Engaging Science: Meet the Inspiring Researchers of the Smith Family Foundation

Purple box with inlaid image of two researchers looking at a computer screen, with text: Blog post - Engaging Science: Meet the Inspiring Researchers of the Smith Family Foundation. By 少妇自慰.

Biomedical researchers need strong scientific communication skills to combat rising skepticism and misinformation. Robust communication skills also help secure funding, support recruitment of research staff and study participants, and increase the impact of research findings on human health. Yet few researchers are afforded the opportunity to formally build these skills. The Richard and Susan Smith Family Foundation and 少妇自慰 recently embarked on an innovative approach to address the communications challenge researchers face.

Since 1991, the Smith Family Foundation has supported 218 scientists with research funding totaling $50.4 million. 少妇自慰 has partnered with the Foundation since the inception of this work, providing expert grantmaking and biomedical research consulting to optimize their investments and impact. In 2021, the Smith Family Foundation asked us to ideate new methods of researcher support, beyond financial grants. This inquiry led to the launch of a foundational communications training initiative. Through targeted scientific communications training and coaching, this endeavor equipped researchers with skills to convey their scientific ideas in clear and engaging ways. This project resulted in the production of a compelling, professional video for the researchers. The videos feature each researcher using their elevated communication skills to shine further light on the significance of their work.

We are thrilled to present the first cohort of videos featuring the Smith Family Foundation鈥檚 early-career biomedical grant recipients. These videos showcase the talent and groundbreaking research undertaken by these exceptional researchers. UPDATE 6/4/24: We added videos from the second cohort.

Excellence Awardees

The mission of the Smith Family Awards Program for Excellence in Biomedical Research is to launch the careers of newly independent biomedical researchers with the goal of achieving medical breakthroughs. Excellence awardees explore fundamental questions about biology using approaches spanning disciplines such as biology, physics, chemistry, computer science, and engineering.


Alleviating antifungal resistance to strengthen agricultural resiliency

Sibongile Mafu, PhD, 2018 Excellence Awardee
Assistant Professor of Biochemistry and Molecular Biology, University of Massachusetts 鈥 Amherst

Fungal diseases are a growing threat to plants, animals, and humans in a myriad of ways. Dr. Sibongile Mafu wants to understand how plants adapt to their changing environments and use that knowledge to ensure the sustainability of our food system. 鈥淯nderstanding that enables us to be able to build more resilient plants that are going to be able to adapt to the different climate changes and other challenges we may be facing.鈥


Investigating the boundaries of biology by observing shapeshifting parasites

Lillian Fritz-Laylin, PhD, 2019 Excellence Awardee
Associate Professor of Biology, University of Massachusetts 鈥 Amherst

According to Dr. Lillian Fritz-Laylin, over 99% of organisms in our world are underexplored. She and her lab are evaluating the shapeshifting mechanisms of two specific parasites to find out if existing scientific knowledge applies to these parasites鈥攐r if they are governed by a completely different set of rules.聽 鈥淲e get to see something that nobody鈥檚 ever seen before. It鈥檚 intoxicating.鈥


Determining the trajectory of COVID-19 pathology via nasal swab

Jos茅 Ordov谩s-Monta帽茅s, PhD, 2019 Excellence Awardee
Research Faculty, Division of Gastroenterology, Boston Children鈥檚 Hospital

Dr. Jos茅 Ordov谩s-Monta帽茅s and his colleagues did not know that they would be studying SARS-COV-2 when this work began, as it didn鈥檛 yet exist. Their work evolved to study the differences in the nasal cells collected through the nasopharyngeal swabs used to diagnose COVID-19 infections, yielding fascinating results.


Using microbes to prevent and treat disease

Babak Momeni, PhD, 2017 Excellence Awardee
Assistant Professor of Microbial Systems Biology, Boston College

Not all microbes are disease-carrying enemies, according to Dr. Babak Momeni. From bench science to mathematical modeling, his lab is exploring microbial interactions and how they might be useful in the prevention and treatment of antibiotic resistant illnesses.


Investigating the intricacies of cancer cell division

Amity L. Manning, PhD, 2017 Excellence Awardee
Associate Professor, Department of Biology and Biotechnology, Worcester Polytechnic Institute

鈥淭here鈥檚 still so much we don鈥檛 understand about how cells divide,鈥 says Dr. Amity Manning. She and her colleagues are working to understand the details of cell division as well as how this process goes awry. Their findings could inform the development of powerful cancer therapies.


