Results 21 to 30 of about 129,342 (334)
Modeling the Hematopoietic Landscape
Frontiers in Cell and Developmental Biology, 2019 Some time ago, we proposed a continuum-like view of the lineages open to hematopoietic stem cells (HSCs); each HSC self-renews or chooses from the spectrum of all end-cell options and can then “merely” differentiate.Geoffrey Brown, Rhodri Ceredigdoaj +1 more sourceHigh-Yield Human Induced Pluripotent Stem Cell-Derived Monocytes and Macrophages Are Functionally Comparable With Primary Cells
Frontiers in Cell and Developmental Biology, 2021 Macrophages are pivotal effectors of host immunity and regulators of tissue homeostasis. Understanding of human macrophage biology has been hampered by the lack of reliable and scalable models for cellular and genetic studies.Di Cui, Alexandra Franz, Sophie A. Fillon, Linda Jannetti, Timo Isambert, Katrin Fundel-Clemens, Heinrich J. Huber, Coralie Viollet, Alexander Ghanem, Akira Niwa, Bernd Weigle, Stefan Pflanz, Stefan Pflanz +12 moredoaj +1 more sourceNeutrophils in cancer: neutral no more [PDF]
, 2016 Neutrophils are indispensable antagonists of microbial infection and facilitators of wound healing. In the cancer setting, a newfound appreciation for neutrophils has come into view.A Blaisdell, A Carus, A Görgens, A Hasenberg, A Kohler, A Mantovani, A Sparmann, A Stoppacciaro, A Swierczak, A Warnatsch, AD Friedman, AD Panopoulos, AJ Casbon, AJ Gentles, AJ Templeton, AK Mankan, AM Houghton, AM Wengner, AP Tittel, AS Chung, B Ruffell, BK Popivanova, BT Suratt, BZ Qian, C Cheretakis, C Gordy, C Martin, CF Wu, CH Ries, CL Semerad, CL Semerad, D Di Mitri, D Marvel, D Metcalf, D Zhang, DI Gabrilovich, DJ Cua, DR Welch, E Elinav, EB Eruslanov, EI Deryugina, EM Bekes, F Chen, F Colotta, F Kuonen, F Liu, F Liu, F Rosenbauer, F Shojaei, F Shojaei, F Shojaei, F Shojaei, G Molineux, G Wang, GJ Guthrie, GJ Lieschke, GO Ahn, H Hirai, H Ji, H Katoh, H Nozawa, H Takahashi, H Tazawa, HH Yan, HK Jensen, HK Kim, HL Rao, HS Deshmukh, I Mishalian, I Petit, J Adolfsson, J Cools-Lartigue, J Crawford, J Jablonska, J Jiao, J Mei, J Pillay, J Pillay, J Pillay, J Sceneay, JC Pahler, JD Spicer, JD Waight, JD Waight, JF Seymour, JI Youn, JI Youn, JL Granick, JL Guerriero, JM Daley, JM Petty, JP Levesque, JT Dancey, JT Erler, JY Sagiv, K Fiedler, K Kersten, K Kim, K Shang, K Shitara, K Tomihara, KA Charles, Karin E. de Visser, KE De Visser, KH Steinbach, KJ Eash, KJ Eash, L Benevides, L Deng, L Gong, L Strauss, L Yang, L Yang, LA Pekarek, LB Rivera, LJ Bayne, LM Coussens, LP Seung, M Bodogai, M Bruchard, M Di Maio, M Elkabets, M Hager, M Ishikawa, M Kowanetz, M Papaspyridonos, M Santoni, M Van Egmond, M Wislez, MA Lopez-Lago, MA Postow, MA Stark, Max D. Wellenstein, MF Denny, MG Manz, MH Kim, MK Richards, MK Srivastava, MP Keane, MT O'Toole, N Antonio, N Borregaard, N Borregaard, P Andreu, P Ehrlich, P Schwarzenberger, P Wu, PC Burdon, PC Vincent, PJ Murray, Q Ma, R Bertini, R Catena, R Noy, RA Caruso, RA Droeser, RN Kaplan, S Acharyya, S Basu, S Dogan, S Hiratsuka, S Tazzyman, S Tazzyman, S Tu, SB Coffelt, SB Coffelt, SB Forlow, Seth B. Coffelt, SH Chang, SH Saverymuttu, SI Rennard, SJ Huh, SJ Moghaddam, SK Bunt, SK Wculek, SL Gaffen, SL Highfill, T Bald, T El Rayes, T Jamieson, T Kitamura, T Lämmermann, T Tak, T Voloshin, T Yamanaka, TE Sutherland, TO Jensen, V Cortez-Retamozo, V Finisguerra, VT Phan, WJ McKinstry, X Qu, X Song, XD Yang, Y Carmi, Y Han, Y Ma, Y Pang, Y Pylayeva-Gupta, Y Sawanobori, Y Tsuda, Y Ueda, Y Ueda, Z Granot, Z Li, ZG Fridlender +205 morecore +1 more sourceRoles of GM-CSF in the Pathogenesis of Autoimmune Diseases: An Update. [PDF]
, 2019 Granulocyte-macrophage colony-stimulating factor (GM-CSF) was first described as a growth factor that induces the differentiation and proliferation of myeloid progenitors in the bone marrow.Adorini, Ahn, Alnek, Ananthakrishnan, Aram, Aricha, Basdeo, Bernasconi, Bezbradica, Bhattacharya, Bhattacharya, Bogunovic, Borriello, Campbell, Cao, Casciola-Rosen, Cheatem, Chiewchengchol, Choi, Chuang, Ciric, Codarri, Cook, Cook, Coombes, Croxford, Denson, Derouet, Dieckgraefe, Duhen, Egea, El-Behi, Enzler, Fernandes, Fillatreau, Fraussen, Fuchs, Ganesan, Ganesh, Gangi, Gao, Gathungu, Gaudreau, Ghosh, Gonzalez, Gopisetty, Hansen, Harrington, Hartmann, Hirota, Hirota, Hirota, Huang, Imitola, Jain, Kared, Karni, Kaskow, Katano, Katz, Kelly, Kenkel, King, King, Kister, Lebre, Lee, Lehtonen, Leizer, Li, Li, Li, Li, Makris, Marks, Matsuyama, Mausberg, McWilliams, Meriggioli, Midgley, Mikita, Mufazalov, Muranski, Nagane, Noster, Ortega, Parajuli, Pare, Pare, Park, Piper, Ponomarev, Poppensieker, Ramos-Levi, Rasouli, Reynolds, Roelofs, Rowin, Sakaguchi, Salehi, Samarpita, Scholz, Schutt, Serafini, Shang, Shapouri-Moghaddam, Sheng, Sheng, Sheng, Shiomi, Shiomi, Shiomi, Smith, Srenathan, Stojic-Vukanic, Surendar, Tavakolpour, Touil, Tsark, van de Laar, van Nieuwenhuijze, Vasu, Vincent, Vincent, Vogel, Waisman, Wicks, Wiggins-Dohlvik, Willeke, Xu, Xu, Yang, York, Zhang, Zhao +134 morecore +2 more sourcesDistinct macrophage phenotypes skewed by local granulocyte macrophage colony‐stimulating factor (GM‐CSF) and macrophage colony‐stimulating factor (M‐CSF) are associated with tissue destruction and intimal hyperplasia in giant cell arteritis
Clinical & Translational Immunology, 2020 Objective To determine the presence and spatial distribution of different macrophage phenotypes, governed by granulocyte macrophage colony‐stimulating factor (GM‐CSF) and macrophage colony‐stimulating factor (M‐CSF) skewing signals, in giant cell ...William F Jiemy, Yannick vanSleen, Kornelis SM van derGeest, Hilde A tenBerge, Wayel H Abdulahad, Maria Sandovici, Annemieke MH Boots, Peter Heeringa, Elisabeth Brouwer +8 moredoaj +1 more sourceGranulocyte-activating mediators (GRAM) [PDF]
, 1988 In the present study we investigated the capability of human epidermal cells to generate granulocyte-activating mediators (GRAM). It could be shown that human epidermal cells as well as an epidermoid carcinoma cell line (A431) produce an epidermal cell ...Kapp, A., Möller, A., Putz, Reinhard, Zeck-Kapp, G. +3 morecore +1 more sourceAIF1+CSF1R+ MSCs, induced by TNF‐α, act to generate an inflammatory microenvironment and promote hepatocarcinogenesis
Hepatology, EarlyView., 2022 Mesenchymal stem cells subset, educated by TNF‐α, are involved to generate inflammatory microenvironment and promote hepatocarcinogenesis Abstract Background and Aims
Increasing evidence suggests that mesenchymal stem cells (MSCs) home to injured local tissues and the tumor microenvironment in the liver.Chen Zong, Yan Meng, Fei Ye, Xue Yang, Rong Li, Jinghua Jiang, Qiudong Zhao, Lu Gao, Zhipeng Han, Lixin Wei +9 morewiley +1 more source