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Máté Maus
Máté Maus
Group leader, Aging and Cancer Lab, Vall d'Hebron Institute of Oncology (VHIO), Barcelona, Spain
Verified email at vhio.net - Homepage
Title
Cited by
Cited by
Year
Store-operated Ca2+ entry controls clonal expansion of T cells through metabolic reprogramming
M Vaeth*, M Maus*, S Klein-Hessling, E Freinkman, J Yang, M Eckstein, ...
Immunity 47 (4), 664-679. e6, 2017
2222017
Store-operated Ca2+ entry controls induction of lipolysis and the transcriptional reprogramming to lipid metabolism
M Maus, M Cuk, B Patel, J Lian, M Ouimet, U Kaufmann, J Yang, ...
Cell metabolism 25 (3), 698-712, 2017
1452017
Ca2+ signaling but not store-operated Ca2+ entry is required for the function of macrophages and dendritic cells
M Vaeth, I Zee, AR Concepcion, M Maus, P Shaw, C Portal-Celhay, ...
The Journal of Immunology 195 (3), 1202-1217, 2015
1172015
The multiple function of Grb2 associated binder (Gab) adaptor/scaffolding protein in immune cell signaling
G Sármay, A Angyal, Á Kertész, M Maus, D Medgyesi
Immunology letters 104 (1-2), 76-82, 2006
912006
Missense mutation in immunodeficient patients shows the multifunctional roles of coiled-coil domain 3 (CC3) in STIM1 activation
M Maus*, A Jairaman*, PB Stathopulos, M Muik, M Fahrner, C Weidinger, ...
Proceedings of the National Academy of Sciences 112 (19), 6206-6211, 2015
702015
B cell receptor-induced Ca2+ mobilization mediates F-actin rearrangements and is indispensable for adhesion and spreading of B lymphocytes
M Maus, D Medgyesi, E Kiss, AE Schneider, Á Enyedi, N Szilágyi, J Matkó, ...
Journal of leukocyte biology 93 (4), 537-547, 2013
402013
Grb2 associated binder 2 couples B-cell receptor to cell survival
M Maus, D Medgyesi, D Kövesdi, D Csuka, G Koncz, G Sármay
Cellular signalling 21 (2), 220-227, 2009
302009
STIM1 and STIM2 mediate cancer-induced inflammation in T cell acute lymphoblastic leukemia
S Saint Fleur-Lominy*, M Maus*, M Vaeth, I Lange, I Zee, D Suh, C Liu, ...
Cell reports 24 (11), 3045-3060. e5, 2018
272018
STIM1‐mediated calcium influx controls antifungal immunity and the metabolic function of non‐pathogenic Th17 cells
S Kahlfuss, U Kaufmann, AR Concepcion, L Noyer, D Raphael, M Vaeth, ...
EMBO molecular medicine 12 (8), e11592, 2020
262020
The lysosomal proteome of senescent cells contributes to the senescence secretome
M Rovira, R Sereda, D Pladevall‐Morera, V Ramponi, I Marin, M Maus, ...
Aging Cell 21 (10), e13707, 2022
222022
Iron accumulation drives fibrosis, senescence and the senescence-associated secretory phenotype
M Maus, V López-Polo, L Mateo, M Lafarga, M Aguilera, E De Lama, ...
Nature Metabolism 5 (12), 2111-2130, 2023
82023
Senescence as a therapeutic target: current state and future challenges
K Meyer, JA López-Domínguez, M Maus, M Kovatcheva, M Serrano
Cellular Senescence in Disease, 425-442, 2022
32022
A novel redox cycle diverts cells from oncogene-induced senescence into cancer
M Maus, M Serrano
Molecular Cell 81 (18), 3672-3674, 2021
22021
# 5672 CORTICAL IRON DEPOSITION ASSESSED BY MAGNETIC RESONANCE IMAGE IS ASSOCIATED WITH KIDNEY FIBROSIS
C Couceiro, S Codina, D Sandoval, L Oliveras, I Puig, E De Lama, A Sola, ...
Nephrology Dialysis Transplantation 38 (Supplement_1), gfad063c_5672, 2023
2023
Senescence, hand in hand with hepatic iron overload during the progression of NAFLD
M Bravo, J Simón, N Goikoetxea, S Lachiondo-Ortega, L Egia-Mendikute, ...
Journal of Hepatology 77, S673-S674, 2022
2022
Senescence as a therapeutic target: state and future current challenges
K Meyer, JA Lopez-Domınguez, M Maus, M Kovatcheva, M Serrano
Cellular Senescence in Disease, 425, 2021
2021
B cell activation from actin rearrangements to cell survival
M Máté
Eötvös Loránd University, 2010
2010
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Articles 1–17