Innovations in Science
Grant - Winter 2016 - ALS - Claudio Hetz, Ph.D.
Claudio Hetz, a professor in the Faculty of Medicine at the University of Chile, was awarded an MDA research grant totaling $294,000 over a period of three years to study a potential new therapy aimed at rescuing motor neurons in amyotrophic lateral sclerosis (ALS). In ALS, some proteins do not fold into their required shape correctly, triggering stress-response pathways which can be detrimental to neurons. Hetz aims to use a gene therapy approach to target one of these stress response pathways, known as the “Unfolded Protein Response” (UPR). If successful, the work could point the way to a new therapeutic target at which to aim treatments for this fatal disease.
Funding for this MDA research grant began Feb. 1, 2016.
Grantee: ALS - Claudio Hetz, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant - Winter 2016 - ALS - Asim Beg, Ph.D.
Asim Beg, assistant professor at University of Michigan in Ann Arbor, was awarded an MDA research grant totaling $300,000 over a period of three years to study the role of a protein, EphA4, in amyotrophic lateral sclerosis (ALS). High levels of EphA4 correlate with rapid disease progression in ALS patients. Beg and colleagues will work on the development of a strategy to reduce EphA4 levels. This work will provide insight into the molecular mechanisms of motor neuron degeneration and will facilitate new strategies to slow ALS disease onset and progression.
Funding for this MDA research grant began Feb. 1, 2016.
Grantee: ALS - Asim Beg, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant - Winter 2016 - ALS - Paul August, Ph.D.
Paul August, at Sanofi, was awarded an MDA research grant totaling $298,500 over a period of three years to develop a neuron-muscle contraction unit on a chip. On the chip, developed using cells derived from people with amyotrophic lateral sclerosis (ALS), motor neurons will cause muscle cells to contract. The development of this innovative tool provides for a complete muscle-nerve unit, which could be used to test drugs and better understand the mechanisms behind motor neuron death in ALS.
Funding for this MDA research grant began Feb. 1, 2016.
Grantee: ALS - Paul August, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant - Summer 2011 - CCD/MH — Susan Hamilton, Ph.D.
MDA has awarded a research grant totaling $375,000 over a period of three years to Susan Hamilton, L.F. McCollum Chair in Molecular Physiology, department of molecular physiology and biophysics at Baylor College of Medicine in Houston. The funds will help support Hamilton’s study of the molecular mechanisms underlying a wide spectrum of muscle disorders including central core disease (CCD) and malignant hyperthermia (MH).
CCD is caused by mutations in the cellular internal calcium release channel (the ryanodine receptor, or RYR1), which lead to an abnormality of calcium release from deep inside muscle fibers, and selective destruction of the cellular energy factories called mitochondria.
Malignant hyperthermia, closely associated with CCD, manifests as a sustained, life-threatening muscle contraction event triggered by certain types of anesthetics, some muscle relaxants or sometimes elevated temperatures.
Using a research mouse model that carries a mutation in the RYR1 gene, Hamilton’s research team will work to identify the processes that lead to mitochondrial destruction in CCD and environmental temperature sensitivity in malignant hyperthermia, with a special focus on the links between mitochondria and the intracellular calcium stores controlled by RYR1.
“MDA has played a major role in my career, beginning with a postdoctoral fellowship many years ago,” Hamilton said. “This fellowship supported my first foray into muscle research and led to my career-long commitment to studying skeletal muscle and skeletal muscle diseases.”
Funding for this MDA grant began August 1, 2011.
Grantee: CCD/MH — Susan Hamilton, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - ALS — Clotilde Lagier-Tourenne, M.D., Ph.D.
Clotilde Lagier-Tourenne, a postdoctoral fellow at the University of California, San Diego, in La Jolla, was awarded an MDA development grant totaling $180,000 over a period of three years to study the roles of two proteins, TDP43 and FUS, in ALS (amyotrophic lateral sclerosis, or Lou Gehrig's disease).
