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2. Estrogen receptor-α signaling in tanycytes lies at the crossroads of fertility and metabolism

Author

Fernandois, Daniela, Rusidzé, Mariam, Mueller-Fielitz, Helge, Sauve, Florent, Deligia, Eleonora, Silva, Mauro S.B., Evrard, Florence, Franco-García, Aurelio, Mazur, Daniele, Martinez-Corral, Ines, Jouy, Nathalie, Rasika, S., Maurage, Claude-Alain, Giacobini, Paolo, Nogueiras, Ruben, Dehouck, Benedicte, Schwaninger, Markus, Lenfant, Francoise, and Prevot, Vincent

Published
2024
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3. Leptin brain entry via a tanycytic LepR–EGFR shuttle controls lipid metabolism and pancreas function

Author

Duquenne, Manon, Folgueira, Cintia, Bourouh, Cyril, Millet, Marion, Silva, Anisia, Clasadonte, Jérôme, Imbernon, Monica, Fernandois, Daniela, Martinez-Corral, Ines, Kusumakshi, Soumya, Caron, Emilie, Rasika, S., Deliglia, Eleonora, Jouy, Nathalie, Oishi, Asturo, Mazzone, Massimiliano, Trinquet, Eric, Tavernier, Jan, Kim, Young-Bum, Ory, Stéphane, Jockers, Ralf, Schwaninger, Markus, Boehm, Ulrich, Nogueiras, Ruben, Annicotte, Jean-Sébastien, Gasman, Stéphane, Dam, Julie, and Prévot, Vincent

Published
2021
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4. Insights intoKIF11pathogenesis in Microcephaly-Lymphedema-Chorioretinopathy syndrome: a lymphatic perspective

Author

Ogmen, Kazim, primary, Dobbins, Sara, additional, Martinez-Corral, Ines, additional, Behncke, Rose Yinghan, additional, Brown, Ryan C.S., additional, Ulferts, Sascha, additional, Hansmeier, Nils Rouven, additional, Sackey, Ege, additional, Alqahtani, Ahlam, additional, Karapouliou, Christina, additional, Grigoriadis, Dionysios, additional, Oberlin, Michael, additional, Williams, Denise, additional, Ekici, Arzu, additional, Karaer, Kadri, additional, Jeffery, Steve, additional, Mortimer, Peter, additional, Gordon, Kristiana, additional, Hogan, Benjamin M., additional, Mäkinen, Taija, additional, Hägerling, René, additional, Mansour, Sahar, additional, Martin-Almedina, Silvia, additional, and Ostergaard, Pia, additional

Published
2023
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7. Tanycytic networks mediate energy balance by feeding lactate to glucose-insensitive POMC neurons

Author

Lhomme, Tori, Clasadonte, Jerome, Imbernon, Monica, Fernandois, Daniela, Sauve, Florent, Caron, Emilie, Lima, Natalia da Silva, Heras, Violeta, Martinez-Corral, Ines, Mueller-Fielitz, Helge, Rasika, Sowmyalakshmi, Schwaninger, Markus, Nogueiras, Ruben, and Prevot, Vincent

Subjects
Brain research, Neurons -- Physiological aspects, Biological transport -- Research, Dextrose -- Physiological aspects, Bioenergetics -- Research, Energy metabolism -- Research, Glucose -- Physiological aspects, Lactates -- Physiological aspects, Brain cells -- Physiological aspects, Health care industry
Abstract

Hypothalamic glucose sensing enables an organism to match energy expenditure and food intake to circulating levels of glucose, the main energy source of the brain. Here, we established that tanycytes of the arcuate nucleus of the hypothalamus, specialized glia that line the wall of the third ventricle, convert brain glucose supplies into lactate that they transmit through monocarboxylate transporters to arcuate proopiomelanocortin neurons, which integrate this signal to drive their activity and to adapt the metabolic response to meet physiological demands. Furthermore, this transmission required the formation of extensive connexin-43 gap junction-mediated metabolic networks by arcuate tanycytes. Selective suppression of either tanycytic monocarboxylate transporters or gap junctions resulted in altered feeding behavior and energy metabolism. Tanycytic intercellular communication and lactate production are thus integral to the mechanism by which hypothalamic neurons that regulate energy and glucose homeostasis efficiently perceive alterations in systemic glucose levels as a function of the physiological state of the organism., Introduction Glucose plays a dual role in the brain: it is both an essential fuel that sustains brain activity and an indicator of peripheral energy status. Circulating glucose levels fluctuate [...]

Published
2021
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8. Immune-interacting lymphatic endothelial subtype at capillary terminals drives lymphatic malformation

Author

Petkova, Milena, Kraft, Marle, Stritt, Simon, Martinez-Corral, Ines, Ortsäter, Henrik, Vanlandewijck, Michael, Jakic, Bojana, Baselga, Eulalia, Castillo, Sandra D., Graupera, Mariona, Betsholtz, Christer, Mäkinen, Taija, Petkova, Milena, Kraft, Marle, Stritt, Simon, Martinez-Corral, Ines, Ortsäter, Henrik, Vanlandewijck, Michael, Jakic, Bojana, Baselga, Eulalia, Castillo, Sandra D., Graupera, Mariona, Betsholtz, Christer, and Mäkinen, Taija

Abstract

Oncogenic mutations in PIK3CA, encoding p110 alpha-PI3K, are a common cause of venous and lymphatic malformations. Vessel type-specific disease pathogenesis is poorly understood, hampering development of efficient therapies. Here, we reveal a new immune-interacting subtype of Ptx3-positive dermal lymphatic capillary endothelial cells (iLECs) that recruit pro-lymphangiogenic macrophages to promote progressive lymphatic overgrowth. Mouse model of Pik3ca(H1047R)-driven vascular malformations showed that proliferation was induced in both venous and lymphatic ECs but sustained selectively in LECs of advanced lesions. Single-cell transcriptomics identified the iLEC population, residing at lymphatic capillary terminals of normal vasculature, that was expanded in Pik3ca(H1047R) mice. Expression of pro-inflammatory genes, including monocyte/macrophage chemokine Ccl2, in Pik3ca(H1047R)-iLECs was associated with recruitment of VEGF-C-producing macrophages. Macrophage depletion, CCL2 blockade, or anti-inflammatory COX-2 inhibition limited Pik3ca(H1047R)-driven lymphangiogenesis. Thus, targeting the paracrine crosstalk involving iLECs and macrophages provides a new therapeutic opportunity for lymphatic malformations. Identification of iLECs further indicates that peripheral lymphatic vessels not only respond to but also actively orchestrate inflammatory processes.

