Institute News: Awards & Honors

Ann Graybiel wins 2018 Gruber Neuroscience Prize

Anne Trafton |

Institute Professor Ann Graybiel, a professor in the Department of Brain and Cognitive Sciences and member of MIT’s McGovern Institute for Brain Research, is being recognized by the Gruber Foundation for her work on the structure, organization, and function of the once-mysterious basal ganglia. She was awarded the prize alongside Okihide Hikosaka of the National Institute of Health’s National Eye Institute and Wolfram Schultz of the University of Cambridge in the U.K.

The basal ganglia have long been known to play a role in movement, and the work of Graybiel and others helped to extend their roles to cognition and emotion. Dysfunction in the basal ganglia has been linked to a host of disorders including Parkinson’s disease, Huntington’s disease, obsessive-compulsive disorder and attention-deficit hyperactivity disorder, and to depression and anxiety disorders. Graybiel’s research focuses on the circuits thought to underlie these disorders, and on how these circuits act to help us form habits in everyday life.

“We are delighted that Ann has been honored with the Gruber Neuroscience Prize,” says Robert Desimone, director of the McGovern Institute. “Ann’s work has truly elucidated the complexity and functional importance of these forebrain structures. Her work has driven the field forward in a fundamental fashion, and continues to do so.’

Graybiel’s research focuses broadly on the striatum, a hub in basal ganglia-based circuits that is linked to goal-directed actions and habits. Prior to her work, the striatum was considered to be a primitive forebrain region. Graybiel found that the striatum instead has a complex architecture consisting of specialized zones: striosomes and the surrounding matrix. Her group went on to relate these zones to function, finding that striosomes and matrix differentially influence behavior. Among other important findings, Graybiel has shown that striosomes are focal points in circuits that link mood-related cortical regions with the dopamine-containing neurons of the midbrain, which are implicated in learning and motivation and which undergo degeneration in Parkinson’s disorder and other clinical conditions. She and her group have shown that these regions are activated by drugs of abuse, and that they influence decision-making, including decisions that require weighing of costs and benefits.

Graybiel continues to drive the field forward, finding that striatal neurons spike in an accentuated fashion and ‘bookend’ the beginning and end of behavioral sequences in rodents and primates. This activity pattern suggests that the striatum demarcates useful behavioral sequences such, in the case of rodents, pressing levers or running down mazes to receive a reward. Additionally, she and her group worked on miniaturized tools for chemical sensing and delivery as part of a continued drive toward therapeutic intervention in collaboration with the laboratories of Robert Langer in the Department of Chemical Engineering and Michael Cima, in the Department of Materials Science and Engineering.

“My first thought was of our lab, and how fortunate I am to work with such talented and wonderful people,” says Graybiel.  “I am deeply honored to be recognized by this prestigious award on behalf of our lab.”

The Gruber Foundation’s international prize program recognizes researchers in the areas of cosmology, neuroscience and genetics, and includes a cash award of $500,000 in each field. The medal given to award recipients also outlines the general mission of the foundation, “for the fundamental expansion of human knowledge,” and the prizes specifically honor those whose groundbreaking work fits into this paradigm.

Graybiel, a member of the MIT Class of 1971, has also previously been honored with the National Medal of Science, the Kavli Award, the James R. Killian Faculty Achievement Award at MIT, Woman Leader of Parkinson’s Science award from the Parkinson’s Disease Foundation, and has been recognized by the National Parkinson Foundation for her contributions to the understanding and treatment of Parkinson’s disease. Graybiel is a member of the National Academy of Sciences, the National Academy of Medicine, and the American Academy of Arts and Sciences.

The Gruber Neuroscience Prize will be presented in a ceremony at the annual meeting of the Society for Neuroscience in San Diego this coming November.

McGovern Institute awards 2018 Scolnick Prize to David Anderson

by Julie Pryor |

The McGovern Institute for Brain Research at MIT announced today that David J. Anderson of Caltech is the winner of the 2018 Edward M. Scolnick Prize in Neuroscience. He was awarded the prize for his contributions to the isolation and characterization of neural stem cells and for his research on neural circuits that control emotional behaviors in animal models. The Scolnick Prize is awarded annually by the McGovern Institute to recognize outstanding advances in any field of neuroscience.

