Medizinische Universität Graz Austria/Österreich - Forschungsportal - Medical University of Graz
Liechtenstein Nathalie |
** = Publikationen gelistet in SCI/SSCI/Pubmed
2012
Abstract (Zeitschrift)
** Etchart, N; Reinisch, A; Ortner, A; Fruhwirth, M; Hofmann, N; Rohban, R; Url, C; Schallmoser, K; Beham-Schmid, C; Strunk, D
Platelet-derived factors preserve human mesenchymal cell stemness and promote endochondral bone and marrow niche formation via PDGF-receptor signalling
BONE MARROW TRANSPL. 2012; 47: S49-S50.
[Oral Communication]
Web of Science
** Hofmann, NA; Ortner, A; Jacamo, RO; Reinisch, A; Etchart, N; Schallmoser, K; Fruehwirth, M; Rohban, R; Beham-Schmid, C; Andreeff, M; Strunk, D
Therapeutic neo-vasculogenesis in vivo is promoted by oxygen sensing mesenchymal stem/progenitor cells
BONE MARROW TRANSPL. 2012; 47: S319-S320.
[Poster]
Web of Science
** Reinisch, A; Etchart, N; Hofmann, NA; Fruhwirth, M; Ortner, A; Thaler, D; Feilhauer, B; Hartwig, UF; Beham-Schmid, C; Trajanosky, S; Wagner, W; Alves, F; Schallmoser, K; Andreeff, M; Strunk, D;
Organotypic Epigenetic Signature Predicts Bone and Marrow Niche Forming Capacity of Stromal Progenitors in a Novel Mouse Model in Vivo.
BLOOD. BLOOD120: WASHINGTON: AMER SOC HEMATOLOGY; ( Presented at: 54th Annual Meeting and Exposition of the American-Society-of-Hematology (ASH), Atlanta, GA, DEC 08-11, 2012)
Doi: 10.1182/blood.V120.21.2987.2987
[Poster]
Web of Science
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** Reinisch, A; Etchart, N; Hofmann, NA; Fruhwirth, M; Thaler, D; Feilhauer, B; Ortner, A; Beham-Schmid, C; Trajanoski, S; Wagner, W; Schallmoser, K; Strunk, D
Bone and haematopoietic niche formation is predetermined by a specific epigenetic signature
BONE MARROW TRANSPL. 2012; 47: S48-S49.
[Oral Communication]
Web of Science
** Rohban, R; Etchart, N; Reinisch, A; Hofmann, N; Thaler, D; Feilhauer, B; Dacheva, M; Schallmoser, K; Rohde, E; Strunk, D
Early in vivo signalling signature during human stem/progenitor cell-derived neo-vasculogenesis
BONE MARROW TRANSPL. 2012; 47: S49-S49.
[Oral Communication]
Web of Science
** Schallmoser, K; Hofmann, NA; Reinisch, A; Ortner, A; Url, C; Etchart, N; Joussen, S; Wagner, W; Strunk, D;
Maintenance of Osteogenic Differentiation Capacity of MSPC Despite Amplified Proliferation Under Elevated Oxgen Conditions.
BLOOD. BLOOD120: WASHINGTON: AMER SOC HEMATOLOGY; ( Presented at: 54th Annual Meeting and Exposition of the American-Society-of-Hematology (ASH), Atlanta, GA, DEC 08-11, 2012)
Doi: 10.1182/blood.V120.21.1916.1916
[Poster]
Web of Science
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** Schallmoser, K; Ortner, A; Hofmann, NA; Etchart, N; Joussen, S; Url, C; Wagner, W; Strunk, D
Elevated oxygen environment boosts MSPC proliferation without senescence aggravation
BONE MARROW TRANSPL. 2012; 47: S319-S319.
[Poster]
Web of Science
2011
Abstract (Zeitschrift)
** Etchart, N; Reinisch, A; Gungl, D; Hofmann, NA; Rohban, R; Ortner, A; Rankl, J; Hofmeister, A; Beham-Schmid, C; Schallmoser, K; Strunk, D
Human platelet-derived factors maintain a bone and marrow niche-competent function of mesenchymal stem/progenitor cells
BONE MARROW TRANSPLANT. 2011; 46: S303-S303.
