The Lupus Research Institute (LRI) has named University of Massachusetts Medical School Professor of Medicine Ann Marshak-Rothstein, MD, one of two recipients of the first LRI Distinguished Innovator Awards. Created to provide outstanding scientists with support to conduct novel research into the fundamental causes of lupus, the $1 million Distinguished Innovator Award was established to address the current lack of treatments for lupus and aims to provide new directions toward a cure or prevention.
"Support from the LRI will enable us to extend our analysis of the cell components recognized by toll-like receptors in mice models to toll-like receptor activation in human cell populations, and allow us to identify those patients most likely to respond to therapies directed at blocking specific toll-like receptors," said Dr. Marshak-Rothstein.
Systemic lupus erythematosus is a chronic and often disabling autoimmune disease in which the human immune system becomes hyperactive and attacks normal, health tissues. As a result, no two cases of lupus are alike. Symptoms may affect many different body systems, including joints, skin, kidneys, blood cells, heart, and lungs. Some people develop kidney problems, for example, while others suffer from premature heart disease, strokes or lung inflammation. There is no known cause or cure for lupus and no new treatments have been approved for the disease in 50 years, and the treatments currently available can often be toxic and more damaging than the disease itself. Estimates indicate that more than 1.5 million Americans have lupus.
Marshak-Rothstein's research group was the first to propose that toll-like receptors (TLR) - a class of proteins that play a key role in the innate immune system - could have a primary role in lupus by turning on the immune system to attack the body. Because TLR proteins are essential in fighting any infection, how the body loses control over their activity is a fundamental question in immunology. Finding the causes of lupus, the prototype for autoimmune disease research, could have broad implications across a wide range of illnesses affecting millions. Recent studies found that one TLR, TLR7, has a harmful role, while another, TLR9, has the opposite effect helping to protect against lupus.
Building on this work, Marshak-Rothstein is developing a highly innovative experimental approach to pinpoint which specific TLR is mainly to blame for causing lupus in humans. This experimental approach also promises to reveal new targets for therapies that could prevent or arrest lupus.
"Members of the toll-like receptor gene family have been clearly implicated in the development of systemic autoimmune diseases such as lupus," said Marshak-Rothstein. "These studies will further provide a high throughput system for testing TLR-based inhibitors and thereby identify appropriate TLR-based therapeutic targets."
The LRI received applications for the Distinguished Innovator Awards - the first privately funded $1 million grants for lupus research - from many of the world's most renowned scientists as well as rising young investigators with great promise for contributing their talent to uncovering the causes of lupus. Rigorous peer-review was conducted by a team of LRI's scientific advisors and 12 of the world's leading lupus experts.
"We were enormously impressed by the quality of the submissions," noted world-leading immunologist Dr. William Paul, LRI Scientific Advisory Board Chairman and National Academy of Sciences member. "With these Distinguished Innovator Awards and existing annual Novel Research Grants, the LRI continues to pursue a strategy of funding the most innovative and novel research that has had unprecedented success in driving new answers in a complex disease state. Their work over the past decade has provided the basis for this transformative research initiative to look for the fundamental causes of lupus that can drive to a cure and the means to prevent lupus."