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Your search keyword '"Gadeau, Alain-Pierre"' showing total 253 results
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253 results on '"Gadeau, Alain-Pierre"'

2. Signalling by senescent melanocytes hyperactivates hair growth

Author

Wang, Xiaojie, Ramos, Raul, Phan, Anne Q, Yamaga, Kosuke, Flesher, Jessica L, Jiang, Shan, Oh, Ji Won, Jin, Suoqin, Jahid, Sohail, Kuan, Chen-Hsiang, Nguyen, Truman Kt, Liang, Heidi Y, Shettigar, Nitish Udupi, Hou, Renzhi, Tran, Kevin H, Nguyen, Andrew, Vu, Kimberly N, Phung, Jennie L, Ingal, Jonard P, Levitt, Katelyn M, Cao, Xiaoling, Liu, Yingzi, Deng, Zhili, Taguchi, Nobuhiko, Scarfone, Vanessa M, Wang, Guangfang, Paolilli, Kara Nicole, Wang, Xiaoyang, Guerrero-Juarez, Christian F, Davis, Ryan T, Greenberg, Elyse Noelani, Ruiz-Vega, Rolando, Vasudeva, Priya, Murad, Rabi, Widyastuti, Lily Halida Putri, Lee, Hye-Lim, McElwee, Kevin J, Gadeau, Alain-Pierre, Lawson, Devon A, Andersen, Bogi, Mortazavi, Ali, Yu, Zhengquan, Nie, Qing, Kunisada, Takahiro, Karin, Michael, Tuckermann, Jan, Esko, Jeffrey D, Ganesan, Anand K, Li, Ji, and Plikus, Maksim V

Subjects
Medical Biotechnology, Biological Sciences, Biomedical and Clinical Sciences, Regenerative Medicine, Genetics, Stem Cell Research, Stem Cell Research - Nonembryonic - Non-Human, 2.1 Biological and endogenous factors, Generic health relevance, Animals, Mice, Hair, Hair Follicle, Hyaluronan Receptors, Melanocytes, Nevus, Osteopontin, Stem Cells, Signal Transduction, General Science & Technology
Abstract

Niche signals maintain stem cells in a prolonged quiescence or transiently activate them for proper regeneration1. Altering balanced niche signalling can lead to regenerative disorders. Melanocytic skin nevi in human often display excessive hair growth, suggesting hair stem cell hyperactivity. Here, using genetic mouse models of nevi2,3, we show that dermal clusters of senescent melanocytes drive epithelial hair stem cells to exit quiescence and change their transcriptome and composition, potently enhancing hair renewal. Nevus melanocytes activate a distinct secretome, enriched for signalling factors. Osteopontin, the leading nevus signalling factor, is both necessary and sufficient to induce hair growth. Injection of osteopontin or its genetic overexpression is sufficient to induce robust hair growth in mice, whereas germline and conditional deletions of either osteopontin or CD44, its cognate receptor on epithelial hair cells, rescue enhanced hair growth induced by dermal nevus melanocytes. Osteopontin is overexpressed in human hairy nevi, and it stimulates new growth of human hair follicles. Although broad accumulation of senescent cells, such as upon ageing or genotoxic stress, is detrimental for the regenerative capacity of tissue4, we show that signalling by senescent cell clusters can potently enhance the activity of adjacent intact stem cells and stimulate tissue renewal. This finding identifies senescent cells and their secretome as an attractive therapeutic target in regenerative disorders.

Published
2023

9. Abstract P2082: Thrombosis In The Coronary Microvasculature May Be Responsible For Impaired Cardiac Relaxation And Diastolic Dysfunction

Author

Paul, Rouault, primary, Guimbal, Sarah, additional, Cornuault, Lauriane, additional, Foussard, Ninon, additional, Bourguignon, Célia, additional, Grouthier, Virginie, additional, Choveau, Frank, additional, Benoist, David, additional, Gadeau, Alain-Pierre, additional, Couffinhal, Thierry, additional, and Renault, Marie-Ange, additional

Published
2023
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15. Cardiac pericytes may contribute to heart disease

Author

Bourguignon, Célia, primary, Cornuault, Lauriane, additional, Foussard, Ninon, additional, Rouault, Paul, additional, Grouthier, Virginie, additional, Chapouly, Candice, additional, Gadeau, Alain-Pierre, additional, Couffinhal, Thierry, additional, and Renault, Marie-Ange, additional

Published
2023
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31. Crosstalk between Sodium–Glucose Cotransporter Inhibitors and Sodium–Hydrogen Exchanger 1 and 3 in Cardiometabolic Diseases