Understanding the human brain through the neural patterns of fruit flies

James Jeanne, PhD, 2019 Excellence Awardee
Assistant Professor of Neuroscience, Yale University

Dr. James Jeanne believes that the future is bright for people who have lost brain function. His lab is striving to break the 鈥渘eural code,鈥 making it possible to interface with the brain. And they鈥檙e doing it by examining the neural networks of fruit flies.


Transforming treatment for drug-resistant cancer

Bryan Q. Spring, PhD, 2017 Excellence Awardee
Professor of Biomedical Physics, Northeastern University

Professor Spring鈥檚 calm approach impacts both the energy in his interdisciplinary lab and his vision for the future of oncology.


Headshot of Dr. Gowthaman UthamanAddressing allergic disease at the cellular level

Gowthaman Uthaman, PhD, 2021 Excellence Awardee
Assistant Professor of Pathology, UMass Chan Medical School

Could the future be one without severe allergic disease? Gowthaman Uthaman thinks so. 鈥淥ur lab has discovered a cell type that is present in those severe allergic individuals that is not present in the general population,鈥 explains Dr. Uthaman. He and his colleagues were then able to remove those cells in mouse models. Their findings could lead to better treatment and prevention of allergic disease.


Headshot of Dr. Seychelle VosUnearthing the secrets of DNA

Seychelle Vos, PhD, 2021 Excellence Awardee
Assistant Professor of Biology, Massachusetts Institute of Technology
Howard Hughes Medical Institute Freeman Hrabowki Scholar

How do all our cells use the same DNA sequence and yet end up so varied? Seychelle Vos and her colleagues are investigating this fundamental question of biology. They hypothesize that understanding how DNA works can lead to the development of targeted therapeutics for developmental disorders and cancers. 鈥淭here鈥檚 so much that we don鈥檛 understand,鈥 says Dr. Vos, 鈥渁nd every time we gain a little bit more knowledge, we just realize there鈥檚 a lot more out there that we have to learn.鈥


Headshot of Cristina Aguayo-MazzucatoInvestigating cellular aging in people with Type II Diabetes

Cristina Aguayo-Mazzucato, MD, PhD, 2021 Excellence Awardee
Assistant Professor of Medicine, Harvard Medical School
Assistant Investigator, Joslin Diabetes Center

Researchers in the lab of Cristina Aguayo-Mazzucato have demonstrated that people with type 2 diabetes experience an accelerated rate of cellular aging. However, according to Dr. Aguayo-Mazzucato, 鈥渆xercise is a very effective way to render cells to function with a younger profile.鈥 Her lab seeks to understand the accelerated aging process of people with type 2 diabetes. Eventually, these findings may translate to clinical applications that can slow or reverse the aging process.


Headshot of Dr. Liang LiangThe science of sight

Liang Liang, PhD, 2021 Excellence Awardee
Assistant Professor Neuroscience, Yale University

After seeing an optical illusion in high school, Dr. Liang Liang became curious about how the brain processes visual information. 鈥淸It] takes multiple stages of visual processing in the brain to gradually combine鈥imple features into something more complex and meaningful.鈥 Her lab aims to understand visual computation to support the development of treatments for conditions like blindness.


Odyssey Awardees

The Smith Family Foundation Odyssey Award was created in 2017 to fuel creativity and innovation in junior investigators in the early-stage research. The Award supports the pursuit of high impact ideas to generate breakthroughs and drive new directions in biomedical research. Odyssey awards fund high-risk, high-reward pilot projects solicited from junior faculty in the Greater Boston area.


Investigating how mechanical forces regulate the function of proteins

Wesley P. Wong, PhD, 2019 Odyssey Awardee
Associate Professor, Harvard Medical School

鈥淢y lab develops ways to look at, visualize, and manipulate molecules in order to understand how they work and how they fail with disease,鈥 says Dr. Wesley Wong. Their findings may lead to new treatments for a variety of diseases, including cancer and diabetes.


