Biogen Idec has entered into a research collaboration with premier academic and research institutions to sequence the genomes of up to 1,000 patients with amyotrophic lateral sclerosis (ALS) in an effort to gain a deeper understanding about the fundamental genetic causes of ALS.
Under the terms of the agreements, Biogen Idec will fund the project at the laboratories of David Goldstein, PhD, director of the Centre for Human Genome Variation at Duke University, and Richard M Myers, PhD, president and director of the HudsonAlpha Institute for Biotechnology. The researchers will sequence the genomes of approximately 500 patients with ALS over the next two years, with an ultimate goal of sequencing 1,000 ALS genomes within five years.
Duke and HudsonAlpha will work with several world-class researchers who have deep expertise and experience with ALS and the genes associated with the disease. Along with Dr Goldstein and Dr Myers, the consortium will include Robert Brown, D. Phil., MD, a neurologist at the University of Massachusetts Medical School who has devoted his career to identify gene mutations that cause ALS; Aaron Gitler, Ph.D., a geneticist at Stanford University whose recent work has focused on risk factors associated with ALS; Tom Maniatis, Ph.D., a molecular biologist at Columbia University studying changes in gene expression associated with ALS; Guy Rouleau, MD, Ph.D., a neuro-geneticist at the University of Montreal with expertise in gene identification in multiple neurological diseases; and Neil Shneider, M.D., Ph.D., a neurologist and neuroscientist in the Motor Neuron Centre at Columbia University, whose work focuses on mechanisms of motor neuron degeneration in ALS.
“We are proud to collaborate with these distinguished academic and research institutions as part of our mission to discover and develop therapies for patients with ALS,” said Tim Harris, PhD., senior vice president of Translational Medicine and Biochemistry at Biogen Idec. “ALS is a devastating and deadly neurodegenerative disease, and there is an urgent need for effective therapies. This effort promises to yield a better understanding of the genetic underpinnings of the disease and possibly provide new targets for potential therapies.”
“Identifying the mutations that can lead to neurodegenerative disease provides a key foothold for developing new therapies and a framework for understanding variation in how patients progress and respond to treatment,” said Dr Goldstein of Duke. “Biogen Idec understands the importance of academic and industrial partnership in the effort to build as complete a picture of ALS genetics as possible, and we are grateful for the tremendous support that Biogen Idec is providing in this effort.”
“Our hope is that the scientific discoveries resulting from this project will be translated into treatments that alleviate suffering and save the lives of people touched by this terrible disease,” said Dr Myers of HudsonAlpha.
Amyotrophic lateral sclerosis (ALS), also known as Lou Gehrig's disease and motor neuron disease, is a universally and rapidly fatal neurodegenerative disorder characterized by progressive muscle weakness and wasting. ALS affects adults in the prime of life and creates a substantial burden for caregivers. Life expectancy after the onset of symptoms is usually three to five years. The cause of ALS is not yet known.
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