ALS-causing mutations in the genes for two RNA binding proteins, TDP43 and FUS, appear to cause disruption in the processing of RNA (the chemical step that directs protein synthesis).
In a research mouse model, Lagier-Tourenne and colleagues have identified RNAs that TDP43 normally binds to, as well as abnormalities in the processing of RNA that occur when TDP43 is depleted.
Similarly, in their new work, the researchers plan to determine the role of FUS in the regulation of RNA in the mouse central nervous system.
The team's proposed set of studies is expected to identify a set of alterations to normal RNA processing that will define a TDP43- and FUS-dependent ALS disease signature.
"I am really grateful for the support from MDA," Lagier-Tourenne said. "It represents strong encouragement at this stage of my career and will allow me to extend my research on the role of RNA processing in neurodegeneration."
Funding for this MDA grant began August 1, 2011.
Grantee: ALS — Clotilde Lagier-Tourenne, M.D., Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - SMA — Lisa Baumbach, Ph.D.
MDA has awarded a research grant totaling $387,228 over three years to Lisa Baumbach, associate professor in the departments of neurology, pediatrics and biochemistry at the Miller School of Medicine at the University of Miami. The funds will help Baumbach continue to search for disease-causing genes responsible for infantile (either X-linked or type 1) spinal muscular atrophy (SMA).
X-linked SMA is one of a group of disorders with a wide spectrum of overlapping characteristics that involve the muscle-controlling lower motor neurons. As a group, these diseases are known as infantile lower motor neuron diseases (ILMD). They manifest just prior to birth or in the newborn period, and generally are lethal.
The only identified causal gene for X-linked SMA is UBE-1, but it's suspected there may be others that have yet to be identified in the ILMD group.
Baumbach's new research focuses on finding additional disease genes and biological pathways responsible for causing X-linked SMA and the ILMD group of disorders, and on identifying potential genetic modifiers of the causal genes.
Favorable results could have implications for improving early disease detection and paving the way toward potential therapies.
"We are indebted to MDA staff, MDA supporters and the Board of Directors for their ongoing support," Baumbach said.
Funding for this MDA grant began August 1, 2011.
Grantee: SMA — Lisa Baumbach, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - SBMA — Maria Pennuto, Ph.D.
MDA has awarded a research grant totaling $330,000 over three years to Maria Pennuto at the Italian Institute of Technology in Genova, Italy. The funds will help support Pennuto's continued studies of the molecular mechanisms underlying spinal-bulbar muscular atrophy (SBMA).
The mutation responsible for SBMA is in the gene for the androgen receptor protein.
Pennuto plans to test the hypothesis that activation of a particular molecule called protein kinase A will reduce accumulation and toxicity of the mutant androgen receptor and help protect the spinal cord in SBMA.
The project capitalizes on results obtained in the last three years from another project supported by MDA.
In that work, Pennuto and colleagues identified another protein kinase that confers protective effects on SBMA-affected skeletal muscle.
The team will use cellular models as well as mouse motor neuron cells and mouse models that express the mutant protein and mimic crucial features of the disease.
"The unique support of MDA has allowed us to pursue the investigation of the molecular mechanisms of SBMA," Pennuto said, noting that she and her research team can use what they've learned to help develop therapeutic approaches for SBMA and other motor neuron diseases.
Funding for this MDA grant began August 1, 2011.
Grantee: SBMA — Maria Pennuto, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - Periodic Paralysis — Stephen Cannon, M.D., Ph.D.
MDA has awarded a research grant totaling $404,274 over three years to Stephen Cannon, professor of neurology and associate dean for undergraduate medical education at the University of Texas Southwestern Medical Center in Dallas. The funds will help support Cannon’s research into attacks of paralysis in people with periodic paralysis (PP).
Periodic paralysis is a muscle disorder in which affected individuals have transient attacks of muscle weakness lasting hours to days.
With prior support from MDA, Cannon and colleagues generated a mouse model for hypokalemic periodic paralysis, in which attacks are triggered by low blood potassium levels. Using the new mouse model, the team intends to establish how shifts in potassium level, exercise and stress trigger attacks of weakness.
