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1. Endothelial Notch1 signaling in white adipose tissue promotes cancer cachexia

Author

Taylor, Jacqueline, Uhl, Leonie, Moll, Iris, Hasan, Sana Safatul, Wiedmann, Lena, Morgenstern, Jakob, Giaimo, Benedetto Daniele, Friedrich, Tobias, Alsina-Sanchis, Elisenda, De Angelis Rigotti, Francesca, Mülfarth, Ronja, Kaltenbach, Sarah, Schenk, Darius, Nickel, Felix, Fleming, Thomas, Sprinzak, David, Mogler, Carolin, Korff, Thomas, Billeter, Adrian T., Müller-Stich, Beat P., Berriel Diaz, Mauricio, Borggrefe, Tilman, Herzig, Stephan, Rohm, Maria, Rodriguez-Vita, Juan, and Fischer, Andreas

Published
2023
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2. HAPLN1 potentiates peritoneal metastasis in pancreatic cancer

Author

Wiedmann, Lena, De Angelis Rigotti, Francesca, Vaquero-Siguero, Nuria, Donato, Elisa, Espinet, Elisa, Moll, Iris, Alsina-Sanchis, Elisenda, Bohnenberger, Hanibal, Fernandez-Florido, Elena, Mülfarth, Ronja, Vacca, Margherita, Gerwing, Jennifer, Conradi, Lena-Christin, Ströbel, Philipp, Trumpp, Andreas, Mogler, Carolin, Fischer, Andreas, and Rodriguez-Vita, Juan

Published
2023
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3. Hepatocyte-specific activity of TSC22D4 triggers progressive NAFLD by impairing mitochondrial function

Author

Wolff, Gretchen, Sakurai, Minako, Mhamane, Amit, Troullinaki, Maria, Maida, Adriano, Deligiannis, Ioannis K., Yin, Kelvin, Weber, Peter, Morgenstern, Jakob, Wieder, Annika, Kwon, Yun, Sekar, Revathi, Zeigerer, Anja, Roden, Michael, Blüher, Matthias, Volk, Nadine, Poth, Tanja, Hackert, Thilo, Wiedmann, Lena, De Angelis Rigotti, Francesca, Rodriguez-Vita, Juan, Fischer, Andreas, Mukthavaram, Rajesh, Limphong, Pattraranee, Tachikawa, Kiyoshi, Karmali, Priya, Payne, Joseph, Chivukula, Padmanabh, Ekim-Üstünel, Bilgen, Martinez-Jimenez, Celia P., Szendrödi, Julia, Nawroth, Peter, and Herzig, Stephan

Published
2022
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5. Endothelial Notch1 Activity Facilitates Metastasis

Author

Wieland, Elfriede, Rodriguez-Vita, Juan, Liebler, Sven S., Mogler, Carolin, Moll, Iris, Herberich, Stefanie E., Espinet, Elisa, Herpel, Esther, Menuchin, Amitai, Chang-Claude, Jenny, Hoffmeister, Michael, Gebhardt, Christoffer, Brenner, Hermann, Trumpp, Andreas, Siebel, Christian W., Hecker, Markus, Utikal, Jochen, Sprinzak, David, and Fischer, Andreas

Published
2017
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7. Tcf20 deficiency is associated with increased liver fibrogenesis and alterations in mitochondrial metabolism in mice and humans