[Poster]
Web of Science
** Etchart, N; Reinisch, A; Ortner, A; Fruhwirth, M; Rohban, R; Url, C; Schallmoser, K; Beham-Schmid, C; Strunk, D
Platelet-Derived Factors Allow Human Mesenchymal Stem Cells to Spontaneously Undergo Endochondral Bone Differentiation and Provide Bone Marrow Support in a Xenogenic In Vivo Model
BLOOD. 2011; 118(21): 583-584.
[Poster]
Web of Science
** Hofmann, NA; Reinisch, A; Ortner, A; Etchart, N; Schallmoser, K; Absenger, M; Strunk, D
Vascular regeneration in vivo is promoted by oxygen sensing mesenchymal stem and progenitor cells
BONE MARROW TRANSPLANT. 2011; 46: S302-S302.
[Poster]
Web of Science
** Reinisch, A; Etchart, N; Hofmann, NA; Gungl, D; Ortner, A; Rankl, J; Beham-Schmid, C; Schallmoser, K; Strunk, D
Unexpected somatic restriction of mesenchymal stem and progenitor cells after transplantation in vivo
BONE MARROW TRANSPLANT. 2011; 46: S302-S303.
[Poster]
Web of Science
** Reinsch, A; Liechtenstein, N; Hofmann, NA; Ortner, A; Fruhwirth, M; Schallmoser, K; Beham-Schmid, C; Strunk, D
Dissociation of In Vivo and in Vitro Differentiation Capacity of Human Mesenchymal Stem Cells Is Reflected by a Tissue Specific Epigenetic Memory
BLOOD. 2011; 118(21): 1027-1028.
[Poster]
Web of Science
** Rohban, R; Reinisch, A; Rohde, E; Hofmann, NA; Gimona, M; Etchart, N; Ortner, A; Strunk, D
Identification of early in vivo signalling signature during regenerative stem cell therapy using proteomic profiling
BONE MARROW TRANSPLANT. 2011; 46: S50-S50.
[Oral Communication]
Web of Science
2010
Abstract (Zeitschrift)
** Reinisch, A; Etchart, N; Hofmann, NA; Ortner, A; Rohde, E; Schallmoser, K; Beham-Schmid, C; Dullin, C; Diwoky, C; Hofmeister, A; Stollberger, R; Alves, F; Strunk, D
Human Vascular Progenitor Cells Can Guide Mesodermal Lineage Choice of Mesenchymal Stem and Progenitor Cells After Co-Transplantation In Vivo.
52nd Annual Meeting2010; 116(21):414-415.-American Society of Hematology; DEC 4-7, 2010; Orlando, USA.
[Oral Communication]
Web of Science
** Reinisch, A; Hofmann, N; Ortner, A; Etchart, N; Beham-Schmid, C; Dullin, C; Diwoky, C; Hofmeister, A; Stollberger, R; Alves, F; Strunk, D
VASCULAR PROGENITOR CELLS CAN INSTRUCT DEVELOPMENTAL FATE DECISION OF CD146(+) MESENCHYMAL STROMAL/STEM CELLS IN VIVO
HAEMATOL-HEMATOL J. 2010; 95: 1160
[Oral Communication]
Web of Science
** Reinisch, A; Hofmann, NA; Ortner, A; Etchart, N; Beham-Schmidt, C; Dullin, C; Diwoky, C; Hofmeister, A; Stollberger, R; Alves, F; Strunk, D
Vascular progenitor cells can instruct skeletal stem cells during developmental fate decisions
BONE MARROW TRANSPLANT. 2010; 45: S53-S53.
[Oral Communication]
Web of Science
2007
Originalarbeit (Zeitschrift)
** Etchart, N; Hennino, A; Friede, M; Dahel, K; Dupouy, M; Goujon-Henry, C; Nicolas, JF; Kaiserlian, D
Safety and efficacy of transcutaneous vaccination using a patch with the live-attenuated measles vaccine in humans.
Vaccine. 2007; 25(39-40):6891-6899
Doi: 10.1016/j.vaccine.2007.07.014
Web of Science
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2006
Originalarbeit (Zeitschrift)
** Etchart, N; Baaten, B; Andersen, SR; Hyland, L; Wong, SY; Hou, S
Intranasal immunisation with inactivated RSV and bacterial adjuvants induces mucosal protection and abrogates eosinophilia upon challenge.
Eur J Immunol. 2006; 36(5):1136-1144
Doi: 10.1002/eji.200535493
Web of Science
PubMed
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** Le Borgne, M; Etchart, N; Goubier, A; Lira, SA; Sirard, JC; van Rooijen, N; Caux, C; Aït-Yahia, S; Vicari, A; Kaiserlian, D; Dubois, B
Dendritic cells rapidly recruited into epithelial tissues via CCR6/CCL20 are responsible for CD8+ T cell crosspriming in vivo.