Published
2023
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9. Immune-interacting lymphatic endothelial subtype at capillary terminals drives lymphatic malformation

Author

Petkova, Milena, primary, Kraft, Marle, additional, Stritt, Simon, additional, Martinez-Corral, Ines, additional, Ortsäter, Henrik, additional, Vanlandewijck, Michael, additional, Jakic, Bojana, additional, Baselga, Eulàlia, additional, Castillo, Sandra D., additional, Graupera, Mariona, additional, Betsholtz, Christer, additional, and Mäkinen, Taija, additional

Published
2023
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10. PROX1 is a transcriptional regulator of MMP14

Author

Gramolelli, Silvia, Cheng, Jianpin, Martinez-Corral, Ines, Vähä-Koskela, Markus, Elbasani, Endrit, Kaivanto, Elisa, Rantanen, Ville, Tuohinto, Krista, Hautaniemi, Sampsa, Bower, Mark, Haglund, Caj, Alitalo, Kari, Mäkinen, Taija, Petrova, Tatiana V., Lehti, Kaisa, and Ojala, Päivi M.

Published
2018
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11. EPHB4 kinase-inactivating mutations cause autosomal dominant lymphatic-related hydrops fetalis

Author

Martin-Almedina, Silvia, Martinez-Corral, Ines, Holdhus, Rita, Vicente, Andres, Fotiou, Elisavet, Lin, Shin, Petersen, Kjell, Simpson, Michael A., Hoischen, Alexander, Gilissen, Christian, Jeffery, Heather, Atton, Giles, Karapouliou, Christina, Brice, Glen, Gordon, Kristiana, Wiseman, John W., Wedin, Marianne, Rockson, Stanley G., Jeffery, Steve, Mortimer, Peter S., Snyder, Michael P., Berland, Siren, Mansour, Sahar, Makinen, Taija, and Ostergaard, Pia

Subjects
Gene mutations -- Health aspects, Hydrops fetalis -- Genetic aspects -- Development and progression, Health care industry
Abstract

Hydrops fetalis describes fluid accumulation in at least 2 fetal compartments, including abdominal cavities, pleura, and pericardium, or in body tissue. The majority of hydrops fetalis cases are nonimmune conditions that present with generalized edema of the fetus, and approximately 15% of these nonimmune cases result from a lymphatic abnormality. Here, we have identified an autosomal dominant, inherited form of lymphatic-related (nonimmune) hydrops fetalis (LRHF). Independent exome sequencing projects on 2 families with a history of in utero and neonatal deaths associated with nonimmune hydrops fetalis uncovered 2 heterozygous missense variants in the gene encoding Eph receptor B4 (EPHB4). Biochemical analysis determined that the mutant EPHB4 proteins are devoid of tyrosine kinase activity, indicating that loss of EPHB4 signaling contributes to LRHF pathogenesis. Further, inactivation of Ephb4 in lymphatic endothelial cells of developing mouse embryos led to defective lymphovenous valve formation and consequent subcutaneous edema. Together, these findings identify EPHB4 as a critical regulator of early lymphatic vascular development and demonstrate that mutations in the gene can cause an autosomal dominant form of LRHF that is associated with a high mortality rate., Introduction Hydrops fetalis is defined as excessive fluid accumulation or edema in at least 2 fetal compartments. Nonimmune hydrops fetalis is the cause in more than 85% of cases, of [...]

Published
2016
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17. FOXC2 and fluid shear stress stabilize postnatal lymphatic vasculature

Author

Sabine, Amelie, Bovay, Esther, Demir, Cansaran Saygili, Kimura, Wataru, Jaquet, Muriel, Agalarov, Yan, Zangger, Nadine, Scallan, Joshua P., Graber, Werner, Gulpinar, Elgin, Kwak, Brenda R., Makinen, Taija, Martinez-Corral, Ines, Ortega, Sagrario, Delorenzi, Mauro, Kiefer, Friedemann, Davis, Michael J., Djonov, Valentin, Miura, Naoyuki, and Petrova, Tatiana V.

Subjects
Shear (Mechanics) -- Physiological aspects, Transcription factors -- Health aspects, Health care industry
Abstract

Biomechanical forces, such as fluid shear stress, govern multiple aspects of endothelial cell biology. In blood vessels, disturbed flow is associated with vascular diseases, such as atherosclerosis, and promotes endothelial cell proliferation and apoptosis. Here, we identified an important role for disturbed flow in lymphatic vessels, in which it cooperates with the transcription factor FOXC2 to ensure lifelong stability of the lymphatic vasculature. In cultured lymphatic endothelial cells, FOXC2 inactivation conferred abnormal shear stress sensing, promoting junction disassembly and entry into the cell cycle. Loss of FOXC2-dependent quiescence was mediated by the Hippo pathway transcriptional coactivator TAZ and, ultimately, led to cell death. In murine models, inducible deletion of Foxc2 within the lymphatic vasculature led to cell-cell junction defects, regression of valves, and focal vascular lumen collapse, which triggered generalized lymphatic vascular dysfunction and lethality. Together, our work describes a fundamental mechanism by which FOXC2 and oscillatory shear stress maintain lymphatic endothelial cell quiescence through intercellular junction and cytoskeleton stabilization and provides an essential link between biomechanical forces and endothelial cell identity that is necessary for postnatal vessel homeostasis. As FOXC2 is mutated in lymphedema-distichiasis syndrome, our data also underscore the role of impaired mechanotransduction in the pathology of this hereditary human disease., Introduction Active and complex signaling is involved both in the growth of new vessels and their stabilization and maintenance. Blood vessel stabilization encompasses proliferation arrest, restoration of the vascular barrier [...]