Author

Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Fundación Mutua Madrileña, European Commission, Fundació La Marató de TV3, Instituto de Salud Carlos III, Centro de Investigación Biomédica en Red Enfermedades Hepáticas y Digestivas (España), Jiménez, Wladimiro [0000-0002-9376-0214], Morales-Ruiz, Manuel [0000-0002-9074-2272], Córdoba-Jover, Bernat, Ribera, Jordi, Portolés, Irene, Lecue, Elena, Rodriguez-Vita, Juan, Pérez-Sisqués, Leticia, Mannara, Francesco, Solsona-Vilarrasa, Estel, Garcia-Ruiz, Carmen, Fernández-Checa, José C., Casals, Gregori, Rodríguez-Revenga, Laia, Álvarez-Mora, María Isabel, Arteche-López, Ana, Díaz de Bustamante, Aranzazu, Calvo, Rosa, Pujol, Anna, Azkargorta, Mikel, Elortza, Felix, Malagelada, Cristina, Pinyol, Roser, Huguet-Pradell, Júlia, Melgar-Lesmes, Pedro, Jiménez, Wladimiro, Morales-Ruiz, Manuel, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), Generalitat de Catalunya, Fundación Mutua Madrileña, European Commission, Fundació La Marató de TV3, Instituto de Salud Carlos III, Centro de Investigación Biomédica en Red Enfermedades Hepáticas y Digestivas (España), Jiménez, Wladimiro [0000-0002-9376-0214], Morales-Ruiz, Manuel [0000-0002-9074-2272], Córdoba-Jover, Bernat, Ribera, Jordi, Portolés, Irene, Lecue, Elena, Rodriguez-Vita, Juan, Pérez-Sisqués, Leticia, Mannara, Francesco, Solsona-Vilarrasa, Estel, Garcia-Ruiz, Carmen, Fernández-Checa, José C., Casals, Gregori, Rodríguez-Revenga, Laia, Álvarez-Mora, María Isabel, Arteche-López, Ana, Díaz de Bustamante, Aranzazu, Calvo, Rosa, Pujol, Anna, Azkargorta, Mikel, Elortza, Felix, Malagelada, Cristina, Pinyol, Roser, Huguet-Pradell, Júlia, Melgar-Lesmes, Pedro, Jiménez, Wladimiro, and Morales-Ruiz, Manuel

Abstract

Transcription co-activator factor 20 (TCF20) is a regulator of transcription factors involved in extracellular matrix remodelling. In addition, TCF20 genomic variants in humans have been associated with impaired intellectual disability. Therefore, we hypothesized that TCF20 has several functions beyond those described in neurogenesis, including the regulation of fibrogenesis.

Published
2023

8. Semaphorin 3C exacerbates liver fibrosis

Author

De Angelis Rigotti, Francesca, primary, Wiedmann, Lena, additional, Hubert, Max Ole, additional, Vacca, Margherita, additional, Hasan, Sana S., additional, Moll, Iris, additional, Carvajal, Silvia, additional, Jiménez, Wladimiro, additional, Starostecka, Maja, additional, Billeter, Adrian T., additional, Müller-Stich, Beat, additional, Wolff, Gretchen, additional, Ekim-Üstünel, Bilgen, additional, Herzig, Stephan, additional, Fandos-Ramo, Cristina, additional, Krätzner, Ralph, additional, Reich, Maria, additional, Keitel-Anselmino, Verena, additional, Heikenwälder, Mathias, additional, Mogler, Carolin, additional, Fischer, Andreas, additional, and Rodriguez-Vita, Juan, additional

Published
2023
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11. Supplementary material from Endothelial RBPJ Is Essential for the Education of Tumor-Associated Macrophages

Author

Alsina-Sanchis, Elisenda, primary, Mülfarth, Ronja, primary, Moll, Iris, primary, Böhn, Sarah, primary, Wiedmann, Lena, primary, Jordana-Urriza, Lorea, primary, Ziegelbauer, Tara, primary, Zimmer, Eleni, primary, Taylor, Jacqueline, primary, De Angelis Rigotti, Francesca, primary, Stögbauer, Adrian, primary, Giaimo, Benedetto Daniele, primary, Cerwenka, Adelheid, primary, Borggrefe, Tilman, primary, Fischer, Andreas, primary, and Rodriguez-Vita, Juan, primary

Published
2023
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12. Data from Endothelial RBPJ Is Essential for the Education of Tumor-Associated Macrophages

Author

Alsina-Sanchis, Elisenda, primary, Mülfarth, Ronja, primary, Moll, Iris, primary, Böhn, Sarah, primary, Wiedmann, Lena, primary, Jordana-Urriza, Lorea, primary, Ziegelbauer, Tara, primary, Zimmer, Eleni, primary, Taylor, Jacqueline, primary, De Angelis Rigotti, Francesca, primary, Stögbauer, Adrian, primary, Giaimo, Benedetto Daniele, primary, Cerwenka, Adelheid, primary, Borggrefe, Tilman, primary, Fischer, Andreas, primary, and Rodriguez-Vita, Juan, primary

Published
2023
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14. Endothelial RBPJ Is Essential for the Education of Tumor-Associated Macrophages

Author

Alsina-Sanchis, Elisenda, primary, Mülfarth, Ronja, additional, Moll, Iris, additional, Böhn, Sarah, additional, Wiedmann, Lena, additional, Jordana-Urriza, Lorea, additional, Ziegelbauer, Tara, additional, Zimmer, Eleni, additional, Taylor, Jacqueline, additional, De Angelis Rigotti, Francesca, additional, Stögbauer, Adrian, additional, Giaimo, Benedetto Daniele, additional, Cerwenka, Adelheid, additional, Borggrefe, Tilman, additional, Fischer, Andreas, additional, and Rodriguez-Vita, Juan, additional

Published
2022
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15. Tcf20 deficiency is associated with increased liver fibrogenesis and alterations in mitochondrial metabolism in mice and humans.

