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09/20/2022 10:10

Frederick W. Alt and David G. Schatz to be awarded the 2023 Paul Ehrlich and Ludwig Darmstaedter Prize

Dr. Markus Bernards Public Relations und Kommunikation
Goethe-Universität Frankfurt am Main

Immunologists Frederick W. Alt (73) of Harvard Medical School and David G. Schatz (64) of Yale School of Medicine are to receive the 2023 Paul Ehrlich and Ludwig Darmstaedter Prize, as the Scientific Council of the Paul Ehrlich Foundation announced today. The two researchers are being acknowledged for their discovery of molecules and mechanisms that enable our immune system to perform the astounding feat of recognizing billions of different antigens on first contact.

FRANKFURT. Both the antibodies produced by B cells and structures on the surface of T cells are able to capture antigens. Collectively, they are referred to as antigen receptors. In the first instance, their tremendous variety is thanks to different gene fragments combining at random to form functional genes. Almost 50 years ago, this principle was first demonstrated for the production of antibodies. However, the finer details of this somatic recombination remained largely in the dark until Alt and Schatz increasingly shed light on the subject. “The picture we have today of the diversification of antigen receptors in the immune system of vertebrates is above all thanks to the two prize winners,” says Professor Thomas Boehm, Chairman of the Scientific Council of the Paul Ehrlich Foundation. “They have raised our knowledge of the development of the immune system to a new level.”

Antigen receptors are proteins consisting of constant and variable parts. In each antibody, for example, two heavy and two light chains are joined together in a Y-shape. Which antigen an antibody can recognize depends on the variable parts in the arms of the Y. In each of our B cells, an antibody with different claws matures during its development in the bone marrow. In total, our body can build approximately ten billion different antibodies, although it has only about 20,000 protein blueprints in the form of genes. It achieves this by means of an extraordinarily daring procedure that makes cutting up and re-assembling the genetic information DNA on certain chromosomes of maturing lymphocytes the norm.

The enzyme complex RAG1/2 discovered by David Schatz and colleagues conducts these cuts at pre-designated sites. For the formation of the variable portions of heavy antibody chains, for example, these sites are located on chromosome 14. There, they flank relatively widely spaced segments in three different regions called V (for variable), D (for diversity), and J (for joining). RAG1/2 conducts cuts at a randomly selected segment from each of these regions for each antibody. Subsequently, DNA repair enzymes assemble a VDJ gene to encode a heavy chain variable region. Frederick Alt discovered the repair enzymes that work together to join the ends of the cut-out segments. In the next step of B cell maturation, the light chains are formed in a similar way, but only a VJ recombination occurs there in this case.

The RAG enzymes do not, however, wander aimlessly through the cell nucleus of immature lymphocytes. On the contrary, they draw the chromatin filaments together, in which the DNA is coiled up in a space-saving way, temporarily and again and again to form V(D)J recombination centers. There, they perform chromatin scanning. In this process, a chromatin loop, which can be more than one million DNA letters long, passes through the recombination center so that widely separated sections of text can be reliably linked together. The loop extrusion mechanism of V(D)J recombination elucidated by Frederick Alt elegantly explains how these loops are created and pulled through the recombination center.

Frederick Alt made further decisive contributions to the understanding of antigen receptor diversity. For example, he succeeded in showing that combinatorial diversity is increased many-fold by the enzymatic insertion of very short random DNA sequences, called N-nucleotides, at the interfaces of the gene segments to be joined. In B cells, antibody diversity is further potentiated by the phenomenon of somatic hypermutation. In this process, the normal rate of mutations affecting only one DNA letter is increased millions of times in the regions of the V segments by an enzyme. Alt, Schatz, and others showed how this enzyme performs its work with pinpoint accuracy. They thus provided a framework for solving the question of how B cells can take advantage of the enormous mutational capacity of AID for antibody maturation without running the risk of suffering tumor-inducing mutations.

Without the recombination-activating enzyme complex RAG1/2, the diversification of antigen receptors is impossible, the maturation of the lymphocytes is disrupted, and a severe immune defect is the consequence. It is all the more remarkable that this molecule apparently originates from a jumping gene – a transposon. These are selfish DNA parasites that crept into our genome at some point and can move from one place to another as jumping genes. Because of their uncontrolled distribution, they can be involved in the development of disease. RAG1/2, however, according to David Schatz's findings, descends from a transposon that all jawed vertebrates, including us humans, tamed for their own purposes very early in evolution. To prevent it from jumping on, they had to fix it in the genome. Schatz has shown which biochemical mechanisms enable this fixation. He was also able, on the basis of structural biological studies in an ancient invertebrate RAG gene to reproduce the act of transposition over several stages. He is thus giving science a fascinating look back at a revolutionary process at the beginning of vertebrate evolution: the development of the adaptive immune system in addition to already existing innate immunity. Building on this view from basic research, translational research will be able to open up new therapeutic perspectives for diseases in which our immune system plays a crucial role.

