet, Philippe, Zhou, Bin, De Palma, Michele, Delorenzi, Mauro, Sempoux, Christine, and Petrova, Tatiana V.

Published
2022
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4. Consensus guidelines for the use and interpretation of angiogenesis assays

Author

Nowak-Sliwinska, Patrycja, Alitalo, Kari, Allen, Elizabeth, Anisimov, Andrey, Aplin, Alfred C, Auerbach, Robert, Augustin, Hellmut G, Bates, David O, van Beijnum, Judy R, Bender, R Hugh F, Bergers, Gabriele, Bikfalvi, Andreas, Bischoff, Joyce, Böck, Barbara C, Brooks, Peter C, Bussolino, Federico, Cakir, Bertan, Carmeliet, Peter, Castranova, Daniel, Cimpean, Anca M, Cleaver, Ondine, Coukos, George, Davis, George E, De Palma, Michele, Dimberg, Anna, Dings, Ruud PM, Djonov, Valentin, Dudley, Andrew C, Dufton, Neil P, Fendt, Sarah-Maria, Ferrara, Napoleone, Fruttiger, Marcus, Fukumura, Dai, Ghesquière, Bart, Gong, Yan, Griffin, Robert J, Harris, Adrian L, Hughes, Christopher CW, Hultgren, Nan W, Iruela-Arispe, M Luisa, Irving, Melita, Jain, Rakesh K, Kalluri, Raghu, Kalucka, Joanna, Kerbel, Robert S, Kitajewski, Jan, Klaassen, Ingeborg, Kleinmann, Hynda K, Koolwijk, Pieter, Kuczynski, Elisabeth, Kwak, Brenda R, Marien, Koen, Melero-Martin, Juan M, Munn, Lance L, Nicosia, Roberto F, Noel, Agnes, Nurro, Jussi, Olsson, Anna-Karin, Petrova, Tatiana V, Pietras, Kristian, Pili, Roberto, Pollard, Jeffrey W, Post, Mark J, Quax, Paul HA, Rabinovich, Gabriel A, Raica, Marius, Randi, Anna M, Ribatti, Domenico, Ruegg, Curzio, Schlingemann, Reinier O, Schulte-Merker, Stefan, Smith, Lois EH, Song, Jonathan W, Stacker, Steven A, Stalin, Jimmy, Stratman, Amber N, Van de Velde, Maureen, van Hinsbergh, Victor WM, Vermeulen, Peter B, Waltenberger, Johannes, Weinstein, Brant M, Xin, Hong, Yetkin-Arik, Bahar, Yla-Herttuala, Seppo, Yoder, Mervin C, and Griffioen, Arjan W

Subjects
Biochemistry and Cell Biology, Biological Sciences, Cardiovascular, Animals, Biological Assay, Guidelines as Topic, Humans, Mice, Neoplasms, Neovascularization, Pathologic, Angiogenesis, Aortic ring, Endothelial cell migration, Proliferation, Microfluidic, Zebrafish, Chorioallantoic membrane, Vascular network, Intussusceptive angiogenesis, Retinal vasculature, Corneal angiogenesis, Hindlimb ischemia, Myocardial angiogenesis, Recombinant proteins, Tip cells, Plug assay, Vessel co-option, Clinical Sciences, Pharmacology and Pharmaceutical Sciences, Oncology & Carcinogenesis, Biochemistry and cell biology
Abstract

The formation of new blood vessels, or angiogenesis, is a complex process that plays important roles in growth and development, tissue and organ regeneration, as well as numerous pathological conditions. Angiogenesis undergoes multiple discrete steps that can be individually evaluated and quantified by a large number of bioassays. These independent assessments hold advantages but also have limitations. This article describes in vivo, ex vivo, and in vitro bioassays that are available for the evaluation of angiogenesis and highlights critical aspects that are relevant for their execution and proper interpretation. As such, this collaborative work is the first edition of consensus guidelines on angiogenesis bioassays to serve for current and future reference.