Author

Córdoba‐Jover, Bernat, Ribera, Jordi, Portolés, Irene, Lecue, Elena, Rodriguez‐Vita, Juan, Pérez‐Sisqués, Leticia, Mannara, Francesco, Solsona‐Vilarrasa, Estel, García‐Ruiz, Carmen, Fernández‐Checa, José C., Casals, Gregori, Rodríguez‐Revenga, Laia, Álvarez‐Mora, María Isabel, Arteche‐López, Ana, Díaz de Bustamante, Aranzazu, Calvo, Rosa, Pujol, Anna, Azkargorta, Mikel, Elortza, Felix, and Malagelada, Cristina

Subjects
KREBS cycle, PROTEOMICS, HEPATIC fibrosis, CYTOSKELETAL proteins, MITOCHONDRIA, SOX2 protein
Abstract

Background & Aims: Transcription co‐activator factor 20 (TCF20) is a regulator of transcription factors involved in extracellular matrix remodelling. In addition, TCF20 genomic variants in humans have been associated with impaired intellectual disability. Therefore, we hypothesized that TCF20 has several functions beyond those described in neurogenesis, including the regulation of fibrogenesis. Methods: Tcf20 knock‐out (Tcf20−/−) and Tcf20 heterozygous mice were generated by homologous recombination. TCF20 gene genotyping and expression was assessed in patients with pathogenic variants in the TCF20 gene. Neural development was investigated by immufluorescense. Mitochondrial metabolic activity was evaluated with the Seahorse analyser. The proteome analysis was carried out by gas chromatography mass‐spectrometry. Results: Characterization of Tcf20−/− newborn mice showed impaired neural development and death after birth. In contrast, heterozygous mice were viable but showed higher CCl4‐induced liver fibrosis and a differential expression of genes involved in extracellular matrix homeostasis compared to wild‐type mice, along with abnormal behavioural patterns compatible with autism‐like phenotypes. Tcf20−/− embryonic livers and mouse embryonic fibroblast (MEF) cells revealed differential expression of structural proteins involved in the mitochondrial oxidative phosphorylation chain, increased rates of mitochondrial metabolic activity and alterations in metabolites of the citric acid cycle. These results parallel to those found in patients with TCF20 pathogenic variants, including alterations of the fibrosis scores (ELF and APRI) and the elevation of succinate concentration in plasma. Conclusions: We demonstrated a new role of Tcf20 in fibrogenesis and mitochondria metabolism in mice and showed the association of TCF20 deficiency with fibrosis and metabolic biomarkers in humans. [ABSTRACT FROM AUTHOR]

Published
2023
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17. HAPLN1 is a driver for peritoneal carcinomatosis in pancreatic cancer

Author

Wiedmann, Lena, primary, De Angelis Rigotti, Francesca, additional, Vaquero-Siguero, Nuria, additional, Donato, Elisa, additional, Espinet, Elisa, additional, Moll, Iris, additional, Alsina-Sanchis, Elisenda, additional, Mülfarth, Ronja, additional, Vacca, Margherita, additional, Gerwing, Jennifer, additional, Trumpp, Andreas, additional, Fischer, Andreas, additional, and Rodriguez-Vita, Juan, additional

Published
2022
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19. Endothelial Rbpj is essential for the education of tumour-associated macrophages

Author

Mülfarth, Ronja, primary, Alsina-Sanchis, Elisenda, additional, Moll, Iris, additional, Böhn, Sarah, additional, Wiedmann, Lena, additional, Jordana, Lorea, additional, Ziegelbauer, Tara, additional, Taylor, Jacqueline, additional, De Angelis Rigotti, Francesca, additional, Stögbauer, Adrian, additional, Giaimo, Benedetto Daniele, additional, Cerwenka, Adelheid, additional, Borggrefe, Tilman, additional, Fischer, Andreas, additional, and Rodriguez-Vita, Juan, additional

