George D. Yancopoulos (born 1959) is a
Greek-
American biomedical scientist who is the co-founder, president and chief scientific officer of
Regeneron Pharmaceuticals.[1]
Yancopoulos is the holder of more than 100 patents.[2] He is a principal inventor and developer of Regeneron's ten
FDA-approved or -authorized treatments, as well as of Regeneron's foundational technologies for target and drug development, such as its proprietary TRAP technology, and the VelociGene and VelocImmune antibody technologies.[3][4]
Early life and education
Son of
Greek immigrants he spent his early childhood in
Woodside, New York. As a student at the
Bronx High School of Science, Yancopoulos was a top winner of the 1976 Westinghouse Science Talent Search. Intel and then Regeneron later assumed the title sponsorship for the Science Talent Search.[5]
Based on his scientific publications, he was elected to both the
National Academy of Sciences[6] and the
American Academy of Arts and Sciences in 2004. According to a study by the Institute for Scientific Information, he was the eleventh most highly cited scientist in the world during the 1990s, and the only scientist from the biotechnology industry on the list.[8]
Yancopoulos has cloned novel families of growth factors, including ephrins/Ephs and angiopoietins, and elucidated the basis of how many receptors work.[9] His work has included study of how nerves regenerate[6] and how muscles connect to nerves.[10]
In 1985, along with his mentor Dr. Fred Alt, he was the first to propose making mouse models with genetically human immune systems ("Human mice").[11] This research led to Yancopoulos developing "the most valuable mouse ever made," bred to have immune systems that respond just as a human's would, so that it can be used for testing how the human body might react to various pharmaceuticals and other substances.[6]
Much of Yancopoulos and Alt's work in immunology including common recombination, accessibility control of recombination and scanning or tracking of recombinant action, has been recently validated.[12]
Career
Yancopoulos left academia in 1989 to become the founding scientist and chief scientific officer of
Regeneron Pharmaceuticals with founder and chief executive officer
Leonard Schleifer, M.D., Ph.D. In 2016, Yancopoulos was also named president of the company.[13]
Yancopoulos plays an active role in Regeneron's STEM (Science, Technology, Engineering and Math) Education commitments, including the
Regeneron Science Talent Search, the nation's oldest high school science and math competition.[14]
In 2014, Yancopoulos led the launch of the Regeneron Genetics Center, a major initiative in human genetic research that has sequenced exomes from over 1,000,000 people as of February 2020[update].[15][16]
Forbes magazine states Yancopoulos' financial stake in Regeneron has made him a billionaire. He is the first research and development chief in the pharmaceutical industry to become a billionaire.[17]
Awards
Yancopoulos won a NY/NJ CEO Lifetime Achievement Award in 2012.[18]
Yancopoulos has been awarded Columbia University's Stevens Triennial Prize for Research and its University Medal of Excellence for Distinguished Achievement.[19]
The George D. Yancopoulos Young Scientist Award is given at the Westchester Science & Engineering Fair.[21]
He was inducted into the Bronx Science Hall of Fame in 2017 and was recognized by the Yale School of Management, CEO Institute as a Legends in Leadership Award in 2017.[22][23]
In 2019, he received the Alexander Hamilton Award,[24] Columbia's highest honor for contributions to science and medicine and was recognized by Forbes as one of America’s 100 Most Innovative Leaders.[25]
Yancopoulos was recognized by Fortune in 2020 as one of the World's 25 Greatest Leaders: Heroes of the Pandemic.[26]
In 2021, Yancopoulos won the Roy Vagelos Humanitarian Award for REGEN-COV, Prix Galien Foundation[27] and the New York Intellectual Property Law Association's Inventors of the Year for REGEN-COV.[28]
Boards
Yancopoulos serves on a number of Boards, including on Regeneron's Board of Directors. He currently serves on the Columbia University Medical Center Board of Visitors, as Vice Chair starting in 2012;[29] the Board of Trustees for Cold Spring Harbor Laboratory, since 2015;[30] the Scientific Advisory Council, Alliance on Cancer Gene Therapy, since 2007;[31] the Scleroderma Research Foundation, Scientific Advisory Board, starting in 2004;[32] and the Pershing Square Cancer Research Alliance, Advisory Board, since 2018.[33]
Controversies
Concerns over Yancopoulos' 2020 personal and business related behavior pertaining to race and privilege have been reported. Yancopoulos has been criticized for commentary during a high school graduation speech he gave in 2020 in which he characterized the police as "scapegoats", challenged students to question "popular narratives", and use statistics and data to formulate their perspectives, within the context of social justice movements like the Black Lives Matter movement.[34][35]
Also in 2020, Donald Trump and others in his administration were treated with REGEN-COV, Regeneron's experimental COVID-19 therapeutic, raising concerns that Regeneron had provided them with privileged access to the drug.[36][37] At the time, the drug was undergoing clinical trials in humans and not yet under an FDA emergency use authorization (EUA). However, as is typical for experimental drugs, the FDA "expanded access" regulation, technically known as 21 CFR 312.310, allowed Trump's physicians to request "compassionate use" of REGN-COV.[38] Compassionate use is granted by the FDA (not the drug developer) to individual patients when it is determined that "the probable risk to the person from the investigational drug is not greater than the probable risk from the disease or condition."[39] REGN-COV was developed using the same patented VelocImmune technology which produced the world's first cure to the Ebola virus.[40] The successful track record of VelocImmune technology at producing safe and effective monoclonal antibody treatments against viruses presumably contributed to the FDA's decision to grant compassionate use to Donald Trump.
Yancopoulos received unusual and preferential treatment from New York state related to his personal COVID-19 testing.[41]
Yancopoulos GD, Blackwell TK, Suh H, Hood L, Alt FW (January 1986). "Introduced T cell receptor variable region gene segments recombine in pre-B cells: evidence that B and T cells use a common recombinase". Cell. 44 (2): 251–9.
doi:
10.1016/0092-8674(86)90759-2.
PMID3484682.
S2CID35030279.
Boulton TG, Nye SH, Robbins DJ, et al. (May 1991). "ERKs: a family of protein-serine/threonine kinases that are activated and tyrosine phosphorylated in response to insulin and NGF". Cell. 65 (4): 663–75.
doi:
10.1016/0092-8674(91)90098-J.
PMID2032290.
S2CID35051321.
Glass DJ, Nye SH, Hantzopoulos P, et al. (July 1991). "TrkB mediates BDNF/NT-3-dependent survival and proliferation in fibroblasts lacking the low affinity NGF receptor". Cell. 66 (2): 405–13.
doi:
10.1016/0092-8674(91)90629-D.
PMID1649703.
S2CID43626580.
Ip NY, Stitt TN, Tapley P, et al. (February 1993). "Similarities and differences in the way neurotrophins interact with the Trk receptors in neuronal and nonneuronal cells". Neuron. 10 (2): 137–49.
doi:
10.1016/0896-6273(93)90306-C.
PMID7679912.
S2CID46072027.
Davis S, Gale NW, Aldrich TH, et al. (November 1994). "Ligands for EPH-related receptor tyrosine kinases that require membrane attachment or clustering for activity". Science. 266 (5186): 816–9.
Bibcode:
1994Sci...266..816D.
doi:
10.1126/science.7973638.
PMID7973638.