Preliminary work already has identified several strategies to reduce the risk of an attack or to reduce the severity of weakness, through the use of available drugs or by modifying the level of muscular activity.
“Support from the MDA has been a vital component of our research program on myotonia and periodic paralysis for two decades,” Cannon said. “MDA’s commitment to funding investigation into the fundamental biology of these diseases has yielded many important advances.
“Through the generosity of donors and the wisdom of the MDA Board of Directors, important work on muscle disease has been able to not only continue, but also to flourish.”
Funding for this MDA grant began August 1, 2011.
Grantee: Periodic Paralysis — Stephen Cannon, M.D., Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - Myopathies — Alan Beggs, Ph.D.
Alan Beggs, a professor of pediatrics at Harvard Medical School and director of the Manton Center for Orphan Disease Research at Children's Hospital Boston, has been awarded an MDA grant totaling $396,990 over three years. The funds will help support Beggs' research on the molecular genetics of congenital myopathies.
These are a diverse group of inherited neuromuscular conditions that include myotonia congenita, paramyotonia congenita, central core disease (CCD), nemaline myopathy, myotubular myopathy (MTM) and other centronuclear myopathies (CNM), periodic paralysis (PP), and others, including some that have not yet been identified.
They all result from defects in skeletal muscle that lead to weakness or abnormalities of muscle contraction of variable onset and severity.
Beggs and his colleagues have built an extensive data registry and repository of samples from patients and their families, supported in part by MDA.
"This repository has led to the identification of the underlying gene defect for many individuals," Beggs said. "However, the responsible genes for up to half the cases remain unknown."
Beggs has now started screening for congenital myopathy-causing mutations in zebrafish and has discovered mutations in several genes that may be related to human neuromuscular diseases.
In this new project, Beggs and colleagues will determine the nature of these new gene mutations and their relationships to the muscle defects seen in the fish. They'll then use this information to identify people with analogous muscle findings, in whom they will analyze the genes identified in the zebrafish.
The affected fish also will allow the investigators to test drugs and other interventions to treat congenital myopathies.
"In 1996, MDA provided my very first grant to study muscle development and function," Beggs said, "and ever since then, it has been a constant source of support and encouragement for my efforts to understand and treat congenital myopathies."
Funding for this MDA grant began August 1, 2011.
Grantee: Myopathies — Alan Beggs, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - Muscle Physiology — Samantha Harris, Ph.D.
Samantha Harris, an associate professor in the department of neurobiology, physiology and behavior at the University of California, Davis, has been awarded an MDA grant totaling $244,024 over two years. The funding will help Harris in her quest to determine the properties of a skeletal-muscle protein called myosin binding protein C.
Mutations in the gene for myosin binding protein C affect muscle contraction and could play a role in a number of muscle diseases.
"MDA support of this work comes at a pivotal time," Harris said, "not only for the opportunity it provides for making rapid inroads into our understanding of [muscle contraction abnormalities], but also for the opportunity it provides in opening up new research directions for my lab by fostering new collaborations. I am eager to get started!"
Funding for this MDA grant began August 1, 2011.
Grantee: Muscle Physiology — Samantha Harris, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant - Summer 2011 - Muscle Physiology — Kristen Nowak, Ph.D.
MDA awarded a research grant totaling $329,091 over two years to Kristen Nowak, an associate professor at the University of Western Australia in Perth, and the Western Australian Institute for Medical Research. The funds will support Nowak's study of diseases caused by defects in the skeletal muscle actin gene, which include "essentially any genetic neuromuscular disease that tends to be severe in some patients and mild in others."
Nowak's team will concentrate on development of a therapy for people with skeletal muscle actin diseases, while also looking for genetic modifiers of disease severity.
Using a research mouse model with severely affected skeletal muscle, the researchers will search for modifying genes that activate cardiac (heart) actin, or any other gene able to rescue the mice through another mechanism.
"Identified genes will become the focus of future studies determining how to utilize them to formulate treatments," Nowak said.