Published
2015
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19. Immunoregulatory subtype of dermal lymphatic endothelial cells at capillary terminals drives lymphatic malformations

Author

Petkova, Milena, primary, Kraft, Marle, additional, Stritt, Simon, additional, Martinez-Corral, Ines, additional, Ortsäter, Henrik, additional, Sun, Ying, additional, Vanlandewijck, Michael, additional, Jakic, Bojana, additional, Baselga, Eulàlia, additional, Castillo, Sandra D., additional, Graupera, Mariona, additional, Betsholtz, Christer, additional, and Mäkinen, Taija, additional

Published
2022
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20. Direct specification of lymphatic endothelium from non-venous angioblasts

Author

Lupu, Irina-Elena, primary, Kirschnick, Nils, additional, Weischer, Sarah, additional, Martinez-Corral, Ines, additional, Forrow, Aden, additional, Lahmann, Ines, additional, Riley, Paul R., additional, Zobel, Thomas, additional, Makinen, Taija, additional, Kiefer, Friedemann, additional, and Stone, Oliver A., additional

Published
2022
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25. Tamoxifen-independent recombination of reporter genes limits lineage tracing and mosaic analysis using CreER(T2) lines

Author

Alvarez, Alberto, Martinez-Corral, Ines, Daubel, Nina, Betsholtz, Christer, Mäkinen, Taija, Gängel, Konstantin, Alvarez, Alberto, Martinez-Corral, Ines, Daubel, Nina, Betsholtz, Christer, Mäkinen, Taija, and Gängel, Konstantin

Abstract

The CreER(T2)/loxP system is widely used to induce conditional gene deletion in mice. One of the main advantages of the system is that Cre-mediated recombination can be controlled in time through Tamoxifen administration. This has allowed researchers to study the function of embryonic lethal genes at later developmental timepoints. In addition, CreER(T2) mouse lines are commonly used in combination with reporter genes for lineage tracing and mosaic analysis. In order for these experiments to be reliable, it is crucial that the cell labeling approach only marks the desired cell population and their progeny, as unfaithful expression of reporter genes in other cell types or even unintended labeling of the correct cell population at an undesired time point could lead to wrong conclusions. Here we report that all CreER(T2) mouse lines that we have studied exhibit a certain degree of Tamoxifen-independent, basal, Cre activity. Using Ai14 and Ai3, two commonly used fluorescent reporter genes, we show that those basal Cre activity levels are sufficient to label a significant amount of cells in a variety of tissues during embryogenesis, postnatal development and adulthood. This unintended labelling of cells imposes a serious problem for lineage tracing and mosaic analysis experiments. Importantly, however, we find that reporter constructs differ greatly in their susceptibility to basal CreER(T2) activity. While Ai14 and Ai3 easily recombine under basal CreER(T2) activity levels, mTmG and R26R-EYFP rarely become activated under these conditions and are therefore better suited for cell tracking experiments.

Published
2020
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29. Genetic Lineage Tracing of Lymphatic Endothelial Cells in Mice.

Author

Martinez-Corral, Ines, Mäkinen, Taija, Martinez-Corral, Ines, and Mäkinen, Taija

Abstract

Lineage tracing allows for identification of all progeny produced by a single cell or groups of cells and can thus be used to assess developmental fate of cells. Here we focus on one of the most widely used lineage tracing approaches that utilize the Cre/loxP system for site-specific genetic recombination in studying the developmental origins of lymphatic endothelial cells (LECs) in the mouse embryo. We discuss general considerations for a successful Cre/loxP based lineage tracing experiment and provide information about strains that are available for genetic lineage tracing of LECs. A protocol for lineage tracing analysis of the lymphatic vasculature by whole-mount immunofluorescence in two embryonic tissues, the skin and the mesentery, is also provided.

Published
2018
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30. Matrix stiffness controls lymphatic vessel formation through regulation of a GATA2-dependent transcriptional program

Author

Frye, Maike, Taddei, Andrea, Dierkes, Cathrin, Martinez-Corral, Ines, Fielden, Matthew, Ortsäter, Henrik, Kazenwadel, Jan, Calado, Dinis P., Ostergaard, Pia, Salminen, Marjo, He, Liqun, Harvey, Natasha L., Kiefer, Friedemann, Mäkinen, Taija, Frye, Maike, Taddei, Andrea, Dierkes, Cathrin, Martinez-Corral, Ines, Fielden, Matthew, Ortsäter, Henrik, Kazenwadel, Jan, Calado, Dinis P., Ostergaard, Pia, Salminen, Marjo, He, Liqun, Harvey, Natasha L., Kiefer, Friedemann, and Mäkinen, Taija

Abstract

Tissue and vessel wall stiffening alters endothelial cell properties and contributes to vascular dysfunction. However, whether extracellular matrix (ECM) stiffness impacts vascular development is not known. Here we show that matrix stiffness controls lymphatic vascular morphogenesis. Atomic force microscopy measurements in mouse embryos reveal that venous lymphatic endothelial cell (LEC) progenitors experience a decrease in substrate stiffness upon migration out of the cardinal vein, which induces a GATA2-dependent transcriptional program required to form the first lymphatic vessels. Transcriptome analysis shows that LECs grown on a soft matrix exhibit increased GATA2 expression and a GATA2-dependent upregulation of genes involved in cell migration and lymphangiogenesis, including VEGFR3. Analyses of mouse models demonstrate a cell-autonomous function of GATA2 in regulating LEC responsiveness to VEGF-C and in controlling LEC migration and sprouting in vivo. Our study thus uncovers a mechanism by which ECM stiffness dictates the migratory behavior of LECs during early lymphatic development.

