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Nathalie Rosenblatt-Velin

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45 publications

2023 | 2022 | 2021 | 2020 | 2019 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2008 | 2006 | 2005 | 2004 | 2002 | 2001 | 2000 | 1997 | 1995 | 1994 | 1992 |

2023

The Role of Neutrophils in Lower Limb Peripheral Artery Disease: State of the Art and Future Perspectives.

Buso G., Faggin E., Rosenblatt-Velin N., Pellegrin M., Galliazzo S., Calanca L., Rattazzi M., Mazzolai L., 2023/01/06. International journal of molecular sciences, 24 (2) p. 1169. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_DD7BD08B898A]

2022

Brain Natriuretic Peptide Protects Cardiomyocytes from Apoptosis and Stimulates Their Cell Cycle Re-Entry in Mouse Infarcted Hearts.

Bon-Mathier A.C., Déglise T., Rignault-Clerc S., Bielmann C., Mazzolai L., Rosenblatt-Velin N., 2022/12/20. Cells, 12 (1) p. 7. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_71C165D6AA62]

2021

High-intensity exercise in hypoxia improves endothelial function via increased nitric oxide bioavailability in C57BL/6 mice.

Lavier J., Beaumann M., Menétrey S., Bouzourène K., Rosenblatt-Velin N., Pialoux V., Mazzolai L., Peyter A.C., Pellegrin M., Millet G.P., 2021/10. Acta physiologica, 233 (2) pp. e13700. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_7A430DC50D12]

Endothelial Colony-Forming Cells Dysfunctions Are Associated with Arterial Hypertension in a Rat Model of Intrauterine Growth Restriction.

Simoncini S., Coppola H., Rocca A., Bachmann I., Guillot E., Zippo L., Dignat-George F., Sabatier F., Bedel R., Wilson A. et al., 2021/09/21. International journal of molecular sciences, 22 (18) p. 10159. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_76C775F89D99]

2020

Programming of Cardiovascular Dysfunction by Postnatal Overfeeding in Rodents.

Josse M., Rigal E., Rosenblatt-Velin N., Rochette L., Zeller M., Guenancia C., Vergely C., 2020/12/11. International journal of molecular sciences, 21 (24) pp. E9427. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_BC19345669D9]

Increasing heart vascularisation after myocardial infarction using brain natriuretic peptide stimulation of endothelial and WT1<sup>+</sup> epicardial cells.

Li N., Rignault-Clerc S., Bielmann C., Bon-Mathier A.C., Déglise T., Carboni A., Ducrest M., Rosenblatt-Velin N., 2020/11/27. eLife, 9 pp. e61050. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_4FAB6AB5140D]

Impact of aerobic exercise type on blood flow, muscle energy metabolism, and mitochondrial biogenesis in experimental lower extremity artery disease.

Pellegrin M., Bouzourène K., Aubert J.F., Bielmann C., Gruetter R., Rosenblatt-Velin N., Poitry-Yamate C., Mazzolai L., 2020/08/20. Scientific reports, 10 (1) p. 14048. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_4E558217EFB1]

Oxygen as a key regulator of cardiomyocyte proliferation: New results about cell culture conditions!

Bon-Mathier A.C., Rignault-Clerc S., Bielmann C., Rosenblatt-Velin N., 2020/03. Biochimica et biophysica acta. Molecular cell research, 1867 (3) p. 118460. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_9663E3496DD9]

2019

New Insights into the Role of Exosomes in the Heart After Myocardial Infarction.

Li N., Rochette L., Wu Y., Rosenblatt-Velin N., 2019/02. Journal of cardiovascular translational research, 12 (1) pp. 18-27. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_D3B5997B10FB]

2017

Natriuretic Peptide Receptor B modulates the proliferation of the cardiac cells expressing the Stem Cell Antigen-1.

Rignault-Clerc S., Bielmann C., Liaudet L., Waeber B., Feihl F., Rosenblatt-Velin N., 2017/02/09. Scientific reports, 7 p. 41936. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_69B7FAE7AAC0]

2016

Pharmacological Therapy in the Heart as an Alternative to Cellular Therapy: A Place for the Brain Natriuretic Peptide?