Author

Al-Shamasi, Al-Anood, primary, Elkaffash, Rozina, additional, Mohamed, Meram, additional, Rayan, Menatallah, additional, Al-Khater, Dhabya, additional, Gadeau, Alain-Pierre, additional, Ahmed, Rashid, additional, Hasan, Anwarul, additional, Eldassouki, Hussein, additional, Yalcin, Huseyin Cagatay, additional, Abdul-Ghani, Muhammad, additional, and Mraiche, Fatima, additional

Published
2021
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32. The Estrogen Effects on Endothelial Repair and Mitogen-Activated Protein Kinase Activation Are Abolished in Endothelial Nitric-Oxide (NO) Synthase Knockout Mice, but Not by NO Synthase Inhibition by N-Nitro- l-arginine Methyl Ester

Author

Billon, Audrey, Lehoux, Stéphanie, Lam Shang Leen, Laetitia, Laurell, Henrik, Filipe, Cédric, Benouaich, Vincent, Brouchet, Laurent, Dessy, Chantal, Gourdy, Pierre, Gadeau, Alain-Pierre, Tedgui, Alain, Balligand, Jean-Luc, and Arnal, Jean-François

Published
2008
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34. Estradiol accelerates endothelial healing through the retrograde commitment of uninjured endothelium

Author

Filipe, Cedric, Leen, Laetitia Lam Shang, Brouchet, Laurent, Billon, Audrey, Benouaich, Vincent, Fontaine, Vincent, Gourdy, Pierre, Lenfant, Francoise, Arnal, Jean-Francois, Gadeau, Alain-Pierre, and Laurell, Henrik

Subjects
Estradiol -- Influence, Endothelium -- Properties, Regeneration (Biology) -- Medical examination, Carotid artery -- Properties, Confocal microscopy -- Methods, Biological sciences
Abstract

Although the accelerative effect of 17[beta]-estradiol ([E.sub.2]) on endothelial regrowth has been clearly demonstrated, the local cellular events accounting for this beneficial vascular action are still uncertain. In the present work, we compared the kinetics of endothelial healing of mouse carotid arteries after endovascular and perivascular injury. Both basal reendothelialization as well as the accelerative effect of [E.sub.2] were similar in the two models. Three days after endothelial denudation, a regenerative area was observed in both models, characterized by similar changes in gene expression after injury, visualized by en face confocal microscopy (EFCM). A precise definition of the injury limits was only possible with the perivascular model, since it causes a complete and lasting decellularization of the media. Using this model, we demonstrated that the migration of uninjured endothelial cells precedes proliferation (bromodeoxyuridine incorporation) and that these events occur at earlier time points with [E.sub.2] treatment. We have also identified an uninjured retrograde zone as an intimate component of the endothelial regeneration process. Thus, in the perivascular model, the regenerative area can be subdivided into a retrograde zone and a reendothelialized area. Importantly, both areas are significantly enlarged by [E.sub.2]. In conclusion, the combination of the electric perivascular injury model and EFCM is well adapted to the visualization of the endothelial monolayer and to investigate cellular events involved in reendothelialization. This process is accelerated by [E.sub.2] as a consequence of the retrograde commitment of an uninjured endothelial zone to migrate and proliferate, contributing to an enlargement of the regenerative area. endothelial regeneration; arterial injury; estrogen; carotid injury model: en face confocal microscopy

Published
2008

35. Blood-brain barrier genetic disruption leads to protective barrier formation at the Glia Limitans

Author

MORA, Pierre, HOLLIER, Pierre-Louis, GUIMBAL, Sarah, ABELANET, Alice, DIOP, Aïssata, CORNUAULT, Lauriane, COUFFINHAL, Thierry, HORNG, Sam, GADEAU, Alain-Pierre, RENAULT, Marie-Ange, CHAPOULY, Candice, Biologie des maladies cardiovasculaires = Biology of Cardiovascular Diseases, Université de Bordeaux (UB)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Icahn School of Medicine at Mount Sinai [New York] (MSSM), This study was supported by grants from the European Council (Marie Skłodowska-Curie Actions, Individual fellowship 2019 (MSCA-IF-2019)) (grant number GA794726) and the Fondation ARSEP (Fondation pour la Recherche sur la Scle´rose En Plaques (https://www.arsep.org/) (grant number ARSEP 2019/R19083GG). This study was also co-funded by the 'Institut National de la Sante´ et de la Recherche Me´dicale' (projectU103420G, grant number U1034SE20GA). Grant number GA794726 was received by CC, grant number ARSEP 2019/R19083GG was received by CC and grant number U1034SE20GA was received by CC. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. CC received a salary for 2 years (2019 and 2020) from the European Council as part of the grant GA794726., Admin, Oskar, and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Bordeaux (UB)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, nervous system, QH301-705.5, Biology (General), [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology
Abstract