Published
2018
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31. Heterogeneity in VEGFR3 levels drives lymphatic vessel hyperplasia through cell-autonomous and non-cell-autonomous mechanisms

Author

Zhang, Yan, Ulvmar, Maria H., Stanczuk, Lukas, Martinez-Corral, Ines, Frye, Maike, Alitalo, Kari, Mäkinen, Taija, Zhang, Yan, Ulvmar, Maria H., Stanczuk, Lukas, Martinez-Corral, Ines, Frye, Maike, Alitalo, Kari, and Mäkinen, Taija

Abstract

Incomplete delivery to the target cells is an obstacle for successful gene therapy approaches. Here we show unexpected effects of incomplete targeting, by demonstrating how heterogeneous inhibition of a growth promoting signaling pathway promotes tissue hyperplasia. We studied the function of the lymphangiogenic VEGFR3 receptor during embryonic and post-natal development. Inducible genetic deletion of Vegfr3 in lymphatic endothelial cells (LECs) leads to selection of non-targeted VEGFR3+cells at vessel tips, indicating an indispensable cell-autonomous function in migrating tip cells. Although Vegfr3 deletion results in lymphatic hypoplasia in mouse embryos, incomplete deletion during post-natal development instead causes excessive lymphangiogenesis. Analysis of mosaically targeted endothelium shows that VEGFR3-LECs non-cell-autonomously drive abnormal vessel anastomosis and hyperplasia by inducing proliferation of non-targeted VEGFR3+LECs through cell-contact-dependent reduction of Notch signaling. Heterogeneity in VEGFR3 levels thus drives vessel hyperplasia, which has implications for the understanding of mechanisms of developmental and pathological tissue growth.

Published
2018
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32. Matrix stiffness controls lymphatic vessel formation through regulation of a GATA2-dependent transcriptional program

Author

Frye, Maike, primary, Taddei, Andrea, additional, Dierkes, Cathrin, additional, Martinez-Corral, Ines, additional, Fielden, Matthew, additional, Ortsäter, Henrik, additional, Kazenwadel, Jan, additional, Calado, Dinis P., additional, Ostergaard, Pia, additional, Salminen, Marjo, additional, He, Liqun, additional, Harvey, Natasha L., additional, Kiefer, Friedemann, additional, and Mäkinen, Taija, additional

Published
2018
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34. Whole-body imaging of lymphovascular niches identifies pre-metastatic roles of midkine

Author

Olmeda, David, Cerezo-Wallis, Daniela, Riveiro-Falkenbach, Erica, Pennacchi, Paula C., Contreras-Alcalde, Marta, Ibarz, Nuria, Cifdaloz, Metehan, Catena, Xavier, Calvo, Tonantzin G., Canon, Estela, Alonso-Curbelo, Direna, Suarez, Javier, Osterloh, Lisa, Grana, Osvaldo, Mulero, Francisca, Megias, Diego, Canamero, Marta, Martinez-Torrecuadrada, Jorge L., Mondal, Chandrani, Di Martino, Julie, Lora, David, Martinez-Corral, Ines, Bravo-Cordero, J. Javier, Munoz, Javier, Puig, Susana, Ortiz-Romero, Pablo, Rodriguez-Peralto, Jose L., Ortega, Sagrario, Soengas, Maria S., Olmeda, David, Cerezo-Wallis, Daniela, Riveiro-Falkenbach, Erica, Pennacchi, Paula C., Contreras-Alcalde, Marta, Ibarz, Nuria, Cifdaloz, Metehan, Catena, Xavier, Calvo, Tonantzin G., Canon, Estela, Alonso-Curbelo, Direna, Suarez, Javier, Osterloh, Lisa, Grana, Osvaldo, Mulero, Francisca, Megias, Diego, Canamero, Marta, Martinez-Torrecuadrada, Jorge L., Mondal, Chandrani, Di Martino, Julie, Lora, David, Martinez-Corral, Ines, Bravo-Cordero, J. Javier, Munoz, Javier, Puig, Susana, Ortiz-Romero, Pablo, Rodriguez-Peralto, Jose L., Ortega, Sagrario, and Soengas, Maria S.

Abstract

Cutaneous melanoma is a type of cancer with an inherent potential for lymph node colonization, which is generally preceded by neolymphangiogenesis(1-3). However, sentinel lymph node removal does not necessarily extend the overall survival of patients with melanoma(4,5). Moreover, lymphatic vessels collapse and become dysfunctional as melanomas progress(6,7). Therefore, it is unclear whether (and how) lymphangiogenesis contributes to visceral metastasis. Soluble and vesicle-associated proteins secreted by tumours and/or their stroma have been proposed to condition pre-metastatic sites in patients with melanoma(8-14). Still, the identities and prognostic value of lymphangiogenic mediators remain unclear(2,14). Moreover, our understanding of lymphangiogenesis (in melanomas and other tumour types) is limited by the paucity of mouse models for live imaging of distal pre-metastatic niches(15). Injectable lymphatic tracers have been developed(7), but their limited diffusion precludes whole-body imaging at visceral sites(16). Vascular endothelial growth factor receptor 3 (VEGFR3) is an attractive 'lymphoreporter' 17 because its expression is strongly downregulated in normal adult lymphatic endothelial cells, but is activated in pathological situations such as inflammation and cancer(17,18). Here, we exploit this inducibility of VEGFR3 to engineer mouse melanoma models for whole-body imaging of metastasis generated by human cells, clinical biopsies or endogenously deregulated oncogenic pathways. This strategy revealed early induction of distal pre-metastatic niches uncoupled from lymphangiogenesis at primary lesions. Analyses of the melanoma secretome and validation in clinical specimens showed that the heparin-binding factor midkine is a systemic inducer of neo-lymphangiogenesis that defines patient prognosis. This role of midkine was linked to a paracrine activation of the mTOR pathway in lymphatic endothelial cells. These data support the use of VEGFR3 reporter mice as a