Rosenblatt-Velin N., Badoux S., Liaudet L., 2016. Stem Cells International, 2016 p. 5961342. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_6B354E0ED1CD]

2015

Brain natriuretic peptide is able to stimulate cardiac progenitor cell proliferation and differentiation in murine hearts after birth.

Bielmann C., Rignault-Clerc S., Liaudet L., Li F., Kunieda T., Sogawa C., Zehnder T., Waeber B., Feihl F., Rosenblatt-Velin N., 2015. Basic Research in Cardiology, 110 (1) p. 455. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_6870759E0BB4]

Cutting edge: IL-1α is a crucial danger signal triggering acute myocardial inflammation during myocardial infarction.

Lugrin J., Parapanov R., Rosenblatt-Velin N., Rignault-Clerc S., Feihl F., Waeber B., Müller O., Vergely C., Zeller M., Tardivel A. et al., 2015. Journal of Immunology, 194 (2) pp. 499-503. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_3740D52D64AE]

Toll-like receptor 5 deficiency exacerbates cardiac injury and inflammation induced by myocardial ischaemia-reperfusion in the mouse.

Parapanov R., Lugrin J., Rosenblatt-Velin N., Feihl F., Waeber B., Milano G., Vergely C., Li N., Pacher P., Liaudet L., 2015. Clinical Science, 129 (2) pp. 187-198. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_2F3264895AEF]

2014

The role of oxidative stress during inflammatory processes.

Lugrin J., Rosenblatt-Velin N., Parapanov R., Liaudet L., 2014. Biological Chemistry, 395 (2) pp. 203-230.

[URN][DOI][WoS][Pmid][serval:BIB_AD2736DEB8DF]

2013

Functional late outgrowth endothelial progenitors isolated from peripheral blood of burned patients.

Rignault-Clerc S., Bielmann C., Delodder F., Raffoul W., Waeber B., Liaudet L., Berger M.M., Feihl F., Rosenblatt-Velin N., 2013. Burns, 39 (4) pp. 694-704. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_2C624B64FEE3]

Peroxynitrite is a key mediator of the cardioprotection afforded by ischemic postconditioning in vivo.

Li J., Loukili N., Rosenblatt-Velin N., Pacher P., Feihl F., Waeber B., Liaudet L., 2013. Plos One, 8 (7) pp. e70331.

[URN][DOI][WoS][Pmid][serval:BIB_13CB982CFD0B]

Role of innate immunity in cardiac inflammation after myocardial infarction.

Liaudet L., Rosenblatt-Velin N., 2013. Frontiers in Bioscience (Scholar Edition), 5 pp. 86-104. Peer-reviewed.

[Pmid][serval:BIB_460D95215A0F]

Role of peroxynitrite in the cardiovascular dysfunction of septic shock.

Liaudet L., Rosenblatt-Velin N., Pacher P., 2013. Current Vascular Pharmacology, 11 (2) pp. 196-207.

[WoS][Pmid][serval:BIB_F8EDA1914888]

2012

Cardiac dysfunction and impaired compensatory response to pressure overload in mice deficient in stem cell antigen-1.

Rosenblatt-Velin N., Ogay S., Felley A., Stanford W.L., Pedrazzini T., 2012. Faseb Journal, 26 (1) pp. 229-239.

[DOI][WoS][Pmid][serval:BIB_226EA9ADD316]

The role of endogenous and exogenous RasGAP-derived fragment N in protecting cardiomyocytes from peroxynitrite-induced apoptosis.

Khalil H., Rosenblatt N., Liaudet L., Widmann C., 2012. Free Radical Biology and Medicine, 53 (4) pp. 926-935.

[URN][DOI][WoS][Pmid][serval:BIB_879B174E901D]

2011

Peroxynitrite induces HMGB1 release by cardiac cells in vitro and HMGB1 upregulation in the infarcted myocardium in vivo.

Loukili N., Rosenblatt-Velin N., Li J., Clerc S., Pacher P., Feihl F., Waeber B., Liaudet L., 2011. Cardiovascular Research, 89 (3) pp. 586-594.