Published
2018

7. The angiopoietin-Tie2 pathway regulates Purkinje cell dendritic morphogenesis in a cell-autonomous manner

Author

Luck, Robert, Karakatsani, Andromachi, Shah, Bhavin, Schermann, Geza, Adler, Heike, Kupke, Janina, Tisch, Nathalie, Jeong, Hyun-Woo, Back, Michaela Kerstin, Hetsch, Florian, D’Errico, Anna, De Palma, Michele, Wiedtke, Ellen, Grimm, Dirk, Acker-Palmer, Amparo, von Engelhardt, Jakob, Adams, Ralf H., Augustin, Hellmut G., and Ruiz de Almodóvar, Carmen

Published
2021
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10. Optimized antiangiogenic reprogramming of the tumor microenvironment potentiates CD40 immunotherapy

Author

Kashyap, Abhishek S., Schmittnaegel, Martina, Rigamonti, Nicolò, Pais-Ferreira, Daniela, Mueller, Philipp, Buchi, Melanie, Ooi, Chia-Huey, Kreuzaler, Matthias, Hirschmann, Petra, Guichard, Alan, Rieder, Natascha, Bill, Ruben, Herting, Frank, Kienast, Yvonne, Dirnhofer, Stefan, Klein, Christian, Hoves, Sabine, Ries, Carola H., Corse, Emily, De Palma, Michele, and Zippelius, Alfred

Published
2020

11. Perivascular Macrophages Limit Permeability

Author

He, Huanhuan, Mack, Julia J, Güç, Esra, Warren, Carmen M, Squadrito, Mario Leonardo, Kilarski, Witold W, Baer, Caroline, Freshman, Ryan D, McDonald, Austin I, Ziyad, Safiyyah, Swartz, Melody A, De Palma, Michele, and Iruela-Arispe, M Luisa

Subjects
Medical Physiology, Biomedical and Clinical Sciences, 2.1 Biological and endogenous factors, Aetiology, Cardiovascular, Animals, Antigens, CD, Cadherins, Capillaries, Capillary Permeability, Cell Communication, Cell Movement, Cells, Cultured, Coculture Techniques, Dextrans, Endothelial Cells, Fluorescein-5-isothiocyanate, Humans, Macrophages, Peritoneal, Mesentery, Mice, Inbred C57BL, Mice, Nude, Mice, Transgenic, Ovalbumin, Peritoneum, Phenotype, Phosphorylation, Rhodamines, Skin, Time Factors, Transfection, capillaries, capillary permeability, cell communication, endothelial cells, macrophages, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences
Abstract

ObjectivePerivascular cells, including pericytes, macrophages, smooth muscle cells, and other specialized cell types, like podocytes, participate in various aspects of vascular function. However, aside from the well-established roles of smooth muscle cells and pericytes, the contributions of other vascular-associated cells are poorly understood. Our goal was to ascertain the function of perivascular macrophages in adult tissues under nonpathological conditions.Approach and resultsWe combined confocal microscopy, in vivo cell depletion, and in vitro assays to investigate the contribution of perivascular macrophages to vascular function. We found that resident perivascular macrophages are associated with capillaries at a frequency similar to that of pericytes. Macrophage depletion using either clodronate liposomes or antibodies unexpectedly resulted in hyperpermeability. This effect could be rescued when M2-like macrophages, but not M1-like macrophages or dendritic cells, were reconstituted in vivo, suggesting subtype-specific roles for macrophages in the regulation of vascular permeability. Furthermore, we found that permeability-promoting agents elicit motility and eventual dissociation of macrophages from the vasculature. Finally, in vitro assays showed that M2-like macrophages attenuate the phosphorylation of VE-cadherin upon exposure to permeability-promoting agents.ConclusionsThis study points to a direct contribution of macrophages to vessel barrier integrity and provides evidence that heterotypic cell interactions with the endothelium, in addition to those of pericytes, control vascular permeability.

