Featured 2021 Winners
Genetic Variability in Unloading-Induced Bone and Muscle Loss
PRINCIPAL INVESTIGATORS
Henry Donahue
Alice T. and William H. Goodwin, Jr. Endowed Chair and Professor
Michael Friedman
Research Assistant Professor
INSTITUTION
Virginia Commonwealth University
Project Summary
“We discovered that genetic variability heavily influences bone and muscle mass in a manner not observable with standard inbred mice”
Bone and muscle mass can be impacted by a variety of positive and negative stimuli. Our lab focuses specifically on mechanical unloading and the response of the musculoskeletal system to non-ambulatory states. Studies from our lab and others have previously reported a potential influence of genetics in this process, and we were interested in diving more deeply into this topic.
Through the DO Pilot Grant, we discovered that genetic variability heavily influences bone and muscle mass in a manner not observable with standard inbred mice. These results support the hypothesis that certain musculoskeletal responses are heritable, and indicates that an individual’s genetic background can contribute to the catabolic effects of unloading.
Natural genetic variation in the CD8+ T cell response to microbial exposure
PRINCIPAL INVESTIGATORS
Norah L. Smith
PhD / Senior Research Associate
INSTITUTION
Cornell University
Project Summary
“Using J:DO mice in conjunction with our existing experimental models will facilitate a more complete understanding of CD8+ T cell function.”
CD8+ T cells are a critical component of the adaptive immune system. In response to infection or cancer, activated CD8+ T cells adopt a multitude of fates. The diversity of T cells generated play a significant role in disease prognosis and recovery. Our lab seeks to understand the developmental, environmental and genetic factors that contribute to functional cellular diversity within the CD8+ T cell pool.
Up to 40% of variation in the human immune system can be explained by genetic factors. Conventional inbred models make it difficult to assess how genetics contribute to T cell function. J:DO mice are a useful model for systematic evaluation of the genetic factors regulating immune cell behavior.
Modeling Variability in Cognitive Responses to Recombinant GDF11 Treatment Using Aged Diversity Outbred Mice
PRINCIPAL INVESTIGATORS
Robert Pazdro
Associate Professor
INSTITUTION
University of Georgia
Project Summary
“Humans are a far more genetically diverse population than inbred mice, and by incorporating this diversity into our experiments, we hope to expand our understanding of neurological responses to treatment”
Over the past several years, preclinical studies have shown that levels of circulating GDF11 decline during aging and that supplemental GDF11 treatment increases brain angiogenesis and neurogenesis, reduces inflammation and senescence, and can restore cognitive function in rodent models of neurological disease. While these discoveries have sparked excitement for the clinical potential of GDF11, a major blind spot is obvious: to this point, studies have only been performed in standard rodent strains containing little or no genetic variation.
Our goal with the DO Pilot Grant is to determine the impact of genetic variation on GDF11 responses to pave the way for broader translational, and eventually, clinical studies of GDF11. Humans are a far more genetically diverse population than inbred mice, and by incorporating this diversity into our experiments, we hope to expand our understanding of neurological responses to treatment.
Characterization of the cardiac electrophysiology and calcium dynamics in diversity outbred (DO) mice
PRINCIPAL INVESTIGATORS
Eleonora Savio-Galimberti
Associate Professor
INSTITUTION
Lankenau Institute for Medical Research
Project Summary
“The presence of genetic variability in DO mice makes them an ideal bridge between standard mouse models and human research”
One of the most common practices in biomedical research is the use of inbred mice. While initially convenient to decrease the potential variability in specific outcomes measured, the lack of genetic diversity in inbred mice limits their representativity as a translational, cross-species animal model. This is particularly true in cardiovascular research where known genetic variants are key contributors to disease.
Our laboratory is using the DO Pilot Grant to better understand the impact of genetic diversity on cardiac physiology and disease-like arrhythmias. The presence of genetic variability in DO mice makes them an ideal bridge between standard mouse models and human research. By conducting in-vivo and ex-vivo studies, we aim to validate these mice as a key translational model in cardiovascular research, and discover novel pathways with the potential to influence cardiac dysfunction.