[URN][DOI][WoS][Pmid][serval:BIB_61E119D8C3E2]

2010

Bacterial flagellin elicits widespread innate immune defense mechanisms, apoptotic signaling, and a sepsis-like systemic inflammatory response in mice.

Rolli J., Loukili N., Levrand S., Rosenblatt-Velin N., Rignault-Clerc S., Waeber B., Feihl F., Pacher P., Liaudet L., 2010. Critical Care, 14 (4) p. 160.

[URN][DOI][WoS][Pmid][serval:BIB_253C00992EA1]

Bacterial flagellin triggers cardiac innate immune responses and acute contractile dysfunction.

Rolli J., Rosenblatt-Velin N., Li J., Loukili N., Levrand S., Pacher P., Waeber B., Feihl F., Ruchat P., Liaudet L., 2010. Plos One, 5 (9) pp. e12687.

[URN][DOI][WoS][Pmid][serval:BIB_24C847D7ADAF]

Endotoxin impairs cardiac hemodynamics by affecting loading conditions but not by reducing cardiac inotropism.

Jianhui L., Rosenblatt-Velin N., Loukili N., Pacher P., Feihl F., Waeber B., Liaudet L., 2010. American Journal of Physiology. Heart and Circulatory Physiology, 299 (2) pp. H492-H501.

[DOI][Pmid][serval:BIB_78A7E66B7F24]

Oxidants positively or negatively regulate nuclear factor kappaB in a context-dependent manner.

Loukili N., Rosenblatt-Velin N., Rolli J., Levrand S., Feihl F., Waeber B., Pacher P., Liaudet L., 2010. Journal of Biological Chemistry, 285 (21) pp. 15746-15752. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_4110D8AB8B0B]

2008

Control of the adaptive response of the heart to stress via the Notch1 receptor pathway.

Croquelois A., Domenighetti A.A., Nemir M., Lepore M., Rosenblatt-Velin N., Radtke F., Pedrazzini T., 2008. Journal of Experimental Medicine, 205 (13) pp. 3173-3185. Peer-reviewed.

[URN][DOI][WoS][Pmid][serval:BIB_123D76E4A2C7]

2006

Cardiac and vascular hypertrophy in Fabry disease: evidence for a new mechanism independent of blood pressure and glycosphingolipid deposition.

Barbey F., Brakch N., Linhart A., Rosenblatt-Velin N., Jeanrenaud X., Qanadli S., Steinmann B., Burnier M., Palecek T., Bultas J. et al., 2006. Arteriosclerosis, thrombosis, and vascular biology, 26 (4) pp. 839-44.

[DOI][WoS][Pmid][serval:BIB_C46A7B226B4E]

2005

FGF-2 controls the differentiation of resident cardiac precursors into functional cardiomyocytes.

Rosenblatt-Velin N., Lepore M.G., Cartoni C., Beermann F., Pedrazzini T., 2005. Journal of Clinical Investigation, 115 (7) pp. 1724-1733. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_659497276C5C]

2004

Insulin resistance in adult cardiomyocytes undergoing dedifferentiation: role of GLUT4 expression and translocation.

Rosenblatt-Velin N., Lerch R., Papageorgiou I., Montessuit C., 2004/05. FASEB journal, 18 (7) pp. 872-874. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_9D38ECB96971]

Regulation of glucose transporter expression in cardiac myocytes: p38 MAPK is a strong inducer of GLUT4.

Montessuit C., Rosenblatt-Velin N., Papageorgiou I., Campos L., Pellieux C., Palma T., Lerch R., 2004. Cardiovascular Research, 64 (1) pp. 94-104. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_94F16730230B]

2002

Impaired glucose metabolism in the heart of obese Zucker rats after treatment with phorbol ester.

Morabito D., Montessuit C., Rosenblatt-Velin N., Lerch R., Vallotton M.B., Lang U., 2002. International Journal of Obesity and Related Metabolic Disorders, 26 (3) pp. 327-334. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_4EFD9E1D4EC3]

2001

Calcium-mediated activation of pyruvate dehydrogenase in severely injured postischemic myocardium.