Published
2017
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35. Pdgfrb-Cre targets lymphatic endothelial cells of both venous and non-venous origins

Author

Ulvmar, Maria H, Martinez-Corral, Ines, Stanczuk, Lukas, Mäkinen, Taija, Ulvmar, Maria H, Martinez-Corral, Ines, Stanczuk, Lukas, and Mäkinen, Taija

Abstract

The Pdgfrb-Cre line has been used as a tool to specifically target pericytes and vascular smooth muscle cells. Recent studies showed additional targeting of cardiac and mesenteric lymphatic endothelial cells (LECs) by the Pdgfrb-Cre transgene. In the heart, this was suggested to provide evidence for a previously unknown non-venous source of LECs originating from yolk sac (YS) hemogenic endothelium (HemEC). Here we show that Pdgfrb-Cre does not, however, target YS HemEC or YS-derived erythro-myeloid progenitors (EMPs). Instead, a high proportion of ECs in embryonic blood vessels of multiple organs, as well as venous derived LECs were targeted. Assessment of temporal Cre activity using the R26-mTmG double reporter suggested recent occurrence of Pdgfrb-Cre recombination in both blood and lymphatic ECs. It thus cannot be excluded that Pdgfrb-Cre mediated targeting of LECs is due to de novo expression of the Pdgfrb-Cre transgene or their previously established venous endothelial origin. Importantly, Pdgfrb-Cre targeting of LECs does not provide evidence for YS HemEC origin of the lymphatic vasculature. Our results highlight the need for careful interpretation of lineage tracing using constitutive Cre lines that cannot discriminate active from historical expression. The early vascular targeting by the Pdgfrb-Cre also warrants consideration for its use in studies of mural cells.

Published
2016
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36. Diphtheria toxin-mediated ablation of lymphatic endothelial cells results in progressive lymphedema

Author

Gardenier, Jason C., Hespe, Geoffrey E., Kataru, Raghu P., Savetsky, Ira L., Torrisi, Jeremy S., Nores, Gabriela D. Garcia, Dayan, Joseph J., Chang, David, Zampell, Jamie, Martinez-Corral, Ines, Ortega, Sagrario, Mehrara, Babak J., Gardenier, Jason C., Hespe, Geoffrey E., Kataru, Raghu P., Savetsky, Ira L., Torrisi, Jeremy S., Nores, Gabriela D. Garcia, Dayan, Joseph J., Chang, David, Zampell, Jamie, Martinez-Corral, Ines, Ortega, Sagrario, and Mehrara, Babak J.

Abstract

Development of novel treatments for lymphedema has been limited by the fact that the pathophysiology of this disease is poorly understood. It remains unknown, for example, why limb swelling resulting from surgical injury resolves initially, but recurs in some cases months or years later. Finding answers for these basic questions has been hampered by the lack of adequate animal models. In the current study, we used Cre-lox mice that expressed the human diphtheria toxin receptor (DTR) driven by a lymphatic-specific promoter in order to noninvasively ablate the lymphatic system of the hind limb. Animals treated in this manner developed lymphedema that was indistinguishable from clinical lymphedema temporally, radiographically, and histologically. Using this model and clinical biopsy specimens, we show that the initial resolution of edema after injury is dependent on the formation of collateral capillary lymphatics and that this process is regulated by M2-polarized macrophages. In addition, we show that despite these initial improvements in lymphatic function, persistent accumulation of CD4(+) cells inhibits lymphangiogenesis and promotes sclerosis of collecting lymphatics, resulting in late onset of edema and fibrosis. Our findings therefore provide strong evidence that inflammatory changes after lymphatic injury play a key role in the pathophysiology of lymphedema.

Published
2016
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37. Lymph Node Transplantation Decreases Swelling and Restores Immune Responses in a Transgenic Model of Lymphedema

Author

Huang, Jung-Ju, Gardenier, Jason C., Hespe, Geoffrey E., Nores, Gabriela D. Garcia, Kataru, Raghu P., Ly, Catherine L., Martinez-Corral, Ines, Ortega, Sagrario, Mehrara, Babak J., Huang, Jung-Ju, Gardenier, Jason C., Hespe, Geoffrey E., Nores, Gabriela D. Garcia, Kataru, Raghu P., Ly, Catherine L., Martinez-Corral, Ines, Ortega, Sagrario, and Mehrara, Babak J.

Abstract

Introduction Secondary lymphedema is a common complication of cancer treatment and recent studies have demonstrated that lymph node transplantation (LNT) can decrease swelling, as well as the incidence of infections. However, although these results are exciting, the mechanisms by which LNT improves these pathologic findings of lymphedema remain unknown. Using a transgenic mouse model of lymphedema, this study sought to analyze the effect of LNT on lymphatic regeneration and T cell-mediated immune responses. Methods We used a mouse model in which the expression of the human diphtheria toxin receptor is driven by the FLT4 promoter to enable the local ablation of the lymphatic system through subdermal hindlimb diphtheria toxin injections. Popliteal lymph node dissection was subsequently performed after a two-week recovery period, followed by either orthotopic LNT or sham surgery after an additional two weeks. Hindlimb swelling, lymphatic vessel regeneration, immune cell trafficking, and T cell-mediated immune responses were analyzed 10 weeks later. Results LNT resulted in a marked decrease in hindlimb swelling, fibroadipose tissue deposition, and decreased accumulation of perilymphatic inflammatory cells, as compared to controls. In addition, LNT induced a marked lymphangiogenic response in both capillary and collecting lymphatic vessels. Interestingly, the resultant regenerated lymphatics were abnormal in appearance on lymphangiography, but LNT also led to a notable increase in dendritic cell trafficking from the periphery to the inguinal lymph nodes and improved adaptive immune responses. Conclusions LNT decreases pathological changes of lymphedema and was shown to potently induce lymphangiogenesis. Lymphatic vessels induced by LNT were abnormal in appearance, but were functional and able to transport antigen-presenting cells. Animals treated with LNT have an increased ability to mount T cell-mediated immune responses when sensitized to antigens in the affected hindl