“We congratulate David Anderson on being selected for this award,” says Robert Desimone, director of the McGovern Institute and chair of the selection committee. “His work has provided fundamental insights into neural development and the structure and function of neural circuits.”

Anderson is the Seymour Benzer Professor of Biology at Caltech, where he has been on the faculty since 1986, and is currently the director of the Tianqiao and Chrissy Chen Institute for Neuroscience. He is also an investigator of the Howard Hughes Medical Institute. He received his PhD in cell biology from Rockefeller University, where he trained with the late Günter Blobel, and he received his postdoctoral training in molecular biology with Richard Axel at Columbia University.

For the first 20 years of his career, Anderson focused his research on the biology of neural stem cells and was the first to isolate a multipotent stem cell from the mammalian nervous system. He subsequently identified growth factors and master transcriptional regulators that control their differentiation into neurons and glial cells. Anderson also made the unexpected and fundamental discovery that arteries and veins are genetically distinct even before the heart begins to beat. Combining this discovery with his interest in neural development, Anderson went on to contribute to the expanding field of vessel identity and the study of molecular cross-talk between developing nerves and blood vessels.

More recently, Anderson has shifted his focus from neural development to the study of neural circuits that control emotional behaviors, such as fear, anxiety, and aggression, in animal models. Anderson has employed various technologies for neural circuit manipulation including optogenetics, pharmacogenetics, electrophysiology, in vivo imaging, and quantitative behavior analysis using machine vision-based approaches. He developed and applied powerful genetic methods to identify and manipulate cells and circuits involved in emotional behaviors in mice — including ways to inactivate neurons reversibly and to trace their synaptic targets. In addition to this work on vertebrate neural circuitry, Anderson mounted a parallel inquiry that dissects the genes and circuits underlying aggressive behavior in the fruitfly Drosophila melanogaster, and has become an international leader in this rapidly developing field.

Among his many honors and awards, Anderson is a Perl-UNC Neuroscience Prize recipient, a fellow of the American Academy of Arts and Sciences and a member of the National Academy of Sciences. Anderson also played a key role in the foundation of the Allen Institute for Brain Sciences and the Allen Brain Atlas, a comprehensive open-source atlas of gene expression in the mouse brain.

Anderson will deliver the Scolnick Prize lecture at the McGovern Institute on Friday, Sept. 21 at 4 p.m. in the Singleton Auditorium of MIT’s Brain and Cognitive Sciences Complex (Room 46-3002). The event is free and open to the public.

National Academy of Sciences elects four MIT professors for 2018

Anne Trafton |

Four MIT faculty members have been elected to the National Academy of Sciences (NAS) in recognition of their “distinguished and continuing achievements in original research.”

MIT’s four new NAS members are: Amy Finkelstein, the John and Jennie S. MacDonald Professor of Economics; Mehran Kardar, the Francis Friedman Professor of Physics; Xiao-Gang Wen, the Cecil and Ida Green Professor of Physics; and Feng Zhang, the Patricia and James Poitras ’63 Professor in Neuroscience at MIT, associate professor of brain and cognitive sciences and of biological engineering, and member of the McGovern Institute for Brain Research and the Broad Institute

The group was among 84 new members and 21 new foreign associates elected to the NAS. Membership in the NAS is one of the most significant honors given to academic researchers.

Amy Finkelstein

Finkelstein is the co-scientific director of J-PAL North America, the co-director of the Public Economics Program at the National Bureau of Economic Research, a member of the Institute of Medicine and the American Academy of Arts and Sciences, and a fellow of the Econometric Society.

She has received numerous awards and fellowships including the John Bates Clark Medal (2012), the American Society of Health Economists’ ASHEcon Medal (2014), a Presidential Early Career Award for Scientists and Engineers (2009), the American Economic Association’s Elaine Bennett Research Prize (2008) and a Sloan Research Fellowship (2007). She has also received awards for graduate student teaching (2012) and graduate student advising (2010) at MIT.

She is one of the two principal investigators for the Oregon Health Insurance Experiment, a randomized evaluation of the impact of extending Medicaid coverage to low income, uninsured adults.

