Freddy RadtkeFreddy Radtke obtained his Ph.D. in Molecular Biology from the University of Zürich in 1994. In 1995, he started his postdoctoral research in the laboratory of Michel Aguet at Genentech, Inc. (San Francisco, USA). In 1997, he returned to Switzerland with Michel Aguet and finished his postdoctoral fellowship at the Swiss Institute for Experimental Cancer Research (ISREC) in Lausanne. From 1999‑2005, he was a group leader and Associate Member at the Ludwig Institute for Cancer Research. Freddy Radtke then joined ISREC in January 2006 as a senior scientist and in July 2006, he was appointed Associate Professor at the EPFL School of Life Sciences
Andrew Charles OatesAfter an undergraduate degree in Biochemistry at the University of Adelaide with Honours in Robert Saint’s lab, Andrew Oates received his Ph.D. at the Ludwig Institute for Cancer Research and the University of Melbourne in the lab of Andrew Wilks. His postdoctoral time was at Princeton University and the University of Chicago in the lab of Robert Ho, where his studies on the segmentation clock in zebrafish began in 1998. In 2003 he moved to Germany and started his group at the Max Planck Institute for Molecular Cell Biology and Genetics in Dresden. In 2012 he accepted a position at University College London as Professor of vertebrate developmental genetics and moved his group to the MRC-National Institute for Medical Research at Mill Hill in London. From April 2015, he became a member of the Francis Crick Institute in London. In September 2016, he joined École polytechnique fédéral de Lausanne (EPFL) in Switzerland as a Professor, where he is the head of the Timing, Oscillation, Patterns Laboratory. From April 2018 he served as Director of the Institute of Bioengineering, and from January 2021 became the Dean of the School of Life Sciences.
The Timing, Oscillation, Patterns Laboratory is composed of biologists, engineers, and physicists using molecular genetics, quantitative imaging, and theoretical analysis to study a population of coupled genetic oscillators in the vertebrate embryo termed the segmentation clock. This system drives the rhythmic, sequential, and precise formation of embryonic body segments, exhibiting rich spatial and temporal phenomena spanning from molecular to tissue scales.
Michel AguetDr. Michel Aguet, MD, held positions in academia and industry (Associate Professor at the Institute of Molecular Biology, University of Zürich; Head of Molecular Oncology, Genentech, So. San Francisco) before he was appointed director of the Swiss Institute for Experimental Cancer Research (ISREC) (1996-2009). In the context of the integration of ISREC into the Swiss Federal Institute of Technology (EPFL), he was appointed as Full Professor at the newly established School of Life Sciences in 2005. From 2001-2013 he directed the National Center of Competence in Research (NCCR) in Molecular Oncology, a national program launched by the Swiss National Science Foundation to encourage translational cancer research and for which ISREC was the leading house. Dr. Aguet has been a SAB member in the pharmaceutical industry, biotech industry and venture capital industry since 1997.
A large part of his scientific career was devoted to exploring the molecular biology of interferons (cloning of the interferon gamma receptor, generation of various interferon signaling mutants in the mouse) and, in collaboration with Prof. Charles Weissmann, to investigating the role of prion related protein PrP in mouse prion disease models. In recent years his research focused on characterizing the role of BCL9 proteins, which are part of the Wnt/beta-catenin transcriptional activation complex, in regulating stem cell traits in intestinal epithelium and colorectal cancer. His laboratory is now closed due to retirement.
Cathrin BriskenCathrin Brisken, MD, PhD, is Associate Professor of Life Sciences at the Swiss Federal Institute of Technology Lausanne (EPFL). Dr. Brisken is internationally recognized for her work on endocrine control of mammary gland development and breast carcinogenesis.
Dr. Brisken received her MD and her PhD degree in Biophysics from the Georg August University of Göttingen, Germany. She completed her postdoctoral work in cancer biology with Dr. R.A. Weinberg at the Whitehead Institute of Biomedical Research in Cambridge, MA, USA. She previously held appointments at the Cancer Center of the Massachusetts General Hospital, Harvard Medical School, Boston and the Swiss Institute for Experimental Cancer Research (ISREC).
Research in Dr. Brisken’s laboratory focuses on the cellular and molecular underpinnings of estrogen and progesterone receptor signaling in the breast and the respective roles of these hormones and hormonally active compounds in carcinogenesis. The aim is to understand how recurrent exposures to endogenous and exogenous hormones contribute to breast carcinogenesis in order to better prevent and treat the disease. The laboratory has pioneered in vivo approaches to genetically dissect the role of the reproductive hormones in driving mouse mammary gland development and shown how they control intercellular communication. Dr. Brisken’s group has developed ex vivo and humanized mouse models using patient samples to study hormone action in human tissues in normal settings and during disease progression.
