Complete list of publications
2017
- Prüss H, Tedeschi A, Thiriot A, Lynch L, Loughhead SM, Stutte S, Mazo IM, Kopp MA, Brommer B, Blex C, Geurtz LC, Liebscher T, Niedeggen A, Dirnagl U, Bradke F, Volz MS, DeVivo MJ, Chen Y, von Andrian UH & Schwab JM. Spinal cord injury-induced immunodeficiency is mediated by a sympathetic-neuroendocrine adrenal reflex. Nat. Neurosci. doi:10.1038/nn.4643
- Tedeschi A* and Bradke F* (2016) Spatial and temporal arrangement of neuronal intrinsic and extrinsic mechanisms controlling axon regeneration. Curr Opin Neurobiol. 28;42:118-127. (* Corresponding authors)
- Tedeschi A*#, Omura T*#, and Costigan M# (2016) CNS repair and axon regeneration: Using genetic variation to determine mechanisms. Exp Neurol. pii: S0014-4886(16)30116-9. doi: 10.1016/j.expneurol.2016.05.004 (* Equal contribution, # Corresponding authors)
- Alecu I, Tedeschi A, Behler N, Wunderling K, Lamberz C, Lauterbach MAR, Gaebler A, Ernst D, Van Veldhoven PP, Al-Amoudi A, Latz E, Othman A, Kuerschner L, Hornemann T, Bradke F, Thiele C, Penno A (2016) Localization of 1-deoxysphingolipids to mitochondria induces mitochondrial dysfunction. J Lipid Res. pii: jlr.M068676.
- Tedeschi A, Dupraz S, Laskowski CJ, Xue J, Ulas T, Beyer M, Schultze JL, and Bradke F (2016) The calcium channel subunit Alpha2delta2 suppresses axon regeneration in the adult CNS. Neuron. 19;92(2):419-434. Cover Article. Faculty 1000 recommended
- Omura T, Omura K, Tedeschi A, Riva P, Painter M, Rojas L, Martin J, Lisi V, Huebner E, Latremoliere A, Yin Y, Barrett L, Singh B, Lee S, Crisman T, Gao F, Li S, Kapur K, Geschwind DH, Kosik KS, Coppola G, He Z, Carmichael ST, Benowitz LI, Costigan M, Woolf CJ (2015) Robust axonal regeneration occurs in the injured CAST/Ei mouse CNS. Neuron 86(5):1215-27.
- Ruschel J, Hellal F*, Flynn KC*, Dupraz S*, Elliot DA, Tedeschi A, Bates M, Sliwinski C, Brook G, Dobrint K, Peitz M, Brüstle O, Norenberg MD, Blesch A, Weidner N, Bunge MB, Bixby JL, Bradke F (2015) Systemic administration of epothilone B promotes axon regeneration after spinal cord injury. Science 348(6232):347-52. (* equal contribution)
- Tedeschi A* and Bradke F* (2014) A new “spin” on recovery after spinal cord injury. Cell 159(7):1494-6. (* Corresponding authors)
- Ni Y*, Nawabi H*, Liu X, Yang L, Miyamichi K, Tedeschi A, Xu B, Wall N, Callaway E and He Z (2014) Characterization of long-descending pre-motor propriospinal neurons in the spinal cord. J. Neurosci. 34(28):9404-17. (* Co-first authors)
- Puttagunta R*, Tedeschi A*, Grando Soria M, Hervera A, Lindner R, Rathore KI, Gaub P, Joshi Y, Nguyen T, Schmandke A, Laskowski CJ, Boutillier AL, Bradke F, and Di Giovanni S (2014) PCAF-dependent epigenetic changes promote axonal regeneration in the central nervous system. Nat. Commun. 5:3527 doi:10.1038/ncomms4527 (* Co-first authors)
- Stern S, Haverkamp S, Sinske D, Tedeschi A, Naumann U, Di Giovanni S, Kochanek S, Nordheim A, and Knöll B (2013) The transcription factor serum response factor (SRF) stimulates axon regeneration through cytoplasmic localization and cofilin interaction. J. Neurosci. 33(48):18836-48.
- Tedeschi A* and Bradke F* (2013) The DLK signalling pathway—a double-edged sword in neural development and regeneration. Embo Rep. 14(7):605-14. (* Corresponding authors)
- Floriddia EM, Rathore KI, Tedeschi A, Quadrato G, Wuttke A, Lueckmann JM, Kigerl KA, Popovich PG, Di Giovanni S (2012) p53 Regulates the neuronal intrinsic and extrinsic responses affecting the recovery of motor function following spinal cord injury. J. Neurosci. 32(40):13956-70.
- Tedeschi A (2012) Tuning the orchestra: transcriptional pathways controlling axon regeneration. Front. Mol. Neurosci. 4:60. doi: 10.3389/fnmol.2011.00060.
- Liu K, Tedeschi A, Park KK, and He Z (2011) Neuronal Intrinsic Mechanisms of Axon Regeneration. Annu. Rev. Neurosci. 34:131-52.
- Tedeschi A and He Z (2010) Axon Regeneration: Electrical Silencing is a Condition for Regrowth. Curr. Biol. 20(17):R713-4.
- Gaub P, Tedeschi A, Puttagunta R, Nguyen T, Schmandke A and Di Giovanni S (2010) HDAC inhibition promotes neuronal outgrowth and counteracts growth cone collapse through CBP/p300 and P/CAF-dependent p53 acetylation. Cell Death Differ. 17(9):1392-408.
- Liu K*, Lu Y *, Lee JK, Samara R, Willenberg R, Sears-Kraxberger I, Tedeschi A, Park KK, Jin D, Cai B, Xu B, Connolly L, Steward O, Zheng B and He Z (2010) PTEN deletion enhances the regenerative ability of adult corticospinal neurons. Nat. Neurosci. 13(9):1075-81. (* Co-first authors) Cover article. Faculty 1000 recommended
- Tedeschi A, Nguyen T, Steele SU, Feil S, Naumann U, Feil R and Di Giovanni S (2009) The tumour suppressor p53 transcriptionally regulates cGKI expression during neuronal maturation and is required for cGMP-dependent growth cone collapse. J. Neurosci. 29(48):15155-60.
- Nguyen T, Lindner R, Tedeschi A, Försberg K, Green A, Wuttke A, Gaub P and Di Giovanni S (2009) NFAT-3 is a transcriptional repressor of the growth associated protein 43 during neuronal maturation. J. Biol. Chem. 284(28):18816-23.
- Tedeschi A and Di Giovanni S (2009) The non-apoptotic role of p53 in neuronal biology: enlightening the dark side of the moon. EMBO Rep. 10(6):576-83. Cover review.
- Tedeschi A, Nguyen T, Puttagunta R, Gaub P and Di Giovanni S (2009) A p53-CBP/p300 transcription module is required for GAP-43 expression, axon outgrowth and regeneration. Cell Death Differ. 16(4):543-54