Published
2016

15. Living With Hyraxes: Biogeography and Comparative Ecology of West African Fornasinius Beetles.

Author

Ajong, Stephanie N., Luiselli, Luca, Lado, Thomas Francis, Demaya, Gift Simon, Eniang, Edem A., Segniagbeto, Gabriel Hoinsoude, Ketoh, Guillaume Koffivi, Le Duc, Olivier, De Palma, Michele, Amori, Giovanni, Fa, Julia E., Behangana, Mathias, Hema, Emmanuel M., and Dendi, Daniele

Subjects
BIOGEOGRAPHY, SEXUAL dimorphism, SCARABAEIDAE, SEX ratio, BEETLES
Abstract

Among the flower beetles (Scarabaeidae, Cetoniinae), the Goliathini comprise several genera of medium‐ and large‐sized beetles widely distributed in sub‐Saharan Africa. In this tribe, the genus Fornasinius Bertoloni, 1853, includes two species found in West Africa: F. higginsi (Westwood) and F. klingbeili Zöller, Fiebig,and Schulze. In this study, we present new data on the comparative ecology and biogeography of these two species, including sex ratio, population structure by size, monthly activity patterns and habitat features at two different spatial scales. These observations were conducted, mostly opportunistically, over a 20‐year period in Cote d'Ivoire, Ghana and Togo. Both species exhibited similar overall population structure and morphometrics. They were characterised by a male‐skewed adult sex ratio (with possible bias), male‐larger sexual size dimorphism and consistent population structure by size; the two species are seemingly parapatric (with the potential contact zone being separated in eastern Ghana by the Volta River and Volta Lake). Both are primarily found in the vicinity of trees that contained middens of hyraxes, such as Dendrohyrax dorsalis (F. higginsi), Dendrohyrax interfluvialis (F. klingbeili) and Procavia capensis (F. klingbeili). F. higginsi has been primarily observed in forest habitat, while F. klingbeili was found in both forests and Guinea savannahs. Occurrence sites of F. higginsi were predominantly characterised by higher tree cover, less bare areas and built‐up zones. Although these beetles may be locally abundant within hyrax middens, they typically occur in only a relatively small number of sites within their preferred habitat. Monthly activity patterns differed between the two species. Although adults of both species were observed throughout the year, sightings of F. higginsi were more common during the wet season, whereas F. klingbeili sightings were more frequent in the dry season. The observed differences in monthly activity patterns between these ecologically and morphologically similar species may help to minimise interspecific competition in potential—yet unknown—sites of syntopy. Although some Fornasinius populations might be locally threatened by deforestation or overhunting of hyraxes, the careful management of hyrax populations should adequately ensure the conservation of these two beetle species. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Antiangiogenic immunotherapy suppresses desmoplastic and chemoresistant intestinal tumors in mice

Author

Ragusa, Simone, Prat-Luri, Borja, Gonzalez-Loyola, Alejandra, Nassiri, Sina, Squadrito, Mario Leonardo, Guichard, Alan, Cavin, Sabrina, Gjorevski, Nikolce, Barras, David, Marra, Giancarlo, Lutolf, Matthias P., Perentes, Jean, Corse, Emily, Bianchi, Roberta, Wetterwald, Laureline, Kim, Jaeryung, Oliver, Guillermo, Delorenzi, Mauro, De Palma, Michele, and Petrova, Tatiana V.

Subjects
Drug therapy, Analysis, Genetic aspects, Prognosis, Health aspects, Cancer -- Genetic aspects -- Drug therapy -- Prognosis -- Analysis -- Health aspects, Chemotherapy -- Analysis -- Health aspects, Vascular endothelial growth factor -- Analysis -- Health aspects, Colorectal cancer -- Genetic aspects -- Drug therapy -- Prognosis -- Analysis -- Health aspects, Immunotherapy -- Analysis -- Health aspects, Gastrointestinal diseases -- Genetic aspects -- Drug therapy -- Prognosis -- Analysis -- Health aspects, Antineoplastic agents -- Analysis -- Health aspects, T cells -- Analysis -- Health aspects, Cancer treatment, Endothelial growth factors, Tumors, Cancer cells, Endothelium, Antibodies, Fibrosis
Abstract