Published
2021
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20. Hepatocyte-specific activity of TSC22D4 triggers progressive NAFLD by impairing mitochondrial function

Author

Wolff, Gretchen, primary, Sakurai, Minako, additional, Mhamane, Amit, additional, Maida, Adriano, additional, Deligiannis, Ioannis K., additional, Yin, Kelvin, additional, Weber, Peter, additional, Weider, Annika, additional, Troullinaki, Maria, additional, Zeigerer, Anja, additional, Roden, Michael, additional, Volk, Nadine, additional, Poth, Tanja, additional, Hackert, Thilo, additional, Wiedmann, Lena, additional, De Angelis Rigotti, Francesca, additional, Rodriguez-Vita, Juan, additional, Fischer, Andreas, additional, Mukthavaram, Rajesh, additional, Limphong, Pattraranee, additional, Tachikawa, Kiyoshi, additional, Karmali, Priya, additional, Payne, Joseph, additional, Chivukula, Padmanabh, additional, Ekim-Üstünel, Bilgen, additional, Martinez-Jimenez, Celia P., additional, Szendrödi, Julia, additional, Nawroth, Peter, additional, and Herzig, Stephan, additional

Published
2021
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22. Semaphorin 3C exacerbates liver fibrosis

Author

De Angelis Rigotti, Francesca, primary, Wiedmann, Lena, additional, Hubert, Max Ole, additional, Vacca, Margherita, additional, Hasan, Sana S., additional, Moll, Iris, additional, Carvajal, Silvia, additional, Jiménez, Wladimiro, additional, Starostecka, Maja, additional, Billeter, Adrian T, additional, Müller-Stich, Beat, additional, Wolff, Gretchen, additional, Ekim-Üstünel, Bilgen, additional, Herzig, Stephan, additional, Mogler, Carolin, additional, Fischer, Andreas, additional, and Rodriguez-Vita, Juan, additional

Published
2021
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23. Inhibitory effect of interleukin-1[beta] on angiotensin II-induced connective tissue growth factor and type IV collagen production in cultured mesangial cells

Author

Sanchez-Lopez, Elsa, Rodriguez-Vita, Juan, Cartier, Cecile, Ruperez, Monica, Esteban, Vanesa, Carvajal, Gisselle, Rodrigues-Diez, Raquel, Plaza, Juan Jose, Egido, Jesus, and Ruiz-Ortega, Marta

Subjects
Renin-angiotensin system -- Research, Interleukin-1 -- Research, Transforming growth factors -- Research, Metalloproteins -- Research, Biological sciences
Abstract

Connective tissue growth factor (CTGF) is overexpressed in kidney diseases associated with extracellular matrix accumulation. Angiotensin II (ANG II) participates in renal fibrosis by the upregulation of growth factors, including CTGF, and extracellular matrix proteins, such as type IV collagen. During renal injury, ANG II and the macrophage-produced cytokine interleukin-1[beta] (IL-1[beta]) may be present simultaneously in the glomerular environment. However, there are no studies about the interaction between ANG II and IL-1[beta] in renal fibrosis. For this reason, in cultured mesangial cells (MC), we investigated whether IL-1[beta] could regulate ANG II-mediated collagen accumulation and the mechanisms underlying this process. In MC, CTGF is a downstream mediator of type IV collagen production induced by ANG II. IL-1[beta] did not increase the production of CTGF and type IV collagen but significantly inhibited ANG II-induced CTGF and type IV collagen over-expression. Moreover, IL-1[beta] also inhibited type IV collagen upregulation caused by exogenous recombinant CTGF. Matrix metalloproteinase-9 (MMP-9) is the main enzyme involved in type IV collagen degradation. In MC, coincubation of IL-1[beta] and ANG II caused a synergistic increase in MMP-9 gene expression and activity, associated with type IV collagen inhibition. The described IL-1[beta] effects were dependent on activation of ERK/MAPK but independent p38-MAPK, JNK, phosphatidylinositol 3-kinase/Akt, and Rho-associated kinase pathways. In summary, these data indicate that IL-1[beta] inhibited ANG II-mediated type IV collagen production, via CTGF downregulation, and increased type IV collagen degradation, through MMP-9 upregulation. Our in vitro data show that the proinflammatory cytokine IL-1[beta] abrogates ANG II-induced CTGF production, describing antagonistic activities of proinflammatory cytokines on ANG II actions. transforming growth factor-[beta]; extracellular-regulated kinase; metalloproteinases