Mehran Kardar

Kardar obtained a BA from Cambridge University in 1979 and a PhD in physics from MIT in 1983. He was a junior fellow of the Harvard Society of Fellows from 1983 to 1986 before returning to MIT as an assistant professor, and was promoted to full professor in 1996. He has been a visiting professor at a number of institutions including Catholic University in Belgium, Oxford University, the University of California at Santa Barbara, the University of California at Berkeley, and Ecole Normale Superieure in Paris.

His expertise is in statistical physics, and he has lectured extensively on this topic at MIT and in workshops at universities and institutes in France, the U.K., Switzerland, and Finland. He is the author of two books based on these lectures. In 2018 he was recognized by the American Association of Physics Teachers with the John David Jackson Excellence in Graduate Physics Education Award.

Kardar is a member of the founding board of the New England Complex Science Institute and the editorial board of Journal of Statistical Physics, and has helped organize Gordon Conference and KITP workshops. His awards include the Bergmann memorial research award, the A. P. Sloan Fellowship, the Presidential Young Investigator award, the Edgerton award for junior faculty achievements (MIT), and the Guggenheim Fellowship. He is a fellow of the American Physical Society and the American Academy of Arts and Sciences.

Xiao-Gang Wen

Wen received a BS in physics from University of Science and Technology of China in 1982 and a PhD in physics from Princeton University in 1987.

He studied superstring theory under theoretical physicist Edward Witten at Princeton University and later switched his research field to condensed matter physics while working with theoretical physicists Robert Schrieffer, Frank Wilczek, and Anthony Zee in the Institute for Theoretical Physics at the University of California at Santa Barbara (1987–1989). He became a five-year member of the Institute for Advanced Study at Princeton University in 1989 and joined MIT in 1991. Wen is the Cecil and Ida Green professor of Physics at MIT, a Distinguished Moore Scholar at Caltech, and a Distinguished Research Chair at the Perimeter Institute. In 2017 he received the Oliver E. Buckley Condensed Matter Physics Prize of the American Physical Society.

Wen’s main research area is condensed matter theory. His interests include strongly correlated electronic systems, topological order and quantum order, high-temperature superconductors, the origin and unification of elementary particles, and the Quantum Hall Effect and non-Abelian statistics.

Feng Zhang

Zhang is a bioengineer focused on developing tools to better understand nervous system function and disease. His lab applies these novel tools to interrogate gene function and study neuropsychiatric disorders in animal and stem cell models. Since joining MIT and the Broad Institute in January 2011, Zhang has pioneered the development of genome editing tools for use in eukaryotic cells — including human cells — from natural microbial CRISPR systems. He also developed a breakthrough technology called optogenetics with Karl Deisseroth at Stanford University and Edward Boyden, now of MIT.

Zhang joined MIT and the Broad Institute in 2011 and was awarded tenure in 2016. He received his BA in chemistry and physics from Harvard College and his PhD in chemistry from Stanford University. Zhang’s award include the Perl/UNC Prize in Neuroscience (2012, shared with Karl Deisseroth and Ed Boyden), the National Institutes of Health Director’s Pioneer Award (2012), the National Science Foundation’s Alan T. Waterman Award (2014), the Jacob Heskel Gabbay Award in Biotechnology and Medicine (2014, shared with Jennifer Doudna and Emmanuelle Charpentier), the Society for Neuroscience Young Investigator Award (2014), the Okazaki award, the Canada Gairdner International Award (shared with Doudna and Charpentier along with Philippe Horvath and Rodolphe Barrangou) and the 2016 Tang Prize (shared with Doudna and Charpentier).

Zhang is a founder of Editas Medicine, a genome editing company founded by world leaders in the fields of genome editing, protein engineering, and molecular and structural biology.

Nancy Kanwisher receives 2018 Heineken Prize

Anne Trafton |

Nancy Kanwisher, the Walter A. Rosenblith Professor of Cognitive Neuroscience at MIT, has been named a recipient of the 2018 Heineken Prize — the Netherlands’ most prestigious scientific prize — for her work on the functional organization of the human brain.

Kanwisher, who is a professor of brain and cognitive sciences and a member of MIT’s McGovern Institute for Brain Research, uses neuroimaging to study the functional organization of the human brain. Over the last 20 years her lab has played a central role in the identification of regions of the human brain that are engaged in particular components of perception and cognition. Many of these regions are very specifically engaged in a single mental function such as perceiving faces, places, bodies, or words, or understanding the meanings of sentences or the mental states of others. These regions form a “neural portrait of the human mind,” according to Kanwisher, who has assembled dozens of videos for the general public on her website, NancysBrainTalks.