Frederick W. Alt is the Charles A. Janeway Professor of Pediatrics and Director of the Program in Cellular and Molecular Medicine at Boston Children's Hospital, a Howard Hughes Medical Institute Investigator, and a Professor of Genetics at Harvard Medical School.
https://www.childrenshospital.org/research/labs/alt-laboratory-research

David G. Schatz is Professor of Molecular Biophysics and Biochemistry at Yale University and Chairperson of the Department of Immunobiology at Yale School of Medicine.
https://medicine.yale.edu/profile/david_schatz/

The prizes will be awarded by the Chairman of the Scientific Council of the Paul Ehrlich Foundation on 14 March 2023 at 5 p.m. in Frankfurt’s Paulskirche. We kindly ask you to take this into consideration when planning your diary. Please do not hesitate to contact us if you have any questions.

Further information
Press Office
Paul Ehrlich Foundation
Joachim Pietzsch
Tel.: +49 (0)69 36007188
Email: j.pietzsch@wissenswort.com
http://www.paul-ehrlich-stiftung.de

The Paul Ehrlich and Ludwig Darmstaedter Prize is Germany’s most renowned medical award, endowed with 120,000 euros. It is traditionally awarded on Paul Ehrlich's birthday, 14 March, in Frankfurt's Paulskirche. It honours scientists who have made special contributions in areas of research represented by Paul Ehrlich’s achievements, namely in immunology, cancer research, haematology, microbiology and chemotherapy. The prize, which has been awarded since 1952, is funded by the Federal Ministry of Health, the German Association of Research-based Pharmaceutical Companies (Verband Forschender Arzneimittelhersteller e.V.) and by earmarked donations from the following companies, foundations and institutions: Else Kröner-Fresenius-Foundation, Sanofi-Aventis Deutschland GmbH, C.H. Boehringer Sohn AG & Co. KG, Biotest AG, Hans und Wolfgang Schleussner-Foundation, Fresenius SE & Co. KGaA, F. Hoffmann-LaRoche Ltd., Grünenthal Group, Janssen-Cilag GmbH, Merck KGaA, Bayer AG, Georg von Holtzbrinck GmbH & Co.KG, AbbVie Deutschland GmbH & Co. KG., B. Metzler seel. Sohn & Co KGaA. The award winners are selected by the Scientific Council of the Paul Ehrlich Foundation. A list of the members of the Scientific Council is available on the website of the Paul Ehrlich Foundation.

The Paul Ehrlich Foundation is a legally dependent foundation administered in trust by the Association of Friends and Benefactors of Goethe University. Honorary President of the Foundation, which was established in 1929 by Hedwig Ehrlich, is Professor Dr Katja Becker, President of the German Research Foundation, who also appoints the elected members of the Foundation Council and the Board of Trustees. The Chairman of the Scientific Council of the Paul Ehrlich Foundation is Professor Dr Thomas Boehm, Director at the Max Planck Institute for Immunobiology and Epigenetics in Freiburg, and the Chairman of the Board of Trustees is Professor Dr Jochen Maas, Managing Director Research & Development, Sanofi-Aventis Deutschland GmbH. In his function as Chairman of the Association of Friends and Benefactors of Goethe University, Prof. Dr Wilhelm Bender is also a member of the Scientific Council of the Paul Ehrlich Foundation. The President of Goethe University is in this capacity also a member of the Board of Trustees.

Goethe University is a research-oriented university in the European financial centre Frankfurt am Main. The university was founded in 1914 through private funding, primarily from Jewish sponsors, and has since produced pioneering achievements in the areas of social sciences, sociology and economics, medicine, quantum physics, brain research, and labour law. It gained a unique level of autonomy on 1 January 2008 by returning to its historic roots as a "foundation university". Today, it is one of the three largest universities in Germany. Together with the Technical University of Darmstadt and the University of Mainz, it is a partner in the inter-state strategic Rhine-Main University Alliance. Internet: www.uni-frankfurt.de

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More information:

https://www.uni-frankfurt.de/124666288 Background information with the title “Protected by a tamed parasite”
http://www.paul-ehrlich-stiftung.de Photos of the award winners

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Criteria of this press release:
Journalists, Scientists and scholars
Biology, Chemistry, Medicine
transregional, national
Contests / awards, Personnel announcements
English

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