Introduction Colorectal cancer (CRC) is one of the leading causes of cancer-related mortality worldwide (1). Patients with stage III or IV CRC have a high risk of recurrence and are [...], Mutations in APC promote colorectal cancer (CRC) progression through uncontrolled WNT signaling. Patients with desmoplastic CRC have a significantly worse prognosis and do not benefit from chemotherapy, but the mechanisms underlying the differential responses of APC-mutant CRCs to chemotherapy are not well understood. We report that expression of the transcription factor prospero homeobox 1 (PROX1) was reduced in desmoplastic APC-mutant human CRCs. In genetic Ape-mutant mouse models, loss of Prox1 promoted the growth of desmoplastic, angiogenic, and immunologically silent tumors through derepression of Mmp14. Although chemotherapy inhibited Prox1-proficient tumors, it promoted further stromal activation, angiogenesis, and invasion in Prox1-deficient tumors. Blockade of vascular endothelial growth factor A (VEGFA) and angiopoietin-2 (ANGPT2) combined with CD40 agonistic antibodies promoted antiangiogenic and immunostimulatory reprogramming of Prox1-deficient tumors, destroyed tumor fibrosis, and unleashed T cell-mediated killing of cancer cells. These results pinpoint the mechanistic basis of chemotherapy-induced hyperprogression and illustrate a therapeutic strategy for chemoresistant and desmoplastic CRCs.

Published
2020
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17. Medical and Personal Characteristics Can Predict the Risk of Lung Metastasis

Author

Jamshidi, E., Asgary, A., Setareh, S., Casutt, A., Gonzalez, M., Bianchi, M.P., Lovis, A., De Palma, Michele, von Garnier, C., and Mansouri, N.

Subjects
Oncology, Radiology, Nuclear Medicine and imaging
Abstract

Aims: Understanding the correlations between underlying medical and personal characteristics of a patient with cancer and the risk of lung metastasis may improve clinical management and outcomes. We used machine learning methodologies to predict the risk of lung metastasis using readily available predictors. Materials and methods: We retrospectively analysed a cohort of 11 164 oncological patients, with clinical records gathered between 2000 and 2020. The input data consisted of 94 parameters, including age, body mass index (BMI), sex, social history, 81 primary cancer types, underlying lung disease and diabetes mellitus. The strongest underlying predictors were discovered with the analysis of the highest performing method among four distinct machine learning methods. Results: Lung metastasis was present in 958 of 11 164 oncological patients. The median age and BMI of the study population were 63 (±19) and 25.12 (±5.66), respectively. The random forest method had the most robust performance among the machine learning methods. Feature importance analysis revealed high BMI as the strongest predictor. Advanced age, smoking, male gender, alcohol dependence, chronic obstructive pulmonary disease and diabetes were also strongly associated with lung metastasis. Among primary cancers, melanoma and renal cancer had the strongest correlation. Conclusions: Using a machine learning-based approach, we revealed new correlations between personal and medical characteristics of patients with cancer and lung metastasis. This study highlights the previously unknown impact of predictors such as obesity, advanced age and underlying lung disease on the occurrence of lung metastasis. This prediction model can assist physicians with preventive risk factor control and treatment strategies.

Published
2023
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18. Bimodal CD40/Fas-Dependent Crosstalk between iNKT Cells and Tumor-Associated Macrophages Impairs Prostate Cancer Progression

Author

Cortesi, Filippo, Delfanti, Gloria, Grilli, Andrea, Calcinotto, Arianna, Gorini, Francesca, Pucci, Ferdinando, Lucianò, Roberta, Grioni, Matteo, Recchia, Alessandra, Benigni, Fabio, Briganti, Alberto, Salonia, Andrea, De Palma, Michele, Bicciato, Silvio, Doglioni, Claudio, Bellone, Matteo, Casorati, Giulia, and Dellabona, Paolo

Published
2018
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19. Cytokine-armed dendritic cell progenitors for antigen-agnostic cancer immunotherapy

Author

Ghasemi, Ali, primary, Martinez-Usatorre, Amaia, additional, Li, Luqing, additional, Hicham, Mehdi, additional, Guichard, Alan, additional, Marcone, Rachel, additional, Fournier, Nadine, additional, Torchia, Bruno, additional, Martinez Bedoya, Darel, additional, Davanture, Suzel, additional, Fernández-Vaquero, Mirian, additional, Fan, Chaofan, additional, Janzen, Jakob, additional, Mohammadzadeh, Yahya, additional, Genolet, Raphael, additional, Mansouri, Nahal, additional, Wenes, Mathias, additional, Migliorini, Denis, additional, Heikenwalder, Mathias, additional, and De Palma, Michele, additional

Published
2023
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23. Chemotherapy elicits pro-metastatic extracellular vesicles in breast cancer models

