Karl Lenhard Rudolph

Karl Lenhard Rudolph (born January 18, 1969 in Bremen ) is a German aging researcher , professor of molecular medicine at the Medical Faculty of the Friedrich Schiller University Jena and former scientific director of the Leibniz Institute for Aging Research (FLI) in Jena .

Life

After finishing school in Göttingen , Rudolph studied medicine at the Georg August University of Göttingen . He completed his medical studies in 1997 with a license to practice medicine . This was followed by clinical training in internal medicine and a two-and-a-half year research stay at Albert Einstein College in New York City and at the Dana Farber Cancer Institute in Boston. In 2001 Rudolph returned to Germany and was - funded by the Emmy Noether Program and a Heisenberg professorship from the DFG - research group leader at the Medical University of Hanover . During this time , Rudolph completed his habilitation in experimental gastroenterology . In 2007, Rudolph followed a call to Ulm University . There he was director of the Institute for Molecular Medicine and head of the Max Planck Research Group on Stem Cell Aging. From 2012 to 2017 he was the scientific director of the Leibniz Institute for Aging Research - Fritz Lipmann Institute e. V. (FLI) and Professor of Molecular Medicine at the Friedrich Schiller University in Jena, where he now researches and teaches.

From 2009 to 2014 Rudolph was President of the German Society for Aging Research (DGfA). From 2013 to 2017 he was co-speaker of the Leibniz Research Association (LFV) Healthy Aging.

In June 2017, the Presidium of the Leibniz Association reprimanded him for scientific misconduct. The board of trustees of the Institute for Aging Research decided to replace Rudolph in his function as scientific director [1], at the same time he was confirmed as head of the working group on stem cell aging to continue his scientific work at the FLI.

Research area

In his research, K. Lenhard Rudolph deals with the molecular mechanisms underlying the aging process, especially with stem cell aging. Adult stem cells are present in almost all human tissues and contribute fundamentally to the maintenance and regeneration of organs and tissues. In the course of the aging process, the function of these cells declines, which can lead to the loss of function of a number of organs and tissues. In his work, Rudolph clarifies the fundamental mechanisms that lead to the loss of function of stem cells during aging. In his most important works, Rudolph was able to show:

Telomere dysfunction limits organ preservation, cellular stress responses and the life span in mice.
Cell intrinsic DNA damage control points and cell extrinsic alterations inhibit stem cell function in response to telomere dysfunction and DNA damage.
Epigenetic changes in gene expression reduce stem cell functions in the aging blood system and in skeletal muscle.

important functions

2009–2014: President of the German Society for Aging Research (DGfA)
2015 & 2017: Co-Chair & Chair of the Gordon Research Conference "Stem Cell & Cancer"
2009, '11, '13, '15: Chair of the Else-Körner-Fresenius Symposium "Stem Cell Aging"
2012–2017: Co-Speaker of the Leibniz Research Association Healthy Aging
2015–2017: Speaker of the Leibniz ScienceCampus Regenerative Aging
2017: President of the German Stem Cell Network (GSCN)
2018 and 2020: Co-Organizer of the Jena Aging Meeting (JAM)

Awards / elite promotion

2001–2006: Emmy Noether Program of the DFG
2006: Heisenberg professorship from the DFG
2006: Monika Kutzner Science Prize for Cancer Research awarded by the Berlin-Brandenburg Academy of Sciences
2008: René Schubert Prize of the German Society for Aging Research
2009: Gottfried Wilhelm Leibniz Prize of the DFG
2011: Wilhelm Vaillant Prize in Molecular Medicine
2012: Science Award: Society Needs Science
2013: ERC Advanced Grant from the European Union
2015: German Cancer Prize of the German Cancer Society
2015: Seneca Medal for Aging Research from the Düsseldorf Industry Club