Dr. Brisken is member of the International Breast Cancer Study Group (IBCSG) Biological Protocol Working Group. She served as Dean of EPFL Doctoral School (more than 2000 PhD students in 18 PhD programs), as member of the Hinterzartener Kreis, the oncology think-tank associated with the German Science Foundation, and numerous Swiss, European, and AACR committees. She co-founded the International Cancer Prevention Institute.
Johan AuwerxJohan Auwerx is Professor at the École Polytechnique Fédérale in Lausanne, Switzerland, where he occupies the Nestle Chair in Energy Metabolism. Dr. Auwerx has been using molecular physiology and systems genetics to understand metabolism in health, aging and disease. Much of his work focused on understanding how diet, exercise and hormones control metabolism through changing the expression of genes by altering the activity of transcription factors and their associated cofactors. His work was instrumental for the development of agonists of nuclear receptors - a particular class of transcription factors - into drugs, which now are used to treat high blood lipid levels, fatty liver, and type 2 diabetes. Dr. Auwerx was amongst the first to recognize that transcriptional cofactors, which fine-tune the activity of transcription factors, act as energy sensors/effectors that influence metabolic homeostasis. His research validated these cofactors as novel targets to treat metabolic diseases, and spurred the clinical use of natural compounds, such as resveratrol, as modulators of these cofactor pathways.
Johan Auwerx was elected as a member of EMBO in 2003 and is the recipient of a dozen of international scientific prizes, including the Danone International Nutrition Award, the Oskar Minkowski Prize, and the Morgagni Gold Medal. His work is highly cited by his peers with a h-factor of over 100. He is an editorial board member of several journals, including Cell Metabolism, Molecular Systems Biology, The EMBO Journal, Journal of Cell Biology, Cell, and Science. Dr. Auwerx co-founded a handful of biotech companies, including Carex, PhytoDia, and most recently Mitobridge, and has served on several scientific advisory boards.
Dr. Auwerx received both his MD and PhD in Molecular Endocrinology at the Katholieke Universiteit in Leuven, Belgium. He was a post-doctoral research fellow in the Departments of Medicine and Genetics of the University of Washington in Seattle.
Daniel ConstamDaniel Constam received his doctoral degree in Natural Sciences from ETH Zürich in the neuroimmunology group of Adriano Fontana (1993). For postdoctoral studies, he joined the laboratory of Elizabeth Robertson as an EMBO fellow at Harvard University to characterize proprotein convertase (PC) functions in mouse models of early embryogenesis (1994-1999). As an ISREC group leader (>2000) and Associate Professor at EPFL (>2007), he initially continued to study pluripotency and lineage differentiation during development and found that several secreted PCs jointly regulate cell-cell adhesion and TGFβ signaling pathways at the cross-roads of stem cell and cancer biology. To map the proteolytic activity of PCs and their relative distribution in exocytic or endocytic vesicles, his lab developed PC-specific FRET sensors for high resolution live imaging in normal cells and in tumour-host interactions. His studies on TGFβ signaling also identified the RNA-binding protein Bicc1 and its self-polymerization in membrane-less organelles as regulators of mRNA translation and cell metabolism that cooperate with primary cilia to prevent cystic growth in renal tubules and in pancreatic and bile ducts.
Yann BarrandonYann Barrandon graduated in Medicine in Paris where he also trained as a dermatologist and completed his PhD on the long term cultivation of human haematopoietic stem cells in 1982 under the direction of Dr. Catherine Dresch (Centre Hayem, St Louis Hospital). He worked as a post-doctoral fellow (1982-1983) with Pr. Marvin Karasek in the Department of Dermatology at Stanford University CA, and then with Pr. Howard Green, a pioneer in cell therapy, in the Department of Molecular and Cellular Physiology at Harvard Medical School (1983-1990). During this period, he participated in the world's first transplantations of epidermal stem cells on extensive third degree wounds and contributed several seminal findings including the demonstration of stem cells in cultures of human keratinocytes (PNAS 1987), and that human keratinocyte stem cells could be efficiently transduced by retroviral vectors (Science 1987), in collaboration with Richard Mulligan at the Whitehead Institute for Biomedical Research (Massachussets Institute of Technology, Cambridge, USA). He has also participated to the transfer of the stem cell technology from Harvard University to a spin off biotechnology company, now part of Genzyme Corp.