Nowak acknowledged the importance of MDA funding in both previous and current work.
"Being able to continue this work with the current project is of utmost importance, not only for patients with skeletal muscle actin disease and their families, but hopefully for people with other neuromuscular diseases as well."
Funding for this MDA grant began August 1, 2011.
Grantee: Muscle Physiology — Kristen Nowak, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant - Summer 2011 - MM - Mito. Myopathy — Pere Puigserver, Ph.D.
MDA has awarded a research grant totaling $313,551 over three years to Pere Puigserver, associate professor in the department of cancer biology at the Dana-Farber Cancer Institute, and department of cell biology at Harvard Medical School in Boston. The funds will help support Puigserver’s research into the study of two newly identified genes that may increase muscle performance in mitochondrial myopathies.
It’s known that activation of a gene called PGC1-alpha has the potential to be an effective treatment for mitochondrial myopathy in people with neuromuscular disorders, Puigserver explained. But it makes for a difficult “druggable” target.
Puigserver’s research team has identified two new genes, mTORC1 and YY1, that form new “teammates” that stimulate PGC1-alpha and increase healthy skeletal muscle performance. The two genes appear to be easily targeted by small molecules and other drugs.
The team will assess how the mTOR/YY1 complex activates PGC1-alpha, and then will perform a small-molecule chemical screen to identify compounds that activate PGC1-alpha in skeletal muscle cells modified with genetic mutations from people with myopathies.
“The importance of MDA funding for our project is crucial,” Puigserver said, providing “a unique avenue to accelerate research that can impact people with muscle diseases.”
Funding for this MDA grant began August 1, 2011.
Grantee: MM - Mito. Myopathy — Pere Puigserver, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - MM - Mito. Myopathy — Edward Owusu-Ansah, Ph.D.
MDA has awarded a development grant totaling $180,000 over three years to Edward Owusu-Ansah, a postdoctoral fellow in the department of genetics at Harvard Medical School in Boston. The funds will help support Owusu-Ansah's research into the molecular mechanisms underlying mitochondrial myopathies.
A system consisting of five large protein complexes, known as the functional oxidative phosphorylation system, or OXPHOS, plays a crucial role in the generation of energy (ATP) in the cellular power factories known as mitochondria. Disruption of this system results in the compromise of a range of biochemical and metabolic activities in cells, resulting in mitochondrial myopathy.
In a fruit fly research model Owusu-Ansah plans to examine the intracellular signaling that contributes to mitochondrial myopathy, particularly with regard to one of the five larger protein complexes that is part of the OXPHOS system.
"Due to the extensive similarity between fruit fly and human genomes," Owusu-Ansah said, "I anticipate that information obtained from this study should uncover novel therapeutic strategies for alleviating mitochondrial myopathy in humans."
Funding for this MDA grant began August 1, 2011.
Grantee: MM - Mito. Myopathy — Edward Owusu-Ansah, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - MM - Mito. Myopathy - Carlos Moraes
MDA awarded a grant totaling $363,672 to Carlos Moraes, professor of neurology at the University of Miami School of Medicine, to study the effects generated by an increase in functional mitochondria (the "energy factories" in cells) in mitochondrial myopathy.
In previous studies, Moraes and colleagues increased the production of new mitochondria (a process called "mitochondrial biogenesis") in the cells of mice with a disease resembling mitochondrial myopathy. The mice, which began receiving treatment during the embryonic stage of development, exhibited improved symptoms and prolonged life.
As part of their new work, Moraes and his team will test various methods, alone and in combination, of increasing production of mitochondria in adult mice with a disease similar to human mitochondrial myopathy. The investigators also will study whether endurance-based exercise increases production of mitochondria.
"This project may lead to improved treatment for mitochondrial myopathies," Moraes said.
Funding for this MDA grant began August 1, 2010.
Grantee: MM - Mito. Myopathy - Carlos Moraes
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - MD — Kathryn Wagner, M.D., Ph.D.