“Nancy Kanwisher is an exceptionally innovative and influential researcher in cognitive neuropsychology and the neurosciences,” according to the Royal Netherlands Academy of Arts and Sciences, the organization that selects the prizewinners. “She is being recognized with the 2018 C.L. de Carvalho-Heineken Prize for Cognitive Science for her highly original, meticulous and cogent research on the functional organization of the human brain.”

Kanwisher is among five international scientists who have been recognized by the academy with the biennial award. The other winners include biomedical scientist Peter Carmeliet  of the University of Leuven, biologist Paul Hebert of the University of Guelph, historian John R. McNeill of Georgetown University, and biophysicist Xiaowei Zhuang of Harvard University.

The Heineken Prizes, each worth $200,000, are named after Henry P. Heineken (1886-1971); Alfred H. Heineken (1923-2002) and Charlene de Carvalho-Heineken (1954), chair of the Dr H.P. Heineken Foundation and the Alfred Heineken Fondsen Foundation, which fund the prizes. The laureates are selected by juries assembled by the academy and made up of leading Dutch and foreign scientists and scholars.

The Heineken Prizes will be presented at an award ceremony on Sept. 27 in Amsterdam.

Eight from MIT elected to American Academy of Arts and Sciences for 2018

Anne Trafton |

Eight MIT faculty members are among 213 leaders from academia, business, public affairs, the humanities, and the arts elected to the American Academy of Arts and Sciences, the academy announced today.

One of the nation’s most prestigious honorary societies, the academy is also a leading center for independent policy research. Members contribute to academy publications, as well as studies of science and technology policy, energy and global security, social policy and American institutions, the humanities and culture, and education.

Those elected from MIT this year are:

  • Alexei Borodin, professor of mathematics;
  • Gang Chen, the Carl Richard Soderberg Professor of Power Engineering and head of the Department of Mechanical Engineering;
  • Larry D. Guth; professor of mathematics;
  • Parag A. Pathak, the Jane Berkowitz Carlton and Dennis William Carlton Professor of Microeconomics;
  • Nancy L. Rose, the Charles P. Kindleberger Professor of Applied Economics and head of the Department of Economics;
  • Leigh H. Royden, professor of earth, atmostpheric, and planetary sciences;
  • Sara Seager, the Class of 1941 Professor in the Department of Earth, Atmospheric and Planetary Sciences with a joint appointment in the Department of Physics; and
  • Feng Zhang, the James and Patricia Poitras Professor of Neuroscience within the departments of Brain and Cognitive Sciences and Biological Engineering, and an investigator at the McGovern Institute for Brain Research at MIT.

“This class of 2018 is a testament to the academy’s ability to both uphold our 238-year commitment to honor exceptional individuals and to recognize new expertise,” said Nancy C. Andrews, chair of the board of the American Academy.

“Membership in the academy is not only an honor, but also an opportunity and a responsibility,” added Jonathan Fanton, president of the American Academy. “Members can be inspired and engaged by connecting with one another and through academy projects dedicated to the common good. The intellect, creativity, and commitment of the 2018 class will enrich the work of the academy and the world in which we live.”

The new class will be inducted at a ceremony in October in Cambridge, Massachusetts.

Since its founding in 1780, the academy has elected leading “thinkers and doers” from each generation, including George Washington and Benjamin Franklin in the 18th century, Maria Mitchell and Daniel Webster in the 19th century, and Toni Morrison and Albert Einstein in the 20th century. The current membership includes more than 200 Nobel laureates and 100 Pulitzer Prize winners.

School of Science announces Infinite Mile Awards for 2018

Anne Trafton |

The MIT School of Science has announced seven winners of the Infinite Mile Award for 2018. The award will be presented at a luncheon this May in recognition of staff members whose accomplishments and contributions to their departments, laboratories, and centers far exceed expectations.

The 2018 Infinite Mile Award winners are:

Hristina Dineva, Department of Biology;

Theresa Cummings, Department of Mathematics;

Mary Gallagher, Department of Biology;

Jack McGlashing, Laboratory for Nuclear Science;

Sydney Miller, Department of Physics;

Miroslava Parsons, Department of Earth, Atmospheric and Planetary Sciences; and

Alexandra Sokhina, Simons Center for the Social Brain.