He returned to France in 1990 as Director of Research at the INSERM and Head of Lab at the Ecole Normale Supérieure, Paris. During this period, he demonstrated the presence of multipotent clonogenic stem cells in hair follicles (Cell 1994, 2001) and successfully brought stem cells from bench to bedside demonstrating the usefulness of a fibrin matrix to transplant epidermal stem cells. (Transplantation, 2000). Following his move to Lausanne, Yann Barrandon has shown that oligopotent stem cells are present in the mammalian cornea (Nature 2008), challenging previous dogma. He has also contributed to the characterisation of several skin diseases (Nature Genetics, 1993a, 1993b, 2000, 2005) and towards gene therapy of dystrophic epidermolysis bullosa. He is a partner in several EEC stem cell consortia (FP6: Therapeuskin and EuroStemCell, FP7: EuroSyStem, OptiStem, BetaCellTherapy).
Current research targets the role of small microenvironmental variations on stem cell behavior, and exploring the potency of stem cells of stratified epithelia (skin, esophagus, ocular surface) and of thymic epithelial cells. The lab is also involved in understanding the factors that regulate stem cell engraftment to improve epithelial cell therapy. An important aspect of the research aims at setting up a pilot clinical trial to demonstrate the feasibility of ex vivo gene therapy to treat Dystrophic Epidermolysis Bullosa, a rare but horrendous congenital disease of the skin that results in continuous blistering of the skin, chronic wounds, fusion of fingers and development of carcinoma.
Yann Barrandon was a member of the Faculty Council of the EPFL School of Life Sciences 2006-2008, of the Board of Swiss Stem Cell Network, 2004-2009, and is a member of the EPFL Ethics Committee since 2008. He is a reviewer for major scientific journals and for major granting agencies abroad. He is a member of the board of Directors of the International Society for Differentiation (ISD) and of the Tissue Engineering and Regenerative Medicine International Society (TERMIS) and was a Member of the Board of Directors of the European Tissue Repair Society, 1990-1995. He was elected as EMBO member in 2009.
He has given over 300 invited conferences and seminars worldwide on the biology and the therapeutic use of cutaneous stem cells including:
Gordon Research Conferences, Tissue Repair and Regeneration, June 2005, New London, USA,
Keystone Symposia on Stem Cells, April 2006, Whistler, Canada
Keystone Symposia, Stem Cell Interactions with their Microenvironmental Niche, March 2007, Keystone, USA
Keystone Symposia, Stem Cell Niche Interactions, April 2009, Whistler, Canada
Gordon Research Conferences, Epithelial Stem Cells, June 2009, Les Diablerets, Switzerland
7th Meeting of the International Society Stem Cell Research, July 2009, Barcelona, Spain
16th International Society for Developmental Biologists, Edinburgh, Scotland, UK, Sept 2009
Yann Barrandon has given multiple media interviews and participated to different reportages:
LCI, TF1, France 2, France 3, RSR (Radio Suisse Romande), TSR (Television Suisse Romande), and articles in newspapers: Figaro, La Croix, Le Temps, LHebdo, Le Nouvelliste, etc. He was also a participant in the movie A Stem Cell Story, EuroStemCell, Best TV/video production, Tromsø Science Media Festival; Best short film, Scinema (Australia); In competition, Science Film Festival (Bangkok), BaKaFORUM 2007, Vedere la Scienza
He organized the second EuroStemCell international conference Advances in Stem Cell Research supported by the EMBO and held in Lausanne 8-10 September 2006. He regularly participates as faculty to the EEC funded Stem Cell Summer School held in Hydra Greece since 2005.
Matthias LütolfMatthias Lutolf is Full Professor at EPFL’s Institute of Bioengineering, with a cross appointment in the Institute of Chemical Sciences and Engineering. Lutolf was trained as a Materials Engineer at ETH Zurich where he also carried out his PhD studies (with Jeffrey Hubbell) that were awarded with an ETH medal. He continued his research training as a Post-Doctoral Fellow in Stem Cell Biology (with Helen Blau) at Stanford University. He has served as the Director of the Institute of Bioengineering from 2014 to 2018. Lutolf is an internationally recognized leader in the fields of stem cell bioengineering and tissue engineering. His research program uniquely combines stem cell biology with engineering principles and quantitative thinking. His team, composed of engineers, chemists, physicists, cell and developmental biologists, strives to develop technologies that have true biological and medicinal function and applicability. Lutolf’s work has led to more than 110 peer-reviewed scientific publications, many of which published in highly reputed journals, more than 25 patents, and the commercialization of several products. Current research in the Lutolf lab is focused on the bioengineering of miniature tissues, termed organoids, that are generated from self-organizing stem cells.
