Tobias B. Huber
Tobias B. Huber
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Cited by
Cited by
Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1
DJ Klionsky, AK Abdel-Aziz, S Abdelfatah, M Abdellatif, A Abdoli, S Abel, ...
autophagy 17 (1), 1-382, 2021
Autophagy influences glomerular disease susceptibility and maintains podocyte homeostasis in aging mice
B Hartleben, M Gödel, C Meyer-Schwesinger, S Liu, T Ulrich, S Köbler, ...
The Journal of clinical investigation 120 (4), 1084-1096, 2010
Multiorgan and renal tropism of SARS-CoV-2
VG Puelles, M Lütgehetmann, MT Lindenmeyer, JP Sperhake, MN Wong, ...
New England Journal of Medicine 383 (6), 590-592, 2020
Mitochondrial dynamics controls T cell fate through metabolic programming
MD Buck, D O’Sullivan, RIK Geltink, JD Curtis, CH Chang, DE Sanin, ...
Cell 166 (1), 63-76, 2016
mTORC1 activation in podocytes is a critical step in the development of diabetic nephropathy in mice
K Inoki, H Mori, J Wang, T Suzuki, SK Hong, S Yoshida, SM Blattner, ...
The Journal of clinical investigation 121 (6), 2181-2196, 2011
Rip1 (receptor-interacting protein kinase 1) mediates necroptosis and contributes to renal ischemia/reperfusion injury
A Linkermann, JH Bräsen, N Himmerkus, S Liu, TB Huber, U Kunzendorf, ...
Kidney international 81 (8), 751-761, 2012
CKD in diabetes: diabetic kidney disease versus nondiabetic kidney disease
HJ Anders, TB Huber, B Isermann, M Schiffer
Nature Reviews Nephrology 14 (6), 361-377, 2018
Molecular basis of the functional podocin–nephrin complex: mutations in the NPHS2 gene disrupt nephrin targeting to lipid raft microdomains
TB Huber, M Simons, B Hartleben, L Sernetz, M Schmidts, E Gundlach, ...
Human molecular genetics 12 (24), 3397-3405, 2003
NEPH1 defines a novel family of podocin‐interacting proteins
L Sellin, TB Huber, P Gerke, I Quack, H Pavenstädt, G Walz
The FASEB Journal 17 (1), 115-117, 2003
The slit diaphragm: a signaling platform to regulate podocyte function
TB Huber, T Benzing
Current opinion in nephrology and hypertension 14 (3), 211-216, 2005
SARS-CoV-2 renal tropism associates with acute kidney injury
F Braun, M Lütgehetmann, S Pfefferle, MN Wong, A Carsten, ...
The Lancet 396 (10251), 597-598, 2020
Decoding myofibroblast origins in human kidney fibrosis
C Kuppe, MM Ibrahim, J Kranz, X Zhang, S Ziegler, J Perales-Patón, ...
Nature 589 (7841), 281-286, 2021
Podocytes use FcRn to clear IgG from the glomerular basement membrane
S Akilesh, TB Huber, H Wu, G Wang, B Hartleben, JB Kopp, JH Miner, ...
Proceedings of the National Academy of Sciences 105 (3), 967-972, 2008
Trafficking of TRPP2 by PACS proteins represents a novel mechanism of ion channel regulation
M Köttgen, T Benzing, T Simmen, R Tauber, B Buchholz, S Feliciangeli, ...
The EMBO journal 24 (4), 705-716, 2005
Emerging role of autophagy in kidney function, diseases and aging
TB Huber, CL Edelstein, B Hartleben, K Inoki, M Jiang, D Koya, S Kume, ...
Autophagy 8 (7), 1009-1031, 2012
Homodimerization and heterodimerization of the glomerular podocyte proteins nephrin and NEPH1
P Gerke, TB Huber, L Sellin, T Benzing, G Walz
Journal of the American Society of Nephrology 14 (4), 918-926, 2003
The podocyte slit diaphragm—from a thin grey line to a complex signalling hub
F Grahammer, C Schell, TB Huber
Nature Reviews Nephrology 9 (10), 587-598, 2013
FAN1 mutations cause karyomegalic interstitial nephritis, linking chronic kidney failure to defective DNA damage repair
W Zhou, EA Otto, A Cluckey, R Airik, TW Hurd, M Chaki, K Diaz, FP Lach, ...
Nature genetics 44 (8), 910-915, 2012
Autophagy plays a critical role in kidney tubule maintenance, aging and ischemia-reperfusion injury
S Liu, B Hartleben, O Kretz, T Wiech, P Igarashi, N Mizushima, G Walz, ...
Autophagy 8 (5), 826-837, 2012
Mitochondrial priming by CD28
RIK Geltink, D O’Sullivan, M Corrado, A Bremser, MD Buck, JM Buescher, ...
Cell 171 (2), 385-397. e11, 2017
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