Author

Keklikoglou, Ioanna, Cianciaruso, Chiara, Güç, Esra, Squadrito, Mario Leonardo, Spring, Laura M., Tazzyman, Simon, Lambein, Lore, Poissonnier, Amanda, Ferraro, Gino B., Baer, Caroline, Cassará, Antonino, Guichard, Alan, Iruela-Arispe, M. Luisa, Lewis, Claire E., Coussens, Lisa M., Bardia, Aditya, Jain, Rakesh K., Pollard, Jeffrey W., and De Palma, Michele

Published
2019
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26. Targeting Macrophages Sensitizes Chronic Lymphocytic Leukemia to Apoptosis and Inhibits Disease Progression

Author

Galletti, Giovanni, Scielzo, Cristina, Barbaglio, Federica, Rodriguez, Tania Véliz, Riba, Michela, Lazarevic, Dejan, Cittaro, Davide, Simonetti, Giorgia, Ranghetti, Pamela, Scarfò, Lydia, Ponzoni, Maurilio, Rocchi, Martina, Corti, Angelo, Anselmo, Achille, van Rooijen, Nico, Klein, Christian, Ries, Carola H., Ghia, Paolo, De Palma, Michele, Caligaris-Cappio, Federico, and Bertilaccio, Maria Teresa Sabrina

Published
2016
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28. Defining and targeting tumor-associated macrophages in malignant mesothelioma

Author

Wu, Licun; https://orcid.org/0000-0003-4803-9361, Kohno, Mikihiro; https://orcid.org/0000-0002-8003-7692, Murakami, Junichi, Zia, Amin; https://orcid.org/0000-0002-1239-0857, Allen, Jonathan, Yun, Hana, Chan, Meilin; https://orcid.org/0000-0002-5506-2191, Baciu, Cristina; https://orcid.org/0000-0002-3750-5147, Liu, Mingyao, Serre-Beinier, Veronique; https://orcid.org/0000-0002-6016-1645, De Palma, Michele; https://orcid.org/0000-0001-9128-5459, Felley-Bosco, Emanuela; https://orcid.org/0000-0002-3408-0294, Yeung, Jonathan, Pugh, Trevor J, de Perrot, Marc, Wu, Licun; https://orcid.org/0000-0003-4803-9361, Kohno, Mikihiro; https://orcid.org/0000-0002-8003-7692, Murakami, Junichi, Zia, Amin; https://orcid.org/0000-0002-1239-0857, Allen, Jonathan, Yun, Hana, Chan, Meilin; https://orcid.org/0000-0002-5506-2191, Baciu, Cristina; https://orcid.org/0000-0002-3750-5147, Liu, Mingyao, Serre-Beinier, Veronique; https://orcid.org/0000-0002-6016-1645, De Palma, Michele; https://orcid.org/0000-0001-9128-5459, Felley-Bosco, Emanuela; https://orcid.org/0000-0002-3408-0294, Yeung, Jonathan, Pugh, Trevor J, and de Perrot, Marc

Published
2023

30. Supplementary File from The Selective Tie2 Inhibitor Rebastinib Blocks Recruitment and Function of Tie2Hi Macrophages in Breast Cancer and Pancreatic Neuroendocrine Tumors

Author

Harney, Allison S., primary, Karagiannis, George S., primary, Pignatelli, Jeanine, primary, Smith, Bryan D., primary, Kadioglu, Ece, primary, Wise, Scott C., primary, Hood, Molly M., primary, Kaufman, Michael D., primary, Leary, Cynthia B., primary, Lu, Wei-Ping, primary, Al-Ani, Gada, primary, Chen, Xiaoming, primary, Entenberg, David, primary, Oktay, Maja H., primary, Wang, Yarong, primary, Chun, Lawrence, primary, De Palma, Michele, primary, Jones, Joan G., primary, Flynn, Daniel L., primary, and Condeelis, John S., primary

Published
2023
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31. Data from The Selective Tie2 Inhibitor Rebastinib Blocks Recruitment and Function of Tie2Hi Macrophages in Breast Cancer and Pancreatic Neuroendocrine Tumors