The awards luncheon will also honor winners of last fall’s Infinite Kilometer Award, which was established to highlight and reward the extraordinary — but often underrecognized — work of the school’s research staff and postdoctoral researchers.

The 2017 Infinite Kilometer winners are:

Rodrigo Garcia, McGovern Institute for Brain Research;

Lydia Herzel, Department of Biology;

Yutaro Iiyama, Laboratory for Nuclear Science;

Kendrick Jones, Picower Institute for Learning and Memory;

Matthew Musgrave, Laboratory for Nuclear Science;

Cody Siciliano, Picower Institute for Learning and Memory;

Peter Sudmant, Department of Biology; and

Ashley Watson, Picower Institute for Learning and Memory.

Ed Boyden receives 2018 Canada Gairdner International Award

Anne Trafton |

Ed Boyden, the Y. Eva Tan Professor in Neurotechnology at MIT has been named a recipient of the 2018 Canada Gairdner International Award — Canada’s most prestigious scientific prize — for his role in the discovery of light-gated ion channels and optogenetics, a technology to control brain activity with light.

Boyden’s work has given neuroscientists the ability to precisely activate or silence brain cells to see how they contribute to — or possibly alleviate — brain disease. By optogenetically controlling brain cells, it has become possible to understand how specific patterns of brain activity might be used to quiet seizures, cancel out Parkinsonian tremors, and make other improvements to brain health.

Boyden is one of three scientists the Gairdner Foundation is honoring for this work. He shares the prize with Peter Hegemann from Humboldt University of Berlin and Karl Deisseroth from Stanford University.

“I am honored that the Gairdner Foundation has chosen our work in optogenetics for one of the most prestigious biology prizes awarded today,” says Boyden, who is also a member of MIT’s McGovern Institute for Brain Research and an associate professor in the Media Lab, the Department of Brain and Cognitive Sciences, and the Department of Biological Engineering at MIT. “It represents a great collaborative body of work, and I feel excited that my angle of thinking like a physicist was able to contribute to biology.”

Boyden, along with fellow laureate Karl Deisseroth, brainstormed about how microbial opsins could be used to mediate optical control of neural activity, while both were students in 2000. Together, they collaborated to demonstrate the first optical control of neural activity using microbial opsins in the summer of 2004, when Boyden was at Stanford. At MIT, Boyden’s team developed the first optogenetic silencing (2007), the first effective optogenetic silencing in live mammals (2010), noninvasive optogenetic silencing (2014), multicolor optogenetic control (2014), and temporally precise single-cell optogenetic control (2017).

In addition to his work with optogenetics, Boyden has pioneered the development of many transformative technologies that image, record, and manipulate complex systems, including expansion microscopy and robotic patch clamping. He has received numerous awards for this work, including the Breakthrough Prize in Life Sciences (2016), the BBVA Foundation Frontiers of Knowledge Award (2015), the Carnegie Prize in Mind and Body Sciences (2015), the Grete Lundbeck European Brain Prize (2013), and the Perl-UNC Neuroscience prize (2011). Boyden is an elected member of the American Academy of Arts and Sciences and the National Academy of Inventors.

“We are thrilled Ed has been recognized with the prestigious Gairdner Award for his work in developing optogenetics,” says Robert Desimone, director of the McGovern Institute. “Ed’s body of work has transformed neuroscience and biomedicine, and I am exceedingly proud of the contributions he has made to MIT and to the greater community of scientists worldwide.”

The Canada Gairdner International Awards, created in 1959, are given annually to recognize and reward the achievements of medical researchers whose work contributes significantly to the understanding of human biology and disease. The awards provide a $100,000 (CDN) prize to each scientist for their work. Each year, the five honorees of the International Awards are selected after a rigorous two-part review, with the winners voted by secret ballot by a medical advisory board composed of 33 eminent scientists from around the world.

