Experimental stroke therapeutic developed at Keck Medicine of USC also shows promise for people with Lou Gehrig's disease (ALS)
New research finds vascular damage in mice with ALS contributes to early development of the neurodegenerative disease, while repairing damage delays disease progression
(Media-Newswire.com) - New research finds vascular damage in mice with ALS contributes to early development of the neurodegenerative disease, while repairing damage delays disease progression
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Highlights of this news release:
Neuroscientists have found that early muscle impairment related to Lou Gehrig’s disease, also called amyotrophic lateral sclerosis, or ALS, in mice is proportional to the degree of damage to the blood-spinal cord barrier, which protects the central nervous system from toxins. Repairing damage to and restoring the blood-spinal cord barrier’s integrity appears to delay disease progression. An experimental neurovascular medicine being studied in human stroke patients appears to protect the blood-spinal cord barrier’s integrity in mice and delay motor neuron impairment and degeneration. No cure or treatment yet exists that stops or reverses ALS. According to The ALS Association, as many as 30,000 Americans live with the disease. Full news release is below.
LOS ANGELES — Keck School of Medicine of USC neuroscientists have unlocked a piece of the puzzle in the fight against Lou Gehrig’s disease, a debilitating neurological disorder that robs people of their motor skills. Their findings appear in the March 3, 2014, online edition of the Proceedings of the National Academy of Sciences of the United States of America, the official scientific journal of the U.S. National Academy of Sciences.
“We know that both people and transgenic rodents afflicted with this disease develop spontaneous breakdown of the blood-spinal cord barrier, but how these microscopic lesions affect the development of the disease has been unclear,” said Berislav V. Zlokovic, M.D., Ph.D., the study’s principal investigator and director of the Zilkha Neurogenetic Institute at USC. “In this study, we show that early motor neuron dysfunction related to the disease in mice is proportional to the degree of damage to the blood-spinal cord barrier and that restoring the integrity of the barrier delays motor neuron degeneration. We are hopeful that we can apply these findings to the corresponding disease mechanism in people.”
In this study, Zlokovic and colleagues found that an experimental drug now being studied in human stroke patients appears to protect the blood-spinal cord barrier’s integrity in mice and delay motor neuron impairment and degeneration. The drug, an activated protein C analog called 3K3A-APC, was developed by Zlokovic’s start-up biotechnology company, ZZ Biotech.
Lou Gehrig’s disease, also called amyotrophic lateral sclerosis, or ALS, attacks motor neurons, which are cells that control the muscles. The progressive degeneration of the motor neurons in ALS eventually leads to paralysis and difficulty breathing, eating and swallowing.
According to The ALS Association, approximately 15 people in the United States are diagnosed with ALS every day. It is estimated that as many as 30,000 Americans live with the disease. Most people who develop ALS are between the ages of 40 and 70, with an average age of 55 upon diagnosis. Life expectancy of an ALS patient averages about two to five years from the onset of symptoms.
ALS’s causes are not completely understood, and no cure has yet been found. Only one Food and Drug Administration-approved drug called riluzole has been shown to prolong life by two to three months. There are, however, devices and therapies that can manage the symptoms of the disease to help people maintain as much independence as possible and prolong survival.
The international research team included scientists from the The Scripps Research Institute, University of Rochester Medical Center, Sichuan University’s West China Hospital, and Ludwig Institute for Cancer Research at the University of California, San Diego. Grants from The ALS Association ( 1859 ) and National Institutes of Health ( AG039452, AG23084, NS34467, HL031950, HL052246, NS27036 ) supported their research.
Image: Fluorescent image shows cells of the neurovascular unit in the mouse spinal cord, which consists of motor neurons ( green ) and blood vessels containing pericytes ( red ) and endothelial cells ( blue ). Winkler et al. ( 2014 ) show that disruption of blood vessels accelerates injury of motor neurons in amyotrophic lateral sclerosis. Courtesy of Ethan A. Winkler and Berislav V. Zlokovic/USC
Note to editors: A copy of the study manuscript is available upon request.
Article cited: Winkler, E. A., Sengillo, J. D., Sagare, A. P., Zhao, Z., Ma, Q., Zuniga, E., … & Zlokovic, B. V. ( 2014 ). PNAS Early Edition, 1-8. Published online March 3, 2014; doi:10.1073/pnas.1401595111
ABOUT KECK MEDICINE OF USC Keck Medicine of USC is the University of Southern California’s medical enterprise, one of only two university-owned academic medical centers in the Los Angeles area. Encompassing academic, research and clinical entities, it consists of the Keck School of Medicine of USC, the region’s first medical school; the renowned USC Norris Comprehensive Cancer Center, one of the first comprehensive cancer centers established in the United States; the USC Care Medical Group, the medical faculty practice; the Keck Medical Center of USC, which includes two acute care hospitals: 401-licensed bed Keck Hospital of USC and 60-licensed bed USC Norris Cancer Hospital; and USC Verdugo Hills Hospital, a 158-licensed bed community hospital. It also includes outpatient facilities in Beverly Hills, downtown Los Angeles, La Cañada Flintridge, Pasadena, and the USC University Park Campus. USC faculty physicians and Keck School of Medicine departments also have practices throughout Los Angeles and Orange counties. The Keck Medicine of USC world-class medical facilities are staffed by nearly 600 physicians who are faculty at the renowned Keck School of Medicine of USC and part of USC Care Medical Group. They are not only clinicians, but cutting-edge researchers, leading professors and active contributors to national and international professional medical societies and associations.
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