Published
2008

30. Human Tolerogenic Dendritic Cells Regulate Immune Responses through Lactate Synthesis

Author

Marín, Eros, Bouchet-Delbos, Laurence, Renoult, Ophélie, Louvet, Cédric, Nerrière-Daguin, Véronique, Managh, Amy, Even, Amandine, Giraud, Matthieu, Aguesse, Audrey, Bériou, Gaëlle, Chiffoleau, Elise, Alliot-Licht, Brigitte, Prieur, Xavier, Croyal, Mikaël, Hutchinson, James, Obermajer, Natasa, Geissler, Edward, Vanhove, Bernard, Blancho, Gilles, Josien, Régis, Pecqueur, Claire, Cuturi, Maria-Cristina, Moreau, Aurelie, Goossens, Pieter, Rodriguez-Vita, Juan, Etzerodt, Anders, Massé, Marion, Rastoin, Olivia, Gouirand, Victoire, Ulas, Thomas, Papantonopoulou, Olympia, Van Eck, Miranda, Auphan-Anezin, Nathalie, Bebien, Magali, Verthuy, Christophe, Vu Manh, Thien Phong, Turner, Martin, Dalod, Marc, Schultze, Joachim, Lawrence, Toby, Centre de Recherche en Transplantation et Immunologie (U1064 Inserm - CRTI), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), Université de Nantes (UN)-Université de Nantes (UN), Endothelium Radiobiology and Targeting (CRCINA-ÉQUIPE 14), Centre de Recherche en Cancérologie et Immunologie Nantes-Angers (CRCINA), Université d'Angers (UA)-Université de Nantes (UN)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Université d'Angers (UA)-Université de Nantes (UN)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre hospitalier universitaire de Nantes (CHU Nantes), LabEX IGO Immunothérapie Grand Ouest, Nantes Université (Nantes Univ), Institut de transplantation urologie-néphrologie (ITUN), Université de Nantes (UN)-Centre hospitalier universitaire de Nantes (CHU Nantes), Loughborough University, Centre d'Immunologie de Marseille - Luminy (CIML), Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Physiopathologie des Adaptations Nutritionnelles (PhAN), Institut National de la Recherche Agronomique (INRA)-Université de Nantes (UN), Unité de recherche de l'institut du thorax (ITX-lab), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), University Hospital Regensburg, University of Pittsburgh (PITT), Pennsylvania Commonwealth System of Higher Education (PCSHE), IMBIO-DC, the ONE Study (FP7-260687), and BIODRIM (FP7-305147), ANR-16-CE18-0001,hCX3CR1_ATDCs,CX3CR1, un marqueur clé pour définir les prochains essais cliniques de thérapie cellulaire à l'aide de cellules dendritiques tolérogènes(2016), ANR-11-LABX-0016,IGO,Immunothérapies Grand Ouest(2011), Bernardo, Elizabeth, CX3CR1, un marqueur clé pour définir les prochains essais cliniques de thérapie cellulaire à l'aide de cellules dendritiques tolérogènes - - hCX3CR1_ATDCs2016 - ANR-16-CE18-0001 - AAPG2016 - VALID, Laboratoires d'excellence - Immunothérapies Grand Ouest - - IGO2011 - ANR-11-LABX-0016 - LABX - VALID, Université de Nantes (UN)-Université de Nantes (UN)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Centre National de la Recherche Scientifique (CNRS)-Université d'Angers (UA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), Université de Nantes (UN)-Université de Nantes (UN)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Centre National de la Recherche Scientifique (CNRS)-Université d'Angers (UA), Dendritic cells and immunoregulation in transplantation and immunopathology (Team 1 - U1064 Inserm - CRTI), Université de Nantes (UN)-Université de Nantes (UN)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), Laboratoire d'Informatique, de Modélisation et d'Optimisation des Systèmes (LIMOS), Ecole Nationale Supérieure des Mines de St Etienne-Université Clermont Auvergne (UCA)-Centre National de la Recherche Scientifique (CNRS), Physiologie des Adaptations Nutritionnelles [UMR_A1280] (PhAN), unité de recherche de l'institut du thorax UMR1087 UMR6291 (ITX), Nutrition périnatale [Nantes] (Centres de Recherche en Nutrition Humaine - CRNH), Centre de Recherche en Nutrition Humaine - Ouest, Department of Surgery, Section of Experimental Surgery [Regensburg, Germany], Apoptosis and Tumor Progression (CRCINA-ÉQUIPE 9), Laboratoire de Planétologie et Géodynamique [UMR 6112] (LPG), Université d'Angers (UA)-Université de Nantes - Faculté des Sciences et des Techniques, Université de Nantes (UN)-Université de Nantes (UN)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Centre de Recherche en Cancérologie de Marseille (CRCM), Aix Marseille Université (AMU)-Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), University of Bonn, Leiden Amsterdam Center for Drug Research, Universiteit Leiden [Leiden], Kennedy Institute of Rheumatology, Imperial College London, Laboratory of Lymphocyte Signaling and Development, Life and Medical Sciences Institute for Genomics and Immunoregulation, Endothelium radiobiology and targeting (CRCINA - Département ONCO - Equipe 14), Centre de recherche de Cancérologie et d'Immunologie / Nantes - Angers (CRCINA), Université d'Angers (UA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), Université de Nantes (UN)-Université de Nantes (UN)-Université d'Angers (UA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), Université de Nantes (UN)-Université de Nantes (UN)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Apoptosis and tumor progression -ATP (CRCINA - Département ONCO - Equipe 9), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Aix Marseille Université (AMU), Laboratoire de Planétologie et Géodynamique UMR6112 (LPG), Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Nantes - Faculté des Sciences et des Techniques, Université de Nantes (UN)-Université de Nantes (UN)-Université d'Angers (UA), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Aix Marseille Université (AMU), Ecole Nationale Supérieure des Mines de St Etienne-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA), Université de Nantes (UN)-Institut National de la Recherche Agronomique (INRA), and Publica