Author

Harney, Allison S., primary, Karagiannis, George S., primary, Pignatelli, Jeanine, primary, Smith, Bryan D., primary, Kadioglu, Ece, primary, Wise, Scott C., primary, Hood, Molly M., primary, Kaufman, Michael D., primary, Leary, Cynthia B., primary, Lu, Wei-Ping, primary, Al-Ani, Gada, primary, Chen, Xiaoming, primary, Entenberg, David, primary, Oktay, Maja H., primary, Wang, Yarong, primary, Chun, Lawrence, primary, De Palma, Michele, primary, Jones, Joan G., primary, Flynn, Daniel L., primary, and Condeelis, John S., primary

Published
2023
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36. Supplementary Figures S1-S7 from Perivascular M2 Macrophages Stimulate Tumor Relapse after Chemotherapy

Author

Hughes, Russell, primary, Qian, Bin-Zhi, primary, Rowan, Charlotte, primary, Muthana, Munitta, primary, Keklikoglou, Ioanna, primary, Olson, Oakley C., primary, Tazzyman, Simon, primary, Danson, Sarah, primary, Addison, Christina, primary, Clemons, Mark, primary, Gonzalez-Angulo, Ana Maria, primary, Joyce, Johanna A., primary, De Palma, Michele, primary, Pollard, Jeffrey W., primary, and Lewis, Claire E., primary

Published
2023
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37. Supplemental Figure S1 from Guidance Molecule SEMA3A Restricts Tumor Growth by Differentially Regulating the Proliferation of Tumor-Associated Macrophages

Author

Wallerius, Majken, primary, Wallmann, Tatjana, primary, Bartish, Margarita, primary, Östling, Jeanette, primary, Mezheyeuski, Artur, primary, Tobin, Nicholas P., primary, Nygren, Emma, primary, Pangigadde, Pradeepa, primary, Pellegrini, Paola, primary, Squadrito, Mario Leonardo, primary, Pontén, Fredrik, primary, Hartman, Johan, primary, Bergh, Jonas, primary, De Milito, Angelo, primary, De Palma, Michele, primary, Östman, Arne, primary, Andersson, John, primary, and Rolny, Charlotte, primary

Published
2023
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38. Supplemental Figure Legends from Guidance Molecule SEMA3A Restricts Tumor Growth by Differentially Regulating the Proliferation of Tumor-Associated Macrophages

Author

Wallerius, Majken, primary, Wallmann, Tatjana, primary, Bartish, Margarita, primary, Östling, Jeanette, primary, Mezheyeuski, Artur, primary, Tobin, Nicholas P., primary, Nygren, Emma, primary, Pangigadde, Pradeepa, primary, Pellegrini, Paola, primary, Squadrito, Mario Leonardo, primary, Pontén, Fredrik, primary, Hartman, Johan, primary, Bergh, Jonas, primary, De Milito, Angelo, primary, De Palma, Michele, primary, Östman, Arne, primary, Andersson, John, primary, and Rolny, Charlotte, primary

Published
2023
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39. Supplementary Figures 1-9, Tables 1-4, Methods and Materials from Epidermal Growth Factor Receptor Expression Identifies Functionally and Molecularly Distinct Tumor-Initiating Cells in Human Glioblastoma Multiforme and Is Required for Gliomagenesis

Author

Mazzoleni, Stefania, primary, Politi, Letterio S., primary, Pala, Mauro, primary, Cominelli, Manuela, primary, Franzin, Alberto, primary, Sergi Sergi, Lucia, primary, Falini, Andrea, primary, De Palma, Michele, primary, Bulfone, Alessandro, primary, Poliani, Pietro L., primary, and Galli, Rossella, primary

Published
2023
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41. Data from Epidermal Growth Factor Receptor Expression Identifies Functionally and Molecularly Distinct Tumor-Initiating Cells in Human Glioblastoma Multiforme and Is Required for Gliomagenesis

Author

Mazzoleni, Stefania, primary, Politi, Letterio S., primary, Pala, Mauro, primary, Cominelli, Manuela, primary, Franzin, Alberto, primary, Sergi Sergi, Lucia, primary, Falini, Andrea, primary, De Palma, Michele, primary, Bulfone, Alessandro, primary, Poliani, Pietro L., primary, and Galli, Rossella, primary

Published
2023
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42. Supplementary Table S1 from Perivascular M2 Macrophages Stimulate Tumor Relapse after Chemotherapy