Terrand J., Papageorgiou I., Rosenblatt-Velin N., Lerch R., 2001. American Journal of Physiology. Heart and circulatory physiology, 281 (2) pp. H722-H730. Peer-reviewed.

[WoS][Pmid][serval:BIB_CCA56831F3A4]

Postinfarction heart failure in rats is associated with upregulation of GLUT-1 and downregulation of genes of fatty acid metabolism.

Rosenblatt-Velin N., Montessuit C., Papageorgiou I., Terrand J., Lerch R., 2001. Cardiovascular Research, 52 (3) pp. 407-416. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_1F6F915185F4]

2000

Altered expression of proteins of metabolic regulation during remodeling of the left ventricle after myocardial infarction.

Remondino A., Rosenblatt-Velin N., Montessuit C., Tardy I., Papageorgiou I., Dorsaz P.A., Jorge-Costa M., Lerch R., 2000. Journal of Molecular and Cellular Cardiology, 32 (11) pp. 2025-2034. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_931F9C89E045]

Metabolic changes in cardiac hypertrophy

Montessuit C, Rosenblatt-Velin N, Lerch R, 2000. Heart and Metabolism, 9 pp. 3-8. Peer-reviewed.

[serval:BIB_9D6BD72A71E9]

Postischemic recovery of heart metabolism and function: role of mitochondrial fatty acid transfer.

Montessuit C., Papageorgiou I., Tardy-Cantalupi I., Rosenblatt-Velin N., Lerch R., 2000. Journal of Applied Physiology, 89 (1) pp. 111-119. Peer-reviewed.

[WoS][Pmid][serval:BIB_446EA3B7AF12]

1997

Transformed and nontransformed human T lymphocytes migrate to skin in a chimeric human skin/SCID mouse model.

Rosenblatt-Velin N., Arrighi J.F., Dietrich P.Y., Schnuriger V., Masouyé I., Hauser C., 1997. Journal of Investigative Dermatology, 109 (6) pp. 744-750. Peer-reviewed.

[DOI][WoS][Pmid][serval:BIB_8F1463E4A1BE]

1995

Development of grafted gld cells in athymic and euthymic recipients

Rosenblatt N., Hartmann K. U., Loor F., 1995/04. Immunology, 84 (4) pp. 562-70.

[WoS][Pmid][serval:BIB_72AFE41D1969]

Interactions of B6 wild and B6 gld cells engrafted within athymic nude beige recipients

Rosenblatt N., Hartmann K. U., Loor F., 1995. Autoimmunity, 20 (1) pp. 9-18.

[DOI][WoS][Pmid][serval:BIB_3ED932DBB55F]

1994

The Yaa gene-dependent B-cell deficiency worsens the generalized lymphadenopathy and autoimmunity of C57BL/6-gld male mice

Rosenblatt N., Hartmann K. U., Loor F., 1994/11. Immunology, 83 (3) pp. 476-83.

[WoS][Pmid][serval:BIB_1D100E99D3F1]

The Yaa mutation induces the development of autoimmunity in mice heterozygous for the gld (generalized lymphadenopathy disease) mutation

Rosenblatt N., Hartmann K. U., Loor F., 1994/07. Cellular Immunology, 156 (2) pp. 519-28.

[DOI][WoS][Pmid][serval:BIB_C67686199F0E]

1992

Adoptive transfer of the entire gld (generalized lymphoproliferative disease) syndrome in nude beige mice by a single gld thymocyte graft

Froidevaux S., Rosenblatt N., Loor F., 1992/08. Cellular Immunology, 143 (1) pp. 238-47.

[DOI][WoS][Pmid][serval:BIB_B626ACB95C8B]

Adoptive transfer of the generalized lymphoproliferative disease (gld) syndrome in nude beige mice

Froidevaux S., Rosenblatt N., Loor F., 1992/04. Immunology, 75 (4) pp. 693-9.

[WoS][Pmid][serval:BIB_DEB1707CE7D0]

Adoptive transfer of the gld syndrome in double congenic nude lpr mice

Froidevaux S., Rosenblatt N., Loor F., 1992. Autoimmunity, 12 (2) pp. 107-15.

[DOI][WoS][Pmid][serval:BIB_3BEBF5F61315]

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