Subjects
CD4-Positive T-Lymphocytes, Male, 0301 basic medicine, tolerance induction, Physiology, [SDV]Life Sciences [q-bio], T cell, immunometabolism, Cell, [SDV.CAN]Life Sciences [q-bio]/Cancer, Mice, SCID, Biology, Lymphocyte Activation, [SDV.IMM.II]Life Sciences [q-bio]/Immunology/Innate immunity, Monocytes, Autoimmune Diseases, Transcriptome, Cell therapy, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, [SDV.CAN] Life Sciences [q-bio]/Cancer, Mice, Inbred NOD, In vivo, Immune Tolerance, medicine, Animals, Humans, Glycolysis, Lactic Acid, Molecular Biology, ComputingMilieux_MISCELLANEOUS, Cells, Cultured, Immunosuppression Therapy, lactate, tolerogenic dendritic cells, cell therapy in humans, Dendritic Cells, Cell Biology, 3. Good health, Tolerance induction, 030104 developmental biology, medicine.anatomical_structure, Immunology, [SDV.IMM]Life Sciences [q-bio]/Immunology, Female, 030217 neurology & neurosurgery
Abstract

Cell therapy is a promising strategy for treating patients suffering from autoimmune or inflammatory diseases or receiving a transplant. Based on our preclinical studies, we have generated human autologous tolerogenic dendritic cells (ATDCs), which are being tested in a first-in-man clinical trial in kidney transplant recipients. Here, we report that ATDCs represent a unique subset of monocyte-derived cells based on phenotypic, transcriptomic, and metabolic analyses. ATDCs are characterized by their suppression of T cell proliferation and their expansion of Tregs through secreted factors. ATDCs produce high levels of lactate that shape T cell responses toward tolerance. Indeed, T cells take up ATDC-secreted lactate, leading to a decrease of their glycolysis. In vivo, ATDCs promote elevated levels of circulating lactate and delay graft-versus-host disease by reducing T cell proliferative capacity. The suppression of T cell immunity through lactate production by ATDCs is a novel mechanism that distinguishes ATDCs from other cell-based immunotherapies. Human autologous tolerogenic dendritic cells (ATDCs) are currently being evaluated in a clinical trial as a cell-based immunotherapy for kidney transplant recipients. Marin et al. report that ATDCs are glycolytic and produce high amounts of lactate. This secreted lactate is taken up by T cells, reducing their glycolytic flux and shifting T cell responses toward tolerance, thereby delaying graft-versus-host disease.

