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New compound reduces stroke damage
May 16, 2006Bethesda, MD - A group of German scientists has synthesized a new compound that dramatically decreases the damage to neurons in rats demonstrating stroke symptoms. The research appears as the "Paper of the Week" in the May 26 issue of the Journal of Biological Chemistry, an American Society for Biochemistry and Molecular Biology journal.
Stroke is the third leading cause of death in the United States and the most common cause of adult disability. An ischemic stroke occurs when a cerebral vessel occludes, obstructing blood flow to a portion of the brain. Currently, there is only one approved stroke therapy, tissue plasminogen activator, which targets the thrombus within the blood vessel. Because of the lack of available stroke treatments, neuroprotective agents have also generated as much interest as thrombolytic therapies.
The immunosuppressive drug FK506 (also known as Tacrolimus or Prograf®) is often administered to patients receiving transplants to prevent organ rejection. Dervatives of the drug are also commonly used in the treatment of autoimmune diseases. FK506 inhibits T-cell activation by binding to members of the FK506-binding protein (FKBP) family. Interestingly, FK506, and several molecules with similar structures, also demonstrate neuroprotective and neuroregenerative effects in a wide range of animal models mimicking Parkinson's disease, dementia, stroke, and nerve damage.
Gunter Fischer and his colleagues at the Max-Planck Research Unit for Enzymology of Protein Folding in Germany have now determined that neuroprotective FK506 derivatives specifically target a receptor called FKBP38. "High FKBP38 activity in neuronal cells triggers mechanisms leading to programmed cell death," explains Fischer. "Inhibition of FKBP38 makes cells more predisposed to survive."
The scientists also synthesized a molecule that specifically inhibits FKBP38 and administered it to rats that were experiencing stroke symptoms. "We developed a lead compound that strongly inhibits FKBP38 leaving other brain FKBP almost untouched under certain conditions," said Fischer. "A strong neuroprotective effect became obvious in an animal model of stroke when the animals were treated with this lead compound."
Fischer and his colleagues found that their compound protected the rats' neurons and also caused neural stem cell proliferation and neuronal differentiation. Diseased animals with motor behavior deficits also showed improvement when they were given the synthetic drug.
These results suggest a potential therapeutic application specific FKBP38 inhibitors in the treatment of neurodegeneration following stroke and a number of other diseases.
American Society for Biochemistry and Molecular Biology
Gunter Fischer and his colleagues at the Max-Planck Research Unit for Enzymology of Protein Folding in Germany have now determined that neuroprotective FK506 derivatives specifically target a receptor called FKBP38. "High FKBP38 activity in neuronal cells triggers mechanisms leading to programmed cell death," explains Fischer. "Inhibition of FKBP38 makes cells more predisposed to survive."
The scientists also synthