Matthias Hentze Explained

Matthias Hentze
Birth Date:25 January 1960
Birth Place:Wiedenbrück, Germany
Fields:Molecular Biology, RNA-binding proteins
Alma Mater:Westfälische Wilhelms-Universität Münster
Thesis Title:"Influence of amino acid analogs on maturation, transport and stability of cathepsin D in human skin fibroblasts"
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Thesis Year:1984
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Website:www.embl.de

Matthias Werner Hentze (born 25 January 1960 in Wiedenbrück, Germany) is a German scientist. He is the director of the European Molecular Biology Laboratory (EMBL),[1] co-director of the Molecular Medicine Partnership Unit between EMBL and Heidelberg University, and Professor of Molecular Medicine at Heidelberg University.[2]

Biography

Matthias Hentze studied medicine in the UK at the medical schools at the universities of Southampton, Oxford, Glasgow and Cambridge, and in Germany at the Westfälische Wilhelms-Universität, Münster from which he qualified in 1984. In the same year, he received his M.D. degree for a dissertation on the role of glycosylation in lysosomal enzyme expression with Kurt von Figura as his advisor.[3] [4]

After a short phase of clinical work Hentze became a postdoctoral fellow at the National Institutes of Health (Bethesda, Maryland, USA) in 1985, having been awarded a fellowship by the German Research Foundation (DFG). In 1989, he joined the European Molecular Biology Laboratory in Heidelberg as an independent group leader. At the age of 30, he obtained the Habilitation from the Ruprecht-Karls University in Heidelberg and was appointed Dean of the EMBL International Ph.D. Programme in 1996.

Together with Andreas Kulozik of the Medical Faculty of Heidelberg University, Hentze co-founded the Molecular Medicine Partnership Unit (MMPU) in 2002[5] [6] and serves as its co-director. The MMPU represents the first institutional partnership between EMBL and a national research institution and is devoted to interdisciplinary research at the interface between molecular biology and clinical medicine.

In 2005, Hentze became Associate Director of the EMBL and Professor for Molecular Medicine at the University of Heidelberg. In 2013, Hentze was appointed Director of EMBL, advising and supporting EMBL's Director General, Prof. Edith Heard.

Work

Research

Hentze's research focuses on RNA biology and RNA-binding proteins. In 1987, Hentze and his colleagues discovered iron-responsive elements as first example of an RNA element regulating the translation of mammalian mRNA into proteins.[7] Hentze's research group has paved the way for understanding translational control (RNA-binding proteins, microRNAs) whose significance for developmental biology, brain function, carcinogenesis and other diseases has in the meantime become widely recognized.[8] Moreover, he has made key discoveries in the area of iron metabolism and disease.[9]

In 2010, Hentze proposed the concept of REM Networks, a new interconnection between metabolism and gene expression on the basis of RNA-binding proteins.[10] The research project was awarded the ERC Advanced Investigator Grant by the European Research Council in 2011.[11] Work following this hypothesis led to the development of the "RNA Interactome Capture" technique and to the discovery of hundreds of formerly unknown RNA-binding proteins in the cells of living organisms from human to yeast, including more than 50 metabolic enzymes.[12] [13] [14] Hentze and his colleagues also discovered new RNA-binding motives of proteins which they unraveled using the newly developed method called "RBDmap".[15]

In 2019, they described the concept of riboregulation. They found out that the autophagy receptor protein p62 is directly regulated by a small RNA, vtRNA1-1, and that the small RNA directly interferes with protein-protein interactions between p62 monomers.[16] They reported a new form of riboregulation in 2022: RNA binds to the catalytic center of the human enzyme enolase-1 and inhibits its glycolytic activity.[17] Currently, their research focuses on how widely biological processes are riboregulated, and how riboregulation determines cell metabolism, differentiation and malignant processes.

Administrative activities

Since 1996, Hentze has held positions in EMBL's scientific administration, initially as Dean of the EMBL International PhD Programme[18] and in the establishment and expansion of EMBL's internal and external training programs. He played a key role in the construction and establishment of the Advanced Training Centre (ATC) in Heidelberg.[19] He is also responsible for developing EMBL's fundraising programs as well as the alumni program, and established EMBL's first Bioethics Committee, which he chaired from 2004 to 2020.

Hentze founded the Environmental Research Initiative (ERI) in 2020.[20] Focused on globally networked, interdisciplinary research in the life sciences, ERI connects the commitment of private donors with the scientific potential of researchers at EMBL to uncover new approaches to solve environmental problems.

Honors and awards

Notes and References

  1. Web site: Matthias Hentze . EMBL . 26 September 2023.
  2. http://www.klinikum.uni-heidelberg.de/Faculty.114485.0.html Faculty at Heidelberg University Hospital. Retrieved 2015-06-12.
  3. http://www.leopoldina.org/fileadmin/redaktion/Mitglieder/CV_Hentze_Matthias_EN.pdf Leopoldina CV. Retrieved 2020-07-30.
  4. Hentze . M. . Hasilik . A. . Figura . Kurt v. . Enhanced degradation of Cathepsin D synthesized in the presence of the threonine analog beta-hydroxynorvaline . Arch. Biochem. Biophys. . 230 . 1 . 375–82 . 6424571 . 10.1016/0003-9861(84)90120-6 . 1984. Retrieved 6 August 2015.
  5. Smaglik. P. 4416590. Language lessons: Heidelberg.. Nature. 15 May 2003. 423. 6937. 364–5. 12748657. 10.1038/nj6937-364a.
  6. 18 July 2005. Molecular Medicine Partnership Unit initiates second phase. 26 September 2023. EMBL.
  7. Hentze . MW . Caughman . SW . Rouault . TA . Barriocanal . JG . Dancis . A . Harford . JB . Klausner . RD . Identification of the iron-responsive element for the translational regulation of human ferritin mRNA . Science . 238 . 4833 . 1570–73 . 1987 . 3685996 . 10.1126/science.3685996. 1987Sci...238.1570H .
  8. Sonenberg . N . Hinnebusch . A . New modes of translational control in development, behavior, and disease . Mol Cell . 28 . 5 . 721–29 . 14 December 2007 . 18082597 . 10.1016/j.molcel.2007.11.018. free .
  9. Hentze . MW . Muckenthaler . MU . Galy . B . Camaschella . C . 23971474 . Two to tango: regulation of mammalian iron metabolism . Cell . 142 . 1 . 24–38 . 9 July 2010 . 20603012 . 10.1016/j.cell.2010.06.028. free .
  10. Hentze . MW . Preiss . T . The REM phase of gene regulation . Trends Biochem Sci . 35 . 8 . 423–26 . 2010 . 20554447 . 10.1016/j.tibs.2010.05.009.
  11. https://cordis.europa.eu/project/id/294298 Exploring the interface between cell metabolism and gene regulation: from mRNA interactomes to "REM Networks"
  12. Castello . A . Fischer . B . Schuschke . K . Horos . R . Beckmann . BM . Strein . C . Davey . NE . Humphreys . DT . Preiss . T . Steinmetz . LM . Krijgsveld . J . Hentze . MW . 17912260 . Insights into RNA biology from an atlas of mammalian mRNA-binding proteins . Cell . 149 . 6 . 1393–1406 . 8 June 2016 . 22658674 . 10.1016/j.cell.2012.04.031. free .
  13. Beckmann . BM . Horos . R . Fischer . B . Castello . A . Eichelbaum . K . Alleaume . AM . Schwarzl . T . Curk . T . Foehr . S . Huber . W . Krijgsveld . J . Hentze . MW . The RNA-binding proteomes from yeast to man harbor conserved enigmRBPs . Nature Communications. 6 . 1012 . 3 December 2015 . 10127 . 26632259 . 10.1038/ncomms10127. 4686815 . 2015NatCo...610127B .
  14. Hentze . MW . Castello . A . Schwarzl . T . Preiss . T . 4938952 . A brave new world of RNA-binding proteins . Nat Rev Mol Cell Biol . 19 . 5 . 327–41 . 17 January 2018 . 29339797 . 10.1038/nrm.2017.130.
  15. Castello . A . Fischer . B . Frese . CK . Horos . R . Alleaume . AM . Foehr . S . Curk . T . Krijgsveld . J . Hentze . MW . Comprehensive identification of RNA-binding domains in human cells . Mol. Cell . 63 . 4 . 18 August 2016 . 696–710 . 27453046 . 10.1016/j.molcel.2016.06.029. 5003815 .
  16. Horos . R . Büscher . M . Kleinendorst . R . Alleaume . AM . Tarafder . AK . Schwarzl . T . Dziuba . D . Tischer . C . Zielonka . EM . Adak . A . Castello . A . Huber . W . Sachse . C . Hentze . MW . 72333202 . The Small Non-coding Vault RNA1-1 Acts as a Riboregulator of Autophagy . Cell . 176 . 5 . 1054–67 . 21 February 2019 . 30773316 . 10.1016/j.cell.2019.01.030. free .
  17. Huppertz . Ina . Perez-Perri . Joel I. . Mantas . Panagiotis . Sekaran . Thileepan . Schwarzl . Thomas . Russo . Francesco . Ferring-Appel . Dunja . Koskova . Zuzana . Dimitrova-Paternoga . Lyudmila . Kafkia . Eleni . Hennig . Janosch . Neveu . Pierre A. . Patil . Kiran . Hentze . Matthias W. . 21 July 2022 . Riboregulation of Enolase 1 activity controls glycolysis and embryonic stem cell differentiation . Molecular Cell . en . 82 . 14 . 2666–2680.e11 . 10.1016/j.molcel.2022.05.019 . 35709751 . 249722068 . 1097-2765. free .
  18. Web site: Training: EMBL International PhD Programme . EMBL . https://web.archive.org/web/20041209235146/http://www.embl.de/training/phdprogramme/index.html . 9 December 2004.
  19. Smaglik . Paul . EMBL offers lab training in Europe . Nature . 457 . 7233 . 1172 . 26 February 2009 . 10.1038/nj7233-1172b. free .
  20. Web site: About EMBL . EMBL . 21 June 2021 . https://web.archive.org/web/20210611095555/https://www.embl.de/aboutus/support-embl/what-to-support/environmental-research-initiative/ . 11 June 2021.
  21. http://www.embo.org/members/find-a-member EMBO Membership Directory. Retrieved 2015-07-20.
  22. Web site: Overview of all Gottfried Wilhelm Leibniz Prizewinners: 2000 . Deutsche Forschungsgemeinschaft .