Published
2019
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33. Tumor-Induced Cholesterol Efflux from Macrophages Drives IL-4 Mediated Reprogramming and Tumor Progression

Author

Goossens, Pieter, primary, Rodriguez-Vita, Juan, additional, Etzerodt, Anders, additional, Masse, Marion, additional, Rastoin, Olivia, additional, Gouirand, Victoire, additional, Van Eck, Miranda, additional, Ulas, Thomas, additional, Papantonopoulou, Olympia, additional, Bebien, Magali, additional, Turner, Martin, additional, Manh, Thien Phong Vu, additional, Dalod, Marc, additional, Auphan-Anezin, Nathalie, additional, Schultze, Joachim L., additional, and Lawrence, Toby, additional

Published
2018
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42. Isolation of Murine Primary Aortic Smooth Muscle Cells.

Author

Hubert MO, Rodriguez-Vita J, Wiedmann L, and Fischer A

Abstract

Vascular smooth muscle cells (VSMCs) have been cultured for decades to study the role of these cells in cardiovascular disorders. The most common source of VSMCs is the rat aorta. Here we show the adaptation of this method to isolate and culture mouse aortic VSMCs. The advantage of this method is that there are many more transgenic mouse lines available compared to rats. The protocol consists of the isolation of the aorta, the liberation of vascular cells by the action of collagenase, culturing of VSCMs, and analyzing filamentous actin and alpha smooth muscle actin by fluorescence microscopy. VSCMs can be further used to study mechanisms underlying cardiovascular diseases. Graphic abstract: Figure 1.Working steps., Competing Interests: Competing interestsThe authors declare that they have no conflict of interest., (Copyright © 2021 The Authors; exclusive licensee Bio-protocol LLC.)

Published
2021
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43. Endothelin-1, via ETA receptor and independently of transforming growth factor-beta, increases the connective tissue growth factor in vascular smooth muscle cells.

Author

Rodriguez-Vita J, Ruiz-Ortega M, Rupérez M, Esteban V, Sanchez-López E, Plaza JJ, and Egido J

Subjects
1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt pharmacology, Angiotensin I pharmacology, Animals, Cells, Cultured, Connective Tissue Growth Factor, Extracellular Matrix Proteins metabolism, Extracellular Signal-Regulated MAP Kinases physiology, Immediate-Early Proteins analysis, Intercellular Signaling Peptides and Proteins analysis, Promoter Regions, Genetic, RNA, Messenger analysis, Rats, Rats, Inbred WKY, rhoA GTP-Binding Protein physiology, Endothelin-1 pharmacology, Gene Expression Regulation drug effects, Immediate-Early Proteins genetics, Intercellular Signaling Peptides and Proteins genetics, Muscle, Smooth, Vascular metabolism, Receptor, Endothelin A physiology, Transforming Growth Factor beta physiology
Abstract

Endothelin (ET)-1 is a potent vasoconstrictor that participates in cardiovascular diseases. Connective tissue growth factor (CTGF) is a novel fibrotic mediator that is overexpressed in human atherosclerotic lesions, myocardial infarction, and experimental models of hypertension. In vascular smooth muscle cells (VSMCs), CTGF regulates cell proliferation/apoptosis, migration, and extracellular matrix (ECM) accumulation. Our aim was to investigate whether ET-1 could regulate CTGF and to investigate the potential role of ET-1 in vascular fibrosis. In growth-arrested rat VSMCs, ET-1 upregulated CTGF mRNA expression, promoter activity, and protein production. The blockade of CTGF by a CTGF antisense oligonucleotide decreased FN and type I collagen expression in ET-1-treated cells, showing that CTGF participates in ET-1-induced ECM accumulation. The ETA, but not ETB, antagonist diminished ET-1-induced CTGF expression gene and production. Several intracellular signals elicited by ET-1, via ETA receptors, are involved in CTGF synthesis, including activation of RhoA/Rho-kinase and mitogen-activated protein kinase and production of reactive oxygen species. CTGF is a mediator of TGF-beta- and angiotensin (Ang) II-induced fibrosis. In VSMCs, ET-1 did not upregulate TGF-beta gene or protein. The presence of neutralizing transforming growth factor (TGF)-beta antibody did not modify ET-1-induced CTGF production, showing a TGF-beta-independent regulation. We have also found an interrelationship between Ang II and ET-1 because the ETA antagonist diminished CTGF upregulation caused by Ang II. Collectively, our results show that, in cultured VSMCs, ET-1, independently of TGF-beta and through the activation of several intracellular signals via ETA receptors, regulates CTGF. This novel finding suggests that CTGF could be a mediator of the profibrotic effects of ET-1 in vascular diseases.

Published
2005
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