Published
2016
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39. Nonvenous Origin of Dermal Lymphatic Vasculature

Author

Martinez-Corral, Ines, Ulvmar, Maria H., Stanczuk, Lukas, Tatin, Florence, Kizhatil, Krishnakumar, John, Simon W. M., Alitalo, Kari, Ortega, Sagrario, Mäkinen, Taija, Martinez-Corral, Ines, Ulvmar, Maria H., Stanczuk, Lukas, Tatin, Florence, Kizhatil, Krishnakumar, John, Simon W. M., Alitalo, Kari, Ortega, Sagrario, and Mäkinen, Taija

Abstract

Rationale: The formation of the blood vasculature is achieved via 2 fundamentally different mechanisms, de novo formation of vessels from endothelial progenitors (vasculogenesis) and sprouting of vessels from pre-existing ones (angiogenesis). In contrast, mammalian lymphatic vasculature is thought to form exclusively by sprouting from embryonic veins (lymphangiogenesis). Alternative nonvenous sources of lymphatic endothelial cells have been suggested in chicken and Xenopus, but it is unclear whether they exist in mammals. Objective: We aimed to clarify the origin of the murine dermal lymphatic vasculature. Methods and Results: We performed lineage tracing experiments and analyzed mutants lacking the Prox1 transcription factor, a master regulator of lymphatic endothelial cell identity, in Tie2 lineage venous-derived lymphatic endothelial cells. We show that, contrary to current dogma, a significant part of the dermal lymphatic vasculature forms independently of sprouting from veins. Although lymphatic vessels of cervical and thoracic skin develop via sprouting from venous-derived lymph sacs, vessels of lumbar and dorsal midline skin form via assembly of non-Tie2-lineage cells into clusters and vessels through a process defined as lymphvasculogenesis. Conclusions: Our results demonstrate a significant contribution of nonvenous-derived cells to the dermal lymphatic vasculature. Demonstration of a previously unknown lymphatic endothelial cell progenitor population will now allow further characterization of their origin, identity, and functions during normal lymphatic development and in pathology, as well as their potential therapeutic use for lymphatic regeneration.

Published
2015
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40. cKit Lineage Hemogenic Endothelium-Derived Cells Contribute to Mesenteric Lymphatic Vessels

Author

Stanczuk, Lukas, Martinez-Corral, Ines, Ulvmar, Maria H., Zhang, Yang, Laviña, Bàrbara, Fruttiger, Marcus, Adams, Ralf H., Saur, Dieter, Betsholtz, Christer, Ortega, Sagrario, Alitalo, Kari, Graupera, Mariona, Mäkinen, Taija, Stanczuk, Lukas, Martinez-Corral, Ines, Ulvmar, Maria H., Zhang, Yang, Laviña, Bàrbara, Fruttiger, Marcus, Adams, Ralf H., Saur, Dieter, Betsholtz, Christer, Ortega, Sagrario, Alitalo, Kari, Graupera, Mariona, and Mäkinen, Taija

Abstract

Pathological lymphatic diseases mostly affect vessels in specific tissues, yet little is known about organ-specific regulation of the lymphatic vasculature. Here, we show that the vascular endothelial growth factor receptor 3 (VEGFR-3)/p110 alpha PI3-kinase signaling pathway is selectively required for the formation of mesenteric lymphatic vasculature. Using genetic lineage tracing, we demonstrate that part of the mesenteric lymphatic vasculature develops from cKit lineage cells of hemogenic endothelial origin through a process we define as lymphvasculogenesis. This is contrary to the current dogma that all mammalian lymphatic vessels form by sprouting from veins. Our results reveal vascular-bed-specific differences in the origin and mechanisms of vessel formation, which may critically underlie organ-specific manifestation of lymphatic dysfunction in disease. The progenitor cells identified in this study may be exploited to restore lymphatic function following cancer surgery, lymphedema, or tissue trauma.

Published
2015
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41. Heterogeneity in VEGFR3 levels drives lymphatic vessel hyperplasia through cell-autonomous and non-cell-autonomous mechanisms.

Author

Yan Zhang, Ulvmar, Maria H., Stanczuk, Lukas, Martinez-Corral, Ines, Frye, Maike, Alitalo, Kari, and Mäkinen, Taija

Subjects
HYPERPLASIA, EMBRYOLOGY, ENDOTHELIAL cells, GENE therapy, HETEROGENEITY
Abstract

Incomplete delivery to the target cells is an obstacle for successful gene therapy approaches. Here we show unexpected effects of incomplete targeting, by demonstrating how heterogeneous inhibition of a growth promoting signaling pathway promotes tissue hyperplasia. We studied the function of the lymphangiogenic VEGFR3 receptor during embryonic and postnatal development. Inducible genetic deletion of Vegfr3 in lymphatic endothelial cells (LECs) leads to selection of non-targeted VEGFR3+ cells at vessel tips, indicating an indispensable cell-autonomous function in migrating tip cells. Although Vegfr3 deletion results in lymphatic hypoplasia in mouse embryos, incomplete deletion during post-natal development instead causes excessive lymphangiogenesis. Analysis of mosaically targeted endothelium shows that VEGFR3- LECs non-cell-autonomously drive abnormal vessel anastomosis and hyperplasia by inducing proliferation of non-targeted VEGFR3+ LECs through cell-contactdependent reduction of Notch signaling. Heterogeneity in VEGFR3 levels thus drives vessel hyperplasia, which has implications for the understanding of mechanisms of developmental and pathological tissue growth. [ABSTRACT FROM AUTHOR]