All 2021 Winners
Aging
| Awardee Name | Institution | Project Title |
| Andrzej Bartke | Southern Illinois University | Investigate the Effects of Metformin on Decoupling Gonadotropic and Somatotropic Axes in Aging |
| Rob Pazdro | University of Georgia | Modeling Variability in Cognitive Responses to Recombinant GDF11 Treatment Using Aged Diversity Outbred Mice |
Cardiovascular
| Awardee Name | Institution | Project Title |
| Eleonora Savio Galimberti | Philadelphia College of Osteopathic Medicine | Characterization of the cardiac electrophysiology and calcium dynamics in diversity outbred (DO) mice |
| Yagna Jarajapu | North Dakota State University | Vascular Regeneration by Bone Marrow-Derived Stem/Progenitor Cells in Diversity-Outbred Mice: Impact of Diet-Induced Obesity |
Hematology
| Awardee Name | Institution | Project Title |
| Robert Paulson | The Pennsylvania State University | Analysis of the erythroid response to acute inflammatory anemia in diversity outbred (DO) mice |
Immunology
| Awardee Name | Institution | Project Title |
| Jay Reddy | University of Nebraska-Lincoln | Preclinical analysis of a monovalent vaccine in the prevention of viral cardiomyopathy and Type I Diabetes induced by multiple Coxsackie B virus serotypes |
| Jean Nemzek | University of Michigan | Impact of Genetic Diversity on Fibrocyte Immunotherapy for Sepsis |
| Norah Smith | Cornell University | Natural genetic variation in the CD8+ T cell response to microbial exposure |
Infectious Disease
| Awardee Name | Institution | Project Title |
| Melanie Ott | Gladstone Institutes | Comparative assessment of diversity outbred mice for SARS-CoV-2 pathogenesis |
| Zissis Chroneos | Pennsylvania State University College of Medicine | Therapeutic Efficacy of P2H10 Antibody for the Treatment of Influenza Pneumonia using Diversity Outbred mice |
Metabolism
| Awardee Name | Institution | Project Title |
| Andrew Neilson | North Carolina State University | Characterizing the human translational potential of EGCG from green tea for obesity prevention: a proof-of- concept study in a genetically diverse Diversity Outbred mouse cohort |
| Ayland Letsinger | The National Institute of Environmental Health Sciences | Diet-Induced Reductions in Wheel Running of Diversity Outbred Mice |
Musculoskeletal
| Awardee Name | Institution | Project Title |
| Henry Donahue | Virginia Commonwealth University | Genetic Variability in Unloading-Induced Bone and Muscle Loss |
| Matthew Silva | Washington University in St. Louis | Effect of Genetic Diversity on Bone’s Anabolic Response to Mechanical Loading |
Neurobiology
| Awardee Name | Institution | Project Title |
| Lindsay Halladay | Santa Clara University | Investigating genetic diversity influence on mouse behavioral neuroscience models of early life trauma |
| Lindsey Schier | University of Southern California | Oral Sensory and Digestive Determinants of Carbohydrate Preference |
| Sreemathi Logan | University of Oklahoma Health Sciences Center | Assessing Molecular Signatures of Cognitive Heterogeneity using High Resolution Automated Home-Cage Testing |
| Thomas Gould | The Pennsylvania State University | Use of the Diversity Outbred mice population to identify genetic diversity in the long-term effects of adolescent nicotine exposure on nicotine-induced responses |
Oncology
| Awardee Name | Institution | Project Title |
| Timothy Heden | University of Minnesota | Targeting glycophagy as a treatment for liver cancer |
Respiratory
| Awardee Name | Institution | Project Title |
| Zhenying Nie | Oregon Health & Science University | Airway Hyperresponsiveness in Offspring of Obese Mothers |