International audience; Inflammation of the central nervous system (CNS) induces endothelial blood-brain barrier (BBB) opening as well as the formation of a tight junction barrier between reactive astrocytes at the Glia Limitans. We hypothesized that the CNS parenchyma may acquire protection from the reactive astrocytic Glia Limitans not only during neuroinflammation but also when BBB integrity is compromised in the resting state. Previous studies found that astrocyte-derived Sonic hedgehog (SHH) stabilizes the BBB during CNS inflammatory disease, while endothelial-derived desert hedgehog (DHH) is expressed at the BBB under resting conditions. Here, we investigated the effects of endothelial Dhh on the integrity of the BBB and Glia Limitans. We first characterized DHH expression within endothelial cells at the BBB, then demonstrated that DHH is down-regulated during experimental autoimmune encephalomyelitis (EAE). Using a mouse model in which endothelial Dhh is inducibly deleted, we found that endothelial Dhh both opens the BBB via the modulation of forkhead box O1 (FoxO1) transcriptional activity and induces a tight junctional barrier at the Glia Limitans. We confirmed the relevance of this glial barrier system in human multiple sclerosis active lesions. These results provide evidence for the novel concept of "chronic neuroinflammatory tolerance" in which BBB opening in the resting state is sufficient to stimulate a protective barrier at the Glia Limitans that limits the severity of subsequent neuroinflammatory disease. In summary, genetic disruption of the BBB generates endothelial signals that drive the formation under resting conditions of a secondary barrier at the Glia Limitans with protective effects against subsequent CNS inflammation. The concept of a reciprocally regulated CNS double barrier system has implications for treatment strategies in both the acute and chronic phases of multiple sclerosis pathophysiology.

Published
2020
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46. Characterizing Vascular Dysfunction in Genetically Modified Mice through the Hyperoxia Model

Author

Monteiro Rodrigues, Luis, Nazaré Silva, Henrique, Ferreira, Hugo, Gadeau, Alain-Pierre, Research Center for Biosciences and Health Technologies [Lisboa] (CBIOS), Universidade Lusófona's, Universidade de Lisboa (ULISBOA), Biophysics and Biomedical Engineering Institute [Lisboa], Biologie des maladies cardiovasculaires = Biology of Cardiovascular Diseases, Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Bordeaux (UB)-Centre National de la Recherche Scientifique (CNRS), Boullé, Christelle, Universidade de Lisboa = University of Lisbon (ULISBOA), and Université de Bordeaux (UB)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Male, LDF, diabetes, cardiac hypertrophy, Extremities, Mice, Transgenic, Article, [SDV.MHEP.CSC] Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, Mice, Inbred C57BL, lcsh:Chemistry, Disease Models, Animal, lcsh:Biology (General), lcsh:QD1-999, [SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, Article RECHERCHE, Regional Blood Flow, Vasoconstriction, Animals, Blood Vessels, hyperoxia, lcsh:QH301-705.5, wavelet transform, mouse
Abstract

Modelling is essential for a better understanding of microcirculatory pathophysiology. In this study we tested our hyperoxia-mouse model with healthy and non-healthy mice. Animals (n = 41) were divided in groups&mdash, a control group, with 8 C57/BL6 non-transgenic male mice, a diabetic group (DB), with 8 C57BLKsJ-db/db obese diabetic mice and the corresponding internal controls of 8 age-matched C57BLKsJ-db/+ mice, and a cardiac hypertrophy group (CH), with 9 FVB/NJ c&alpha, MHC-NHE-1 transgenic mice prone to develop cardiac failure and 8 age-matched internal controls. After anesthesia, perfusion data was collected by laser Doppler flowmetry (LDF) during rest (Phase 1), hyperoxia (Phase 2), and recovery (Phase 3) and compared. The LDF wavelet transform components analysis (WA) has shown that cardiorespiratory, myogenic, and endothelial components acted as main markers. In DB group, db/+ animals behave as the Control group, but WA already demonstrated significant differences for myogenic and endothelial components. Noteworthy was the increase of the sympathetic components in the db/db set, as in the cardiac overexpressing NHE1 transgenic animals, reported as a main component of these pathophysiological processes. Our model confirms that flow motion has a universal nature. The LDF component&rsquo, s WA provides a deeper look into vascular pathophysiology reinforcing the model&rsquo, s reproducibility, robustness, and discriminative capacities.