Published
2018
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42. Nonvenous Origin of Dermal Lymphatic Vasculature

Author

Martinez-Corral, Ines, primary, Ulvmar, Maria H., additional, Stanczuk, Lukas, additional, Tatin, Florence, additional, Kizhatil, Krishnakumar, additional, John, Simon W.M., additional, Alitalo, Kari, additional, Ortega, Sagrario, additional, and Makinen, Taija, additional

Published
2015
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43. cKit Lineage Hemogenic Endothelium-Derived Cells Contribute to Mesenteric Lymphatic Vessels

Author

Stanczuk, Lukas, primary, Martinez-Corral, Ines, additional, Ulvmar, Maria H., additional, Zhang, Yang, additional, Laviña, Bàrbara, additional, Fruttiger, Marcus, additional, Adams, Ralf H., additional, Saur, Dieter, additional, Betsholtz, Christer, additional, Ortega, Sagrario, additional, Alitalo, Kari, additional, Graupera, Mariona, additional, and Mäkinen, Taija, additional

Published
2015
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44. Mutations in KIF11 cause autosomal-dominant microcephaly variably associated with congenital lymphedema and chorioretinopathy.

Author

Ostergaard, Pia, Simpson, Michael A, Mendola, Antonella, Vasudevan, Pradeep, Connell, Fiona C, van Impel, Andreas, Moore, Anthony T, Loeys, Bart L, Ghalamkarpour, Arash, Onoufriadis, Alexandros, Martinez-Corral, Ines, Devery, Sophie, Leroy, Jules G, van Laer, Lut, Singer, Amihood, Bialer, Martin G, McEntagart, Meriel, Quarrell, Oliver, Brice, Glen, Trembath, Richard C, Schulte-Merker, Stefan, Mäkinen, Taija, Vikkula, Miikka, Mortimer, Peter S, Mansour, Sahar, Jeffery, Steve, Ostergaard, Pia, Simpson, Michael A, Mendola, Antonella, Vasudevan, Pradeep, Connell, Fiona C, van Impel, Andreas, Moore, Anthony T, Loeys, Bart L, Ghalamkarpour, Arash, Onoufriadis, Alexandros, Martinez-Corral, Ines, Devery, Sophie, Leroy, Jules G, van Laer, Lut, Singer, Amihood, Bialer, Martin G, McEntagart, Meriel, Quarrell, Oliver, Brice, Glen, Trembath, Richard C, Schulte-Merker, Stefan, Mäkinen, Taija, Vikkula, Miikka, Mortimer, Peter S, Mansour, Sahar, and Jeffery, Steve

Abstract

We have identified KIF11 mutations in individuals with syndromic autosomal-dominant microcephaly associated with lymphedema and/or chorioretinopathy. Initial whole-exome sequencing revealed heterozygous KIF11 mutations in three individuals with a combination of microcephaly and lymphedema from a microcephaly-lymphedema-chorioretinal-dysplasia cohort. Subsequent Sanger sequencing of KIF11 in a further 15 unrelated microcephalic probands with lymphedema and/or chorioretinopathy identified additional heterozygous mutations in 12 of them. KIF11 encodes EG5, a homotetramer kinesin motor. The variety of mutations we have found (two nonsense, two splice site, four missense, and six indels causing frameshifts) are all predicted to have an impact on protein function. EG5 has previously been shown to play a role in spindle assembly and function, and these findings highlight the critical role of proteins necessary for spindle formation in CNS development. Moreover, identification of KIF11 mutations in patients with chorioretinopathy and lymphedema suggests that EG5 is involved in the development and maintenance of retinal and lymphatic structures.

Published
2012
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45. Mutations in KIF11 cause autosomal-dominant microcephaly variably associated with congenital lymphedema and chorioretinopathy.

Author

UCL - SSS/DDUV - Institut de Duve, Autre - Autre, Ostergaard, Pia, Simpson, Michael A, Mendola, Antonella, Vasudevan, Pradeep, Connell, Fiona C, van Impel, Andreas, Moore, Anthony T, Loeys, Bart L, Ghalamkarpour, Arash, Onoufriadis, Alexandros, Martinez-Corral, Ines, Devery, Sophie, Leroy, Jules G, van Laer, Lut, Singer, Amihood, Bialer, Martin G, McEntagart, Meriel, Quarrell, Oliver, Brice, Glen, Trembath, Richard C, Schulte-Merker, Stefan, Makinen, Taija, Vikkula, Miikka, Mortimer, Peter S, Mansour, Sahar, Jeffery, Steve, UCL - SSS/DDUV - Institut de Duve, Autre - Autre, Ostergaard, Pia, Simpson, Michael A, Mendola, Antonella, Vasudevan, Pradeep, Connell, Fiona C, van Impel, Andreas, Moore, Anthony T, Loeys, Bart L, Ghalamkarpour, Arash, Onoufriadis, Alexandros, Martinez-Corral, Ines, Devery, Sophie, Leroy, Jules G, van Laer, Lut, Singer, Amihood, Bialer, Martin G, McEntagart, Meriel, Quarrell, Oliver, Brice, Glen, Trembath, Richard C, Schulte-Merker, Stefan, Makinen, Taija, Vikkula, Miikka, Mortimer, Peter S, Mansour, Sahar, and Jeffery, Steve

Abstract

We have identified KIF11 mutations in individuals with syndromic autosomal-dominant microcephaly associated with lymphedema and/or chorioretinopathy. Initial whole-exome sequencing revealed heterozygous KIF11 mutations in three individuals with a combination of microcephaly and lymphedema from a microcephaly-lymphedema-chorioretinal-dysplasia cohort. Subsequent Sanger sequencing of KIF11 in a further 15 unrelated microcephalic probands with lymphedema and/or chorioretinopathy identified additional heterozygous mutations in 12 of them. KIF11 encodes EG5, a homotetramer kinesin motor. The variety of mutations we have found (two nonsense, two splice site, four missense, and six indels causing frameshifts) are all predicted to have an impact on protein function. EG5 has previously been shown to play a role in spindle assembly and function, and these findings highlight the critical role of proteins necessary for spindle formation in CNS development. Moreover, identification of KIF11 mutations in patients with chorioretinopathy and lymphedema suggests that EG5 is involved in the development and maintenance of retinal and lymphatic structures.