MDA has awarded a research grant totaling $362,760 over three years to Kathryn Wagner, an associate professor of neurology and neuroscience at the Johns Hopkins School of Medicine and director of the Center for Genetic Muscle Disorders at the Kennedy Krieger Institute, both in Baltimore.
The grant will help support Wagner's studies of how a muscle protein called myostatin regulates the fate of muscle stem cells. The studies may have particular application to Duchenne muscular dystrophy (DMD), Becker muscular dystrophy (BMD), congenital muscular dystrophy (CMD), facioscapulohumeral muscular dystrophy (FSHD) and limb-girdle muscular dystrophy (LGMD).
In most muscular dystrophies, muscle regeneration becomes less effective over time, and muscle is replaced by fibrosis (scar tissue).
"The factors that govern the establishment of fibrosis are not well-understood," Wagner said. "However, myostatin, a regulator of muscle growth, is one important factor in the development of fibrosis. In the absence of myostatin, muscle regenerates more quickly and with less fibrosis."
Wagner's studies will determine whether one of the cells that's important for muscle regeneration, a muscle stem cell called a satellite cell, can become misdirected and contribute to fibrosis. "The studies will specifically evaluate whether myostatin is a cue that directs satellite cells away from forming new muscle and toward fibrosis," Wagner said.
She noted that, if this hypothesis is correct, then anti-myostatin therapies could have an important role to play in stimulating muscle regeneration and reducing muscle fibrosis in a variety of diseases.
Funding for this MDA grant began August 1, 2011.
Grantee: MD — Kathryn Wagner, M.D., Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant - Summer 2011 - LGMD/IBM — Alfred Goldberg, Ph.D.
Alfred Goldberg, professor or cell biology at Harvard Medical School in Boston, has received an MDA research grant totaling $410,777 over three years to continue research into the mechanisms underlying muscle atrophy, with particular relevance for limb-girdle muscular dystrophy (LGMD) and possibly inclusion-body myositis (IBM).
In his previous work, Goldberg has helped clarify the general mechanisms of muscle atrophy resulting from motor neuron disease, inactivity, various systemic diseases and myopathies.
Goldberg and his research team will focus now on mechanisms that normally inhibit a protein called FoxO, which has been implicated in stimulating muscle protein breakdown.
Of particular interest to the team are two proteins, PGC1-alpha and SIRT1, both of which previously have been shown to inhibit FoxO function.
Further studies of these and other proteins' protective mechanisms could suggest new ways of combating muscle degeneration and atrophy.
"Over the years, my laboratory has received generous support from the Muscular Dystrophy Association, which has made possible a number of important findings about protein metabolism in muscle, and specifically about the mechanisms of muscle atrophy," Goldberg said. "My colleagues and I are very grateful for the support."
Funding for this MDA grant began August 1, 2011.
Grantee: LGMD/IBM — Alfred Goldberg, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - LGMD/DD — Jennifer Levy, Ph.D.
Jennifer Levy, a postdoctoral research fellow in the department of molecular physiology & biophysics at the University of Iowa Carver College of Medicine, has been awarded an MDA development grant totaling $180,000 over three years. (This type of grant reflects MDA's commitment to the career development of promising young researchers.) The funds will support Levy's research on repair of the muscle-fiber membrane.
Each muscle fiber is surrounded by a membrane that undergoes frequent rounds of damage and repair, assisted by a protein called dysferlin.
Dysferlin is deficient in the type 2B form of limb-girdle muscular dystrophy (LGMD) and the Miyoshi form of distal muscular dystrophy (DD). In these forms of MD, muscle-fiber membrane repair is ineffective and is accompanied by inflammation. However, the relationship between dysferlin deficiency and inflammation is not fully understood.
"I aim to identify the aberrant membrane repair mechanisms that compensate for the loss of dysferlin," Levy said, "and to determine if dysferlin-independent membrane repair signals immune cells to augment inflammation at sites of muscle injury."
She said identifying new factors that contribute to muscle inflammation in dysferlin-deficient patients may also lead to the discovery of new therapeutic strategies for other muscular dystrophies also associated with inflammation.