Polina Anikeeva and Feng Zhang awarded 2018 Vilcek Prize

Anne Trafton |

Polina Anikeeva, the Class of 1942 Associate Professor in the Department of Materials Science and Engineering and associate director of the Research Laboratory of Electronics, and Feng Zhang, the James and Patricia Poitras ’63 Professor in Neuroscience at the McGovern Institute, have each been awarded a 2018 Vilcek Prize for Creative Promise in Biomedical Science. Awarded annually by the Vilcek Foundation, the $50,000 prizes recognize younger immigrants who have demonstrated exceptional promise early in their careers.

“The Vilcek Prizes were established in appreciation of the immigrants who chose to dedicate their vision and talent to bettering American society,” says Rick Kinsel, president of the Vilcek Foundation. “This year’s prizewinners honor and continue that legacy with works of astounding, revolutionary importance.”

Polina Anikeeva, who was born in the former Soviet Union, earned her PhD in materials science and engineering at MIT in 2009 and now runs her own bioelectronics lab in the same department focused on the development of materials and devices that enable recording and manipulation of signaling processes within the nervous system. The Vilcek Foundation recognizes Anikeeva for “fashioning ingenious solutions to long-standing challenges in biomedical engineering” including the design of therapeutic devices for conditions such as Parkinson’s disease and spinal cord injury.

Feng Zhang, who is also a core member of the Broad Institute and an associate professor in the departments of Brain and Cognitive Sciences and Biological Engineering, is being recognized for his role in advancing optogenetics (a method for controlling brain activity with light) and developing molecular tools to edit the genome. Thanks to his leadership in inventing precise and efficient gene-editing technologies using CRISPR, Zhang’s work has resulted in a “growing array of applications, such as uncovering the genetic underpinnings of diseases, ushering in gene therapies to cure heritable diseases, and improving agriculture.” Zhang’s family immigrated to the United States from China when he was 11 years of age.

Anikeeva and Zhang will be among eight Vilcek prizewinners honored at an awards gala in New York City in April 2018.

The Vilcek Foundation was established in 2000 by Jan and Marica Vilcek, immigrants from the former Czechoslovakia. The mission of the foundation, to honor the contributions of immigrants to the United States and to foster appreciation of the arts and sciences, was inspired by the couple’s respective careers in biomedical science and art history, as well as their personal experiences and appreciation of the opportunities they received as newcomers to this country.

School of Science Infinite Kilometer Awards for 2017

Anne Trafton |

The MIT School of Science has announced the 2017 winners of the Infinite Kilometer Award. The Infinite Kilometer Award was established in 2012 to highlight and reward the extraordinary — but often underrecognized — work of the school’s research staff and postdocs.

Recipients of the award are exceptional contributors to their research programs. In many cases, they are also deeply committed to their local or global MIT community, and are frequently involved in mentoring and advising their junior colleagues, participating in the school’s educational programs, making contributions to the MIT Postdoctoral Association, or contributing to some other facet of the MIT community.

In addition to a monetary award, honorees and their colleagues, friends, and family are invited to a celebratory lunch in May.

The 2017 Infinite Kilometer winners are:

Rodrigo Garcia, McGovern Institute for Brain Research;

Lydia Herzel, Department of Biology;

Yutaro Iiyama, Laboratory for Nuclear Science;

Kendrick Jones, Picower Institute for Learning and Memory;

Matthew Musgrave, Laboratory for Nuclear Science;

Cody Siciliano, Picower Institute for Learning and Memory;

Peter Sudmant, Department of Biology;

Ashley Watson, Picower Institute for Learning and Memory;

The School of Science is also currently accepting nominations for its Infinite Mile Awards. Nominations are due by Feb. 16 and all School of Science employees are eligible. Infinite Mile Awards will be presented with the Infinite Kilometer Awards this spring.

Ten researchers from MIT and Broad receive NIH Director’s Awards

Anne Trafton |

The High-Risk, High-Reward Research (HRHR) program, supported by the National Institutes of Health (NIH) Common Fund, has awarded 86 grants to scientists with unconventional approaches to major challenges in biomedical and behavioral research. Ten of the awardees are affiliated with MIT and the Broad Institute of MIT and Harvard.

The NIH typically supports research projects, not individual scientists, but the HRHR program identifies specific researchers with innovative ideas to address gaps in biomedical research. The program issues four types of awards annually — the Pioneer Award, the New Innovator Award, the Transformative Research Award and the Early Independence Award — to “high-caliber investigators whose ideas stretch the boundaries of our scientific knowledge.”