Published
2012

46. Mutations in GATA2 cause primary lymphedema associated with a predisposition to acute myeloid leukemia (Emberger syndrome).

Author

Ostergaard, Pia, Simpson, Michael A, Connell, Fiona C, Steward, Colin G, Brice, Glen, Woollard, Wesley J, Dafou, Dimitra, Kilo, Tatjana, Smithson, Sarah, Lunt, Peter, Murday, Victoria A, Hodgson, Shirley, Keenan, Russell, Pilz, Daniela T, Martinez-Corral, Ines, Mäkinen, Taija, Mortimer, Peter S, Jeffery, Steve, Trembath, Richard C, Mansour, Sahar, Ostergaard, Pia, Simpson, Michael A, Connell, Fiona C, Steward, Colin G, Brice, Glen, Woollard, Wesley J, Dafou, Dimitra, Kilo, Tatjana, Smithson, Sarah, Lunt, Peter, Murday, Victoria A, Hodgson, Shirley, Keenan, Russell, Pilz, Daniela T, Martinez-Corral, Ines, Mäkinen, Taija, Mortimer, Peter S, Jeffery, Steve, Trembath, Richard C, and Mansour, Sahar

Abstract

We report an allelic series of eight mutations in GATA2 underlying Emberger syndrome, an autosomal dominant primary lymphedema associated with a predisposition to acute myeloid leukemia. GATA2 is a transcription factor that plays an essential role in gene regulation during vascular development and hematopoietic differentiation. Our findings indicate that haploinsufficiency of GATA2 underlies primary lymphedema and predisposes to acute myeloid leukemia in this syndrome.

Published
2011
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47. Vegfr3- CreER mouse, a new genetic tool for targeting the lymphatic system.

Author

Martinez-Corral, Ines, Stanczuk, Lukas, Frye, Maike, Ulvmar, Maria, Diéguez-Hurtado, Rodrigo, Olmeda, David, Makinen, Taija, and Ortega, Sagrario

Subjects
VASCULAR endothelial growth factor receptors, LYMPHATICS, ENDOTHELIAL cells, GENE targeting, EMBRYONIC stem cells, TAMOXIFEN
Abstract

The lymphatic system is essential in many physiological and pathological processes. Still, much remains to be known about the molecular mechanisms that control its development and function and how to modulate them therapeutically. The study of these mechanisms will benefit from better controlled genetic mouse models targeting specifically lymphatic endothelial cells. Among the genes expressed predominantly in lymphatic endothelium, Vegfr3 was the first one identified and is still considered to be one of the best lymphatic markers and a key regulator of the lymphatic system. Here, we report the generation of a Vegfr3- CreER knockin mouse by gene targeting in embryonic stem cells. This mouse expresses the tamoxifen-inducible CreER recombinase under the endogenous transcriptional control of the Vegfr3 gene without altering its physiological expression or regulation. The Vegfr3- CreER allele drives efficient recombination of floxed sequences upon tamoxifen administration specifically in Vegfr3-expressing cells, both in vitro, in primary lymphatic endothelial cells, and in vivo, at different stages of mouse embryonic development and postnatal life. Thus, our Vegfr3- CreER mouse constitutes a new powerful genetic tool for lineage tracing analysis and for conditional gene manipulation in the lymphatic endothelium that will contribute to improve our current understanding of this system. [ABSTRACT FROM AUTHOR]

Published
2016
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48. Mutations in KIF11 Cause Autosomal-Dominant Microcephaly Variably Associated with Congenital Lymphedema and Chorioretinopathy

Author

Ostergaard, Pia, primary, Simpson, Michael A., additional, Mendola, Antonella, additional, Vasudevan, Pradeep, additional, Connell, Fiona C., additional, van Impel, Andreas, additional, Moore, Anthony T., additional, Loeys, Bart L., additional, Ghalamkarpour, Arash, additional, Onoufriadis, Alexandros, additional, Martinez-Corral, Ines, additional, Devery, Sophie, additional, Leroy, Jules G., additional, van Laer, Lut, additional, Singer, Amihood, additional, Bialer, Martin G., additional, McEntagart, Meriel, additional, Quarrell, Oliver, additional, Brice, Glen, additional, Trembath, Richard C., additional, Schulte-Merker, Stefan, additional, Makinen, Taija, additional, Vikkula, Miikka, additional, Mortimer, Peter S., additional, Mansour, Sahar, additional, and Jeffery, Steve, additional

Published
2012
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49. Mutations in GATA2 cause primary lymphedema associated with a predisposition to acute myeloid leukemia (Emberger syndrome)

Author

Ostergaard, Pia, primary, Simpson, Michael A, additional, Connell, Fiona C, additional, Steward, Colin G, additional, Brice, Glen, additional, Woollard, Wesley J, additional, Dafou, Dimitra, additional, Kilo, Tatjana, additional, Smithson, Sarah, additional, Lunt, Peter, additional, Murday, Victoria A, additional, Hodgson, Shirley, additional, Keenan, Russell, additional, Pilz, Daniela T, additional, Martinez-Corral, Ines, additional, Makinen, Taija, additional, Mortimer, Peter S, additional, Jeffery, Steve, additional, Trembath, Richard C, additional, and Mansour, Sahar, additional

Published
2011
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