Immunity. 2006; 24(2):191-201
Doi: 10.1016/j.immuni.2006.01.005
[OPEN ACCESS]
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2003
Originalarbeit (Zeitschrift)
** Le Bon, A; Etchart, N; Rossmann, C; Ashton, M; Hou, S; Gewert, D; Borrow, P; Tough, DF
Cross-priming of CD8+ T cells stimulated by virus-induced type I interferon.
Nat Immunol. 2003; 4(10):1009-1015
Doi: 10.1038/ni978
Web of Science
PubMed
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** Singleton, R; Etchart, N; Hou, S; Hyland, L
Inability to evoke a long-lasting protective immune response to respiratory syncytial virus infection in mice correlates with ineffective nasal antibody responses.
J Virol. 2003; 77(21):11303-11311
Doi: 10.1128/JVI.77.21.11303-11311.2003
[OPEN ACCESS]
Web of Science
PubMed
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2001
Originalarbeit (Zeitschrift)
** Etchart, N; Desmoulins, PO; Chemin, K; Maliszewski, C; Dubois, B; Wild, F; Kaiserlian, D
Dendritic cells recruitment and in vivo priming of CD8+ CTL induced by a single topical or transepithelial immunization via the buccal mucosa with measles virus nucleoprotein.
J Immunol. 2001; 167(1):384-391
Doi: 10.4049/jimmunol.167.1.384
[OPEN ACCESS]
Web of Science
PubMed
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** Tripp, RA; Hou, S; Etchart, N; Prinz, A; Moore, D; Winter, J; Anderson, LJ
CD4(+) T cell frequencies and Th1/Th2 cytokine patterns expressed in the acute and memory response to respiratory syncytial virus I-E(d)-restricted peptides.
Cell Immunol. 2001; 207(1):59-71
Doi: 10.1006/cimm.2000.1752
Web of Science
PubMed
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2000
Originalarbeit (Zeitschrift)
** Desvignes, C; Etchart, N; Kehren, J; Akiba, I; Nicolas, JF; Kaiserlian, D
Oral administration of hapten inhibits in vivo induction of specific cytotoxic CD8+ T cells mediating tissue inflammation: a role for regulatory CD4+ T cells.
J Immunol. 2000; 164(5):2515-2522
Doi: 10.4049/jimmunol.164.5.2515
[OPEN ACCESS]
Web of Science
PubMed
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1999
Übersichtsarbeit
** Kaiserlian, D; Etchart, N
Epicutaneous and transcutaneous immunization using DNA or proteins.
Eur J Dermatol. 1999; 9(3):169-176
[OPEN ACCESS]
Web of Science
PubMed
** Kaiserlian, D; Etchart, N
Entry sites for oral vaccines and drugs: A role for M cells, enterocytes and dendritic cells?
Semin Immunol. 1999; 11(3):217-224
Doi: 10.1006/smim.1999.0177
Web of Science
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1998
Originalarbeit (Zeitschrift)
** Desvignes, C; Estèves, F; Etchart, N; Bella, C; Czerkinsky, C; Kaiserlian, D
The murine buccal mucosa is an inductive site for priming class I-restricted CD8+ effector T cells in vivo.
Clin Exp Immunol. 1998; 113(3):386-393
Doi: 10.1046/j.1365-2249.1998.00671.x
[OPEN ACCESS]
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1997
Originalarbeit (Zeitschrift)
** Etchart, N; Buckland, R; Liu, MA; Wild, TF; Kaiserlian, D
Class I-restricted CTL induction by mucosal immunization with naked DNA encoding measles virus haemagglutinin.
J Gen Virol. 1997; 78 ( Pt 7)(3):1577-1580
Doi: 10.1099/0022-1317-78-7-1577
[OPEN ACCESS]
Web of Science
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1996
Originalarbeit (Zeitschrift)
** Etchart, N; Wild, F; Kaiserlian, D
Mucosal and systemic immune responses to measles virus haemagglutinin in mice immunized with a recombinant vaccinia virus.
J Gen Virol. 1996; 77 ( Pt 10)(3):2471-2478
Doi: 10.1099/0022-1317-77-10-2471
[OPEN ACCESS]
Web of Science
PubMed
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