Examining how the brain-gut connection relates to digestive disorders

Meenakshi Rao, MD, PhD, 2020 Odyssey Awardee
Boston Children鈥檚 Hospital

The digestive system has its very own branch of the nervous system. Dr. Meenakshi Rao鈥檚 lab aims to expand our understanding of how it works to inform the diagnosis and treatment of digestive disorders. 鈥淢y hope is that we can build on some of these observations we鈥檙e making in the lab and apply them to advancing human health in very tangible ways.鈥


Exploring how nature optimizes cellular function

Gene-Wei Li, PhD, 2016 Excellence Awardee and 2020 Odyssey Awardee
Associate Professor of Biology, Massachusetts Institute of Technology

鈥淥ftentimes, what makes a cell have a disease is the amount of proteins that are dysregulated,鈥 says Dr. Gene-Wei Li. This is why he and his lab are working to glean information from genomic data to better understand protein production and cellular function.


The science of limb regeneration

Jessica Whited, PhD, 2013 Excellence Awardee and 2019 Odyssey Awardee
Assistant Professor of Stem Cell and Regenerative Biology, Harvard University

Over 2 million Americans have undergone limb loss. Nonetheless, prosthetic technology is still too limiting for Dr. Whited鈥檚 taste. Her lab鈥檚 study of salamanders could lead to the ultimate innovation鈥攆ull limb regeneration.


Headshot of Dr. Jenna Galloway

Examining the cellular pathways by which zebrafish regenerate after injury

Jenna Galloway, PhD, 2021 Odyssey Awardee
Associate Professor of Biology, Massachusetts General Hospital

Why can a zebrafish, an organism with surprising similarities to humans, regenerate to their original form and function after injury, but a human cannot? Jenna Galloway and her colleagues aim to learn how. By identifying the differences in cell types and active pathways between zebrafish and mammals, the Galloway lab鈥檚 findings could lead to breakthroughs in orthopedic medicine.


Headshot of Dr. Sebastian LouridoAlleviating the impact of chronic parasitic infections

Sebastian Lourido, PhD, 2021 Odyssey Awardee
Associate Professor Biology, Whitehead Institute

In Sebastian Lourido鈥檚 native Colombia, infectious disease continues to be a major public health burden and barrier to development. By studying the parasite Toxoplasma gondii, Dr. Lourido and his colleagues have identified the process by which a parasitic infection transitions from acute to chronic. The Lourido lab is working to reverse the infection back to the treatable acute state 鈥渘ot only to impact global health, but to understand new fundamental aspects of biology.鈥


Headshot of Dr. Andrew WangResearching the rise of allergic and autoimmune disease

Andrew Wang, MD/PhD, AB, 2021 Odyssey Awardee
Associate Professor of Internal Medicine (Rheumatology, Allergy, and Immunology), Yale University

So many more people experience allergic and autoimmune disease today than in the past, and Andrew Wang and his colleagues want to find out why. The Wang lab is exploring the immune system response to changes in our environment, including sleep, food, and stress. 鈥淲hen we published our acute stress story,鈥 Dr. Wang explains, 鈥渁 lot of patients felt very validated that what they were experiencing, [that] there was some explanation for it.鈥 The results of this research are likely to introduce new therapeutic possibilities.


Headshot of Dr. Marcelo DietrichThe neuroscience of nurture in mammalian development

Marcelo Dietrich, PhD, 2021 Odyssey Awardee
Associate Professor of Comparative Medicine, Yale University

What role does nurture play in early mammalian development? Marcelo Dietrich is investigating the brain mechanisms that connect an infant and their caretaker. 鈥淯nderstanding early life,鈥 says Dr. Dietrich, 鈥渃an help us understand our own health and the long-term impact that early childhood has on human health.鈥


Headshot of Lydia BourouibaTaking control of infectious disease transmission

Lydia Bourouiba, PhD, 2018 Odyssey Awardee
Associate Professor, The Fluid Dynamics of Disease Transmission Laboratory, Fluids and Health Network, Massachusetts Institute of Technology

Existing mental models of how pathogens move from host to host while remaining virulent are outdated, according to Lydia Bourouiba. Using an interdisciplinary approach, she and her colleagues seek to shift the paradigm of understanding of the spread of infectious disease. The ultimate goal of their research is to 鈥渟top the transmission of infectious diseases and develop tools to tackle the path of transmission from one host to the other.鈥


The Smith Family Awards Program for Excellence in Biomedical Research and the Smith Family Foundation Odyssey Awards continue to launch careers and fuel creativity and innovation in early-career researchers. We are proud to showcase this innovative capacity building project and look forward to following the exciting research careers of these inspiring grantees.