Published
2019
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47. Osteopontin: A Promising Therapeutic Target in Cardiac Fibrosis

Author

Abdelaziz Mohamed, Iman, Gadeau, Alain-Pierre, Hasan, Anwarul, Abdulrahman, Nabeel, Mraiche, Fatima, Boullé, Christelle, Center of Excellence for Stem Cells and Regenerative Medicine [Giza Governorate, Egypt] (CESC), University of Science and Technology at Zewail City, Biologie des maladies cardiovasculaires = Biology of Cardiovascular Diseases, Université de Bordeaux (UB)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Department of Mechanical and Industrial Engineering [Doha, Qatar] (College of Engineering), Qatar University, Biomedical Research Center [Doha, Qatar] (BRC), Translational Research Institute [Doha, Qatar], Academic Health System [Doha, Qatar]-Hamad Medical Corporation [Doha, Qatar], Department of Pharmaceutical Sciences [Doha, Qatar] (College of Pharmacy/QU Health), The publication of this article was funded by the Qatar National Library., and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Bordeaux (UB)-Centre National de la Recherche Scientifique (CNRS)

Subjects
osteopontin, Heart Diseases, cardiac fibrosis, Review, Fibrosis, [SDV.MHEP.CSC] Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, potential therapeutic target, Gene Expression Regulation, stomatognathic system, [SDV.MHEP.CSC]Life Sciences [q-bio]/Human health and pathology/Cardiology and cardiovascular system, inflammation, Humans, biomarker, Disease Susceptibility, Cardiomyopathies, Biomarkers, Signal Transduction
Abstract

International audience; Osteopontin (OPN) is recognized for its significant roles in both physiological and pathological processes. Initially, OPN was recognized as a cytokine with pro-inflammatory actions. More recently, OPN has emerged as a matricellular protein of the extracellular matrix (ECM). OPN is also known to be a substrate for proteolytic cleavage by several proteases that form an integral part of the ECM. In the adult heart under physiological conditions, basal levels of OPN are expressed. Increased expression of OPN has been correlated with the progression of cardiac remodeling and fibrosis to heart failure and the severity of the condition. The intricate process by which OPN mediates its effects include the coordination of intracellular signals necessary for the differentiation of fibroblasts into myofibroblasts, promoting angiogenesis, wound healing, and tissue regeneration. In this review, we discuss the role of OPN in contributing to the development of cardiac fibrosis and its suitability as a therapeutic target.

Published
2019
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48. Full-length Dhh and N-terminal Shh act as competitive antagonists to regulate angiogenesis and vascular permeability.

Author

Hollier, Pierre-Louis, Chapouly, Candice, Diop, Aissata, Guimbal, Sarah, Cornuault, Lauriane, Gadeau, Alain-Pierre, and Renault, Marie-Ange

Subjects
PERMEABILITY, ENCEPHALITIS, ENDOTHELIAL cells, NEOVASCULARIZATION, HEDGEHOG signaling proteins
Abstract

Aims The therapeutic potential of Hedgehog (Hh) signalling agonists for vascular diseases is of growing interest. However, molecular and cellular mechanisms underlying the role of the Hh signalling in vascular biology remain poorly understood. The purpose of the present article is to clarify some conflicting literature data. Methods and results With this goal, we have demonstrated that, unexpectedly, ectopically administered N-terminal Sonic Hh (N-Shh) and endogenous endothelial-derived Desert Hh (Dhh) induce opposite effects in endothelial cells (ECs). Notably, endothelial Dhh acts under its full-length soluble form (FL-Dhh) and activates Smoothened in ECs, while N-Shh inhibits it. At molecular level, N-Shh prevents FL-Dhh binding to Patched-1 (Ptch1) demonstrating that N-Shh acts as competitive antagonist to FL-Dhh. Besides, we found that even though FL-Hh ligands and N-Hh ligands all bind Ptch1, they induce distinct Ptch1 localization. Finally, we confirmed that in a pathophysiological setting, i.e. brain inflammation, astrocyte-derived N-Shh acts as a FL-Dhh antagonist. Conclusion The present study highlights for the first time that FL-Dhh and N-Hh ligands have antagonistic properties especially in ECs. [ABSTRACT FROM AUTHOR]

Published
2021
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49. Exogenous ATP induces a limited cell cycle progression of arterial smooth muscle cells

Author

Malam-Souley, Rabe, Campan, Michel, Gadeau, Alain-Pierre, and Desgranges, Claude

Subjects
Cell cycle -- Physiological aspects, Adenosine triphosphate -- Physiological aspects, Vascular smooth muscle -- Physiological aspects, Cell proliferation -- Physiological aspects, Biological sciences
Abstract

The influence of exogenous ATP on cell cycle progression was examined in arterial smooth muscle cells by studying the changes in mRNA steady-state levels. Results indicated that ATP activated immediate-early and delayed-early cycle-dependent genes although had no effect on G1 gene mRNA level. This suggested that ATP enhanced a limited G1 phase progression but was unable to effect DNA synthesis. This was explained by the action of ATP on the P2y receptors of arterial smooth muscle cells.

Published
1993

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