Selected publications

Z. Chen, EM Amro, F. Becker, M. Hölzer, SMM Rasa, SN Njeru, B. Han, S. Di Sanzo, Y. Chen, D. Tang, S. Tao, R. Haenold, M. Groth, VS Romanov, JM Kirkpatrick, JM Kraus, HA Kestler, M. Marz, A. Ori, F. Neri, Y. Morita, KL Rudolph. Cohesin-mediated NF-κB signaling limits hematopoietic stem cell self-renewal in aging and inflammation. J Exp Med . 216, 2019, pp. 152-175. PMID 30530755
J. Wang, Y. Morita, B. Han, S. Niemann, B. Löffler, KL Rudolph: Per2 induction limits lymphoid-biased haematopoietic stem cells and lymphopoiesis in the context of DNA damage and aging. In: Nat Cell Biol. 18 (5), 2016, pp. 480-490 recommended by "Faculty of 1000" - Prime. PMID 27088856
S. Schwörer, F. Becker, C. Feller, AH Baig, U. Köber, H. Henze, JM Kraus, B. Xin, A. Lechel, DB Lipka, CS Varghese, M. Schmidt, R. Rohs, R. Aebersold, KL Medina, HA Kestler, F. Neri, J. von Maltzahn **, S. Tümpel **, KL Rudolph **: Epigenetic stress responses induce muscle stem-cell aging by Hoxa9 developmental signals. In: Nature. 540 (7633), 2016, pp. 428-432 ** co-corresponding authors. PMID 27919074
J. Wang, Q. Sun, Y. Morita, H. Jiang, A. Gross, A. Lechel, K. Hildner, LM Guachalla, A. Gompf, D. Hartmann, A. Schambach, T. Wuestefeld, D. Dauch , H. Schrezenmeier, WK Hofmann, H. Nakauchi, Z. Ju, HA Kestler, L. Zender, KL Rudolph: A differentiation checkpoint limits hematopoietic stem cell self-renewal in response to DNA damage. In: Cell. 148, 2012, pp. 1001-1014. PMID 22385964
T. Sperka, Z. Song, Y. Morita, K. Nalapareddy, LM Guachalla, A. Lechel, Y. Begus-Nahrmann, MD Burkhalter, M. Mach, F. Schlaudraff, B. Liss, Z. Ju, MR Speicher , KL Rudolph: Puma and p21 represent cooperating checkpoints limiting self-renewal and chromosomal instability of somatic stem cells in response to telomere dysfunction. In: Nat Cell Biol. 14, 2011, pp. 73-79. PMID 22138576
Y. Begus-Nahrmann, A. Lechel, AC Obenauf, K. Nalapareddy, E. Peit, E. Hoffmann, F. Schlaudraff, B. Liss, P. Schirmacher, H. Kestler, E. Danenberg, N. Barker, H. Clevers, MR Speicher, KL Rudolph: p53 deletion impairs clearance of chromosomal-instable stem cells in aging telomere-dysfunctional mice. In: Nat Genet. 41, 2009, pp. 1138-1143. PMID 19718028
Z. Ju, H. Jiang, M. Jaworski, C. Rathinam, A. Gompf, C. Klein, A. Trumpp, KL Rudolph: Telomere dysfunction induces environmental alterations limiting hematopoietic stem cell function and engraftment. In: Nat Med. 13, 2007, pp. 742-747. PMID 17486088
AR Choudhury, Z. Ju, MW Djojosubroto, A. Schienke, A. Lechel, S. Schaetzlein, H. Jiang, A. Stepczynska, C. Wang, J. Buer, HW Lee, T. von Zglinicki, A. Ganser, P. Schirmacher, H. Nakauchi, KL Rudolph: Cdkn1a deletion improves stem cell function and lifespan of mice with dysfunctional telomeres without accelerating cancer formation. In: Nat Genet. 39, 2007, pp. 99-105. PMID 17143283
S. Schaetzlein, NR Kodandaramireddy, Z. Ju, A. Lechel, A. Stepczynska, DR Lilli, AB Clark, C. Rudolph, F. Kuhnel, K. Wei, B. Schlegelberger, P. Schirmacher, TA Kunkel, RA Greenberg , W. Edelmann, KL Rudolph: Exonuclease-1 deletion impairs DNA damage signaling and prolongs lifespan of telomere-dysfunctional mice. In: Cell. 130, 2007, pp. 863-877. PMID 17803909
KL Rudolph, S. Chang, H.-W. Lee, M. Blasco, GJ Gottlieb, C. Greider, RA DePinho: Longevity, stress response and cancer in aging telomerase deficient mice. In: Cell. 96, 1999, pp. 701-712. PMID 10089885
KL Rudolph, S. Chang, M. Millard, N. Schreiber-Agus, RA DePinho: Inhibition of experimental liver cirrhosis in mice by telomerase gene delivery. In: Science . 287, 2000, pp. 1253-1258. PMID 10678830

editor

KL Rudolph: Molecular Mechanisms of Adult Stem Cell Aging . Karger Verlag, 2010, ISBN 978-3-8055-9243-7 .
KL Rudolph: Advances in Stem Cell Aging . 2011, ISBN 978-3-318-02170-7 .
KL Rudolph: Adult Stem Cells in Aging, Diseases and Cancer . Karger Verlag, 2015, ISBN 978-3-318-02731-0 .

Web links

Individual evidence

personal data
SURNAME	Rudolph, Karl Lenhard
BRIEF DESCRIPTION	German aging researcher
DATE OF BIRTH	18th January 1969
PLACE OF BIRTH	Bremen