Author

Hughes, Russell, primary, Qian, Bin-Zhi, primary, Rowan, Charlotte, primary, Muthana, Munitta, primary, Keklikoglou, Ioanna, primary, Olson, Oakley C., primary, Tazzyman, Simon, primary, Danson, Sarah, primary, Addison, Christina, primary, Clemons, Mark, primary, Gonzalez-Angulo, Ana Maria, primary, Joyce, Johanna A., primary, De Palma, Michele, primary, Pollard, Jeffrey W., primary, and Lewis, Claire E., primary

Published
2023
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44. Supplemental Table S1 from Guidance Molecule SEMA3A Restricts Tumor Growth by Differentially Regulating the Proliferation of Tumor-Associated Macrophages

Author

Wallerius, Majken, primary, Wallmann, Tatjana, primary, Bartish, Margarita, primary, Östling, Jeanette, primary, Mezheyeuski, Artur, primary, Tobin, Nicholas P., primary, Nygren, Emma, primary, Pangigadde, Pradeepa, primary, Pellegrini, Paola, primary, Squadrito, Mario Leonardo, primary, Pontén, Fredrik, primary, Hartman, Johan, primary, Bergh, Jonas, primary, De Milito, Angelo, primary, De Palma, Michele, primary, Östman, Arne, primary, Andersson, John, primary, and Rolny, Charlotte, primary

Published
2023
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45. Data from Perivascular M2 Macrophages Stimulate Tumor Relapse after Chemotherapy

Author

Hughes, Russell, primary, Qian, Bin-Zhi, primary, Rowan, Charlotte, primary, Muthana, Munitta, primary, Keklikoglou, Ioanna, primary, Olson, Oakley C., primary, Tazzyman, Simon, primary, Danson, Sarah, primary, Addison, Christina, primary, Clemons, Mark, primary, Gonzalez-Angulo, Ana Maria, primary, Joyce, Johanna A., primary, De Palma, Michele, primary, Pollard, Jeffrey W., primary, and Lewis, Claire E., primary

Published
2023
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46. Supplemental Methods and References from Guidance Molecule SEMA3A Restricts Tumor Growth by Differentially Regulating the Proliferation of Tumor-Associated Macrophages

Author

Wallerius, Majken, primary, Wallmann, Tatjana, primary, Bartish, Margarita, primary, Östling, Jeanette, primary, Mezheyeuski, Artur, primary, Tobin, Nicholas P., primary, Nygren, Emma, primary, Pangigadde, Pradeepa, primary, Pellegrini, Paola, primary, Squadrito, Mario Leonardo, primary, Pontén, Fredrik, primary, Hartman, Johan, primary, Bergh, Jonas, primary, De Milito, Angelo, primary, De Palma, Michele, primary, Östman, Arne, primary, Andersson, John, primary, and Rolny, Charlotte, primary

Published
2023
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48. Supplementary Figure Legends 1-5, Methods from Angiopoietin-2 Regulates Gene Expression in TIE2-Expressing Monocytes and Augments Their Inherent Proangiogenic Functions

Author

Coffelt, Seth B., primary, Tal, Andrea O., primary, Scholz, Alexander, primary, De Palma, Michele, primary, Patel, Sunil, primary, Urbich, Carmen, primary, Biswas, Subhra K., primary, Murdoch, Craig, primary, Plate, Karl H., primary, Reiss, Yvonne, primary, and Lewis, Claire E., primary

Published
2023
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49. Data from Guidance Molecule SEMA3A Restricts Tumor Growth by Differentially Regulating the Proliferation of Tumor-Associated Macrophages

Author

Wallerius, Majken, primary, Wallmann, Tatjana, primary, Bartish, Margarita, primary, Östling, Jeanette, primary, Mezheyeuski, Artur, primary, Tobin, Nicholas P., primary, Nygren, Emma, primary, Pangigadde, Pradeepa, primary, Pellegrini, Paola, primary, Squadrito, Mario Leonardo, primary, Pontén, Fredrik, primary, Hartman, Johan, primary, Bergh, Jonas, primary, De Milito, Angelo, primary, De Palma, Michele, primary, Östman, Arne, primary, Andersson, John, primary, and Rolny, Charlotte, primary

Published
2023
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