"MDA is critical to the funding of my research," Levy said. "As I am currently a postdoctoral research fellow, this funding will be beneficial in my development into an independent investigator."
Funding for this MDA grant began August 1, 2011.
Grantee: LGMD/DD — Jennifer Levy, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant - Summer 2011 - FSHD — Michael Kyba, Ph.D.
MDA awarded a research grant totaling $375,000 over three years to Michael Kyba, assistant professor in the Lillehei Heart Institute and department of pediatrics at the University of Minnesota in Minneapolis. The funds will help support Kyba's efforts to identify and test experimental therapies in facioscapulohumeral muscular dystrophy (FSH, or FSHD).
The mutation associated with FSHD is a contracted (deleted) segment of DNA in a region of chromosome 4 called D4Z4. The D4Z4 region consists of a series of repeated DNA sequences. It is not yet fully understood how the contraction causes the disease, but scientists have found that it appears to modify the packaging of this part of chromosome 4 so that a gene named DUX4, which is encoded within each D4Z4 repeat, becomes active.
Kyba and colleagues are developing mice that carry the DUX4 gene. The team aims to identify and test drug- and genetic-based inhibitors of DUX4 in the mice, the most promising of which potentially may lead to experimental therapies for FSHD.
"This research project is directed at developing a treatment for FSHD," Kyba said. "As MDA is dedicated to curing muscular dystrophy, this is a natural partnership. Support from MDA is critical to our success."
Funding for this MDA grant began August 1, 2011.
Grantee: FSHD — Michael Kyba, Ph.D.
Grant type:
Award total:
Institution:
Country:
Grant – Winter 2011 – SM - Claudio Sette, Ph.D.
MDA has awarded a research grant totaling $219,000 over three years to Claudio Sette, associate professor for the department of public health and cell biology at the University of Rome Tor Vergata in Rome, Italy. The new funds will help support Sette’s study of the molecular mechanisms underlying spinal muscular atrophy (SMA).
SMA is caused by mutations in the SMN1 gene, which leads to a deficiency of the protein SMN (for "survival of motor neuron") and subsequent degeneration and death of the motor neurons in the spinal cord. Although SMN2, a gene almost identical to SMN1, is present in humans, it's unable to compensate for SMN1's loss due to differences in the two genes' protein-building instructions. With the exception of the case in which an occasional error may result in a functional or partially functional protein, SMN2-derived proteins are short, highly unstable, and for the most part nonfunctional.
Sette and colleagues intend to test a variety of ways to modulate the SMN2 gene, forcing it to mimic the SMN1 gene and process its protein-building instructions in such a way as to lead to the production of functional SMN protein and prevention of motor neuron degeneration and death. Results from Sette’s work should increase understanding of the molecular mechanisms responsible for SMA — in particular, the molecular defects responsible for motor neuron degeneration. In addition, the group’s studies may lead to new therapeutic approaches for treatment of the disease.
Funding for this MDA grant began February 1, 2011.
Grantee: SM - Claudio Sette, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant – Winter 2011 – SBMA - J. Paul Taylor, M.D., Ph.D.
J. Paul Taylor, associate member of St. Jude Children’s Research Hospital in Memphis, Tenn., has received an MDA research grant totaling $330,000 over three years. The funds will help support Taylor’s continued research into a number of possible therapeutic targets in spinal-bulbar muscular atrophy (SBMA).
In prior research funded by MDA, Taylor and colleagues developed a fruit fly model of SBMA and used it to determine how mutations in the androgen receptor (AR) gene lead to the death of motor neurons (nerve cells) and deterioration of muscle in this disease.
Specifically, the study team determined that toxicity occurs only when mutant AR enters the cell nucleus and binds to DNA. The team determined that toxicity is mediated by a small interaction surface on AR called "AF2." The team also has determined that toxicity is strongly enhanced by a chemical modification called "sumoylation."
Now, Taylor intends to continue along the same line of study, testing the validity of two therapeutic targets, AF2 and sumoylation, identified in his previous work.