Four researchers who are affiliated with either MIT or the Broad Institute received this year’s New Innovator Awards, which support “unusually innovative research” from early career investigators. They are:

  • Paul Blainey, an MIT assistant professor of biological engineering and a core member of the Broad Institute, is an expert in microanalysis systems for studies of individual molecules and cells. The award will fund the establishment a new technology that enables advanced readout from living cells.
  • Kevin Esvelt, an associate professor of media arts and sciences at MIT’s Media Lab, invents new ways to study and influence the evolution of ecosystems. Esvelt plans to use the NIH grant to develop powerful “daisy drive” systems for more precise genetic alterations of wild organisms. Such an intervention has the potential to serve as a powerful weapon against malaria, Zika, Lyme disease, and many other infectious diseases.
  • Evan Macosko is an associate member of the Broad Institute who develops molecular techniques to more deeply understand the function of cellular specialization in the nervous system. Macosko’s award will fund a novel technology, Slide-seq, which enables genome-wide expression analysis of brain tissue sections at single-cell resolution.
  • Gabriela Schlau-Cohen, an MIT assistant professor of chemistry, combines tools from chemistry, optics, biology, and microscopy to develop new approaches to study the dynamics of biological systems. Her award will be used to fund the development of a new nanometer-distance assay that directly accesses protein motion with unprecedented spatiotemporal resolution under physiological conditions.

Recipients of the Early Independence Award include three Broad Institute Fellows. The award recognizes “exceptional junior scientists” with an opportunity to skip traditional postdoctoral training and move immediately into independent research positions.

  • Ahmed Badran is a Broad Institute Fellow who studies the function of ribosomes and the control of protein synthesis. Ribosomes are important targets for antibiotics, and the NIH award will support the development of a new technology platform for probing ribosome function within living cells.
  • Fei Chen, a Broad Institute Fellow who is also a research affiliate at MIT’s McGovern Institute for Brain Research, has pioneered novel molecular and microscopy tools to illuminate biological pathways and function. He will use one of these tools, expansion microscopy, to explore the molecular basis of glioblastomas, an aggressive form of brain cancer.
  • Hilary Finucane, a Broad Institute Fellow who recently received her PhD from MIT’s Department of Mathematics, develops computational methods for analyzing biological data. She plans to develop methods to analyze large-scale genomic data to identify disease-relevant cell types and tissues, a necessary first step for understanding molecular mechanisms of disease.

Among the recipients of the NIH’s Pioneer Awards are Kay Tye, an assistant professor of brain and cognitive sciences at MIT and a member of MIT’s Picower Institute for Learning and Memory, and Feng Zhang, the James and Patricia Poitras ’63 Professor in Neuroscience, an associate professor of brain and cognitive sciences and biological engineering at MIT, a core member of the Broad Institute, and an investigator at MIT’s McGovern Institute for Brain Research. Recipients of this award are challenged to pursue “groundbreaking, high-impact approaches to a broad area of biomedical or behavioral science. Tye, who studies the brain mechanisms underlying emotion and behavior, will use her award to look at the neural representation of social homeostasis and social rank. Zhang, who pioneered the gene-editing technology known as CRISPR, plans to develop a suite of tools designed to achieve precise genome surgery for repairing disease-causing changes in DNA.

Ed Boyden, an associate professor of brain and cognitive sciences and biological engineering at MIT, and a member of MIT’s Media Lab and McGovern Institute for Brain Research, is a recipient of the Transformative Research Award. This award promotes “cross-cutting, interdisciplinary approaches that could potentially create or challenge existing paradigms.” Boyden, who develops new strategies for understanding and engineering brain circuits, will use the grant to develop high-speed 3-D imaging of neural activity.

This year, the NIH issued a total of 12 Pioneer Awards, 55 New Innovator Awards, 8 Transformative Research Awards, and 11 Early Independence Awards. The awards total $263 million and represent contributions from the NIH Common Fund; National Institute of General Medical Sciences; National Institute of Mental Health; National Center for Complementary and Integrative Health; and National Institute of Dental and Craniofacial Research.

“I continually point to this program as an example of the creative and revolutionary research NIH supports,” said NIH Director Francis S. Collins. “The quality of the investigators and the impact their research has on the biomedical field is extraordinary.”