The team will engineer new mouse models of SBMA, some carrying normal forms of AR and others carrying mutant forms of the protein that are defective in DNA binding, incapable of undergoing sumoylation, or have a disrupted or nonfunctional AF2 surface. In parallel, the team will work to identify small molecule inhibitors of these targets in their fruit fly model.
Findings derived from Taylor’s studies could lead to the identification of compounds that can be developed for human clinical testing.
"Funding from MDA has been essential to my research program," Taylor said. "Our previous findings were made possible by MDA, and this new grant from MDA is essential to translating those findings into meaningful therapies."
Funding for this MDA grant began February 1, 2011.
Grantee: SBMA - J. Paul Taylor, M.D., Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant – Winter 2011 – Mito. Myopathy - Antoni Barrientos, Ph.D.
MDA has awarded a research grant totaling $346,500 over three years to Antoni Barrientos, an associate professor in the departments of neurology and biochemistry and molecular biology at the University of Miami (Florida) Miller School of Medicine. The grant will help support Barrientos' study of the underlying molecular mechanisms in some forms of mitochondrial myopathy.
In the mitochondrial myopathies, commonly caused by the deficiency of an enzyme called cytochrome c oxidase (COX), cellular energy production is severely compromised, affecting brain, muscle and other organs with high energy demands. A complete understanding of COX synthesis is essential for uncovering the molecular basis underlying these diseases.
Barrientos and colleagues recently identified in a yeast research model two "chaperone" proteins responsible for helping assemble the COX enzyme.
Now, Barrientos plans to study the human equivalents of the two yeast proteins to determine whether their functions in humans are comparable. To do this, his team will use a gene silencing technique to "turn off" the genes that carry instructions for production of the chaperones, essentially inhibiting the proteins' production and enabling the investigators to identify what happens (or what doesn't happen) in their absence.
Barrientos' previous MDA-funded work has resulted in significant contributions to scientists' understanding of factors involved in COX assembly and regulation of the COX biogenetic process. Now, findings from his new work potentially may lead to therapeutics based on targeting the genes that carry instructions for the two COX assembly chaperones.
"MDA support is extremely important to our laboratory," Barrientos said, adding, "I have been working on cytochrome c oxidase assembly for the last 12 years, beginning with my postdoctoral studies at Columbia University, always with the support of MDA."
Funding for this MDA grant began February 1, 2011.
Grantee: Mito. Myopathy - Antoni Barrientos, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant – Winter 2011 – MTM - James Dowling, M.D., Ph.D.
MDA has awarded a research grant totaling $353,679 to James Dowling, assistant professor in the departments of pediatrics and neurology at the University of Michigan Medical Center in Ann Arbor. The funds will help support Dowling's research into potential therapies for myotubular myopathy (MTM).
For his latest line of research, Dowling has partnered with Christopher Pierson, an assistant professor in the department of neuropathology at Nationwide Children's Hospital in Columbus, Ohio.
Recently the two identified abnormalities in a part of the muscle called the neuromuscular junction (NMJ), the meeting point of nerve cells and muscle fibers, in a model of MTM. They also found that treatment targeted to the NMJ greatly improved function in the model.
Now, using a research mouse model of MTM, the study team will examine the relationship between the NMJ and the disease. In addition, the investigators will test a commonly used NMJ-modifying drug in the model to determine whether it affects disease progression.
Findings from this work are expected to significantly advance understanding of the MTM disease process, and may lead directly to treatment for people with the disease.
"MDA has been and continues to be a critical funding source for my research," Dowling said. "My work in this area of study started with support from the MDA in the form of an MDA development grant. Using the funding from that grant, I was able to make major inroads in terms of our understanding of MTM. This work also provided the relevant data from which the hypothesis for our new study evolved.
"We believe the results of this study, funded by the MDA, will lead to the first therapy for MTM."
Funding for this MDA grant began February 1, 2011.
Grantee: MTM - James Dowling, M.D., Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant – Winter 2011 – MMD - Mani Mahadevan, M.D.
MDA has awarded a research grant totaling $435,000 over three years to Mani Mahadevan, professor in the department of pathology, medical director of the molecular diagnostics lab and associate director of the cytogenics lab at the University of Virginia in Charlottesville. The new funds will help support Mahadevan’s study of the underlying molecular mechanisms in type 1 myotonic muscular dystrophy (MMD1, or DM1).
MMD1 is caused by an expanded section of DNA in the DMPK gene that results in the accumulation of mutated DMPK RNA (the chemical step between DNA instructions and protein production) in the cell’s nucleus. These "RNA foci" are thought to lead to RNA toxicity by affecting the function of RNA binding proteins that interact with the toxic RNA, disrupting normal RNA processing.
Using muscle cells taken from research mouse models and MMD1-affected individuals, Mahadevan and colleagues plan to examine the interactions in MMD1 between a number of particular proteins and DMPK RNA.
Mahadevan’s work potentially may lead to a greater understanding of the molecular mechanisms that drive MMD1, which will further inform researchers’ efforts to design therapeutics to combat the disease.
"MDA has funded research in my lab since 1998, and often has been the first agency to fund our research at its earliest stages," Mahadevan said. "I am sincerely grateful for the trust and confidence the Association has placed in us and our research."
Funding for this MDA grant began February 1, 2011.
Grantee: MMD - Mani Mahadevan, M.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant – Winter 2011 – MMD - John Lueck, Ph.D.
MDA has awarded a research development grant totaling $180,000 over three years to John Lueck, a postdoctoral fellow at the University of Iowa Carver College of Medicine in Iowa City. The new funds will help support Lueck’s research into the mechanisms responsible for muscle weakness and degeneration in type 1 myotonic muscular dystrophy (MMD1, or DM1).
Although a number of bodily systems are affected in MMD1, likely due to flaws in a number of molecular pathways, and while some progress has been made in understanding certain of these areas, the particular mechanism that underlies muscle weakness and degeneration in the disease has yet to be elucidated.
Lueck and colleagues plan to use a multifaceted approach, using research mouse models of MMD1 and tissue taken from individuals with MMD1 to zero in on the specific molecular flaws responsible for muscle weakness and degeneration, as well as the mechanisms through which those flaws work. Such understanding is crucial for both understanding the MMD1 disease process and for pinpointing targets at which potential therapeutics may be aimed.
"As I am in the early career stages of becoming an independent investigator, the process of obtaining MDA funding has been crucial for gaining experience in grantsmanship, and securing funding for my work," Lueck said. "Importantly, MDA is promoting basic and applied research to not only better understand normal function but also mechanisms of muscle disease and therapy development."
Funding for this MDA grant began February 1, 2011.
Grantee: MMD - John Lueck, Ph.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Grant – Winter 2011 – MMD - Araya Puwanant, M.D.
MDA has awarded a clinical research training grant totaling $173,400 to Araya Puwanant at the University of Rochester (New York) Medical Center. The new funds will support completion of a two-year fellowship during which Puwanant will study the disease process in myotonic muscular dystrophy (MMD, or DM).
"In recent years there has been progress in understanding why people with MMD develop muscle weakness and stiffness," Puwanant said. "As more is being learned about the disease, scientists are making progress in developing experimental treatments."
Some therapies currently under development likely will move from laboratory testing to testing in human clinical trials.
"In preparation for clinical trials, we need to have detailed information about how the condition changes over time," said Puwanant. "We also need to find good ways to measure whether new treatments are having a beneficial effect."
Puwanant will be taking part in research studies to carefully chart the progression of MMD over time in a large group of individuals with the disease. Analysis of these observations is expected to help to determine the best way to measure the severity of MMD. Additionally, information gained from Puwanant’s study may help determine the effectiveness of future experimental treatments for the disease.
Funding for this MDA grant began February 1, 2011.
Grantee: MMD - Araya Puwanant, M.D.
Grant type: Research Grant
Award total:
Institution:
Country:
Find MDA
in your Community
-
Grants at a Glance
Read More -
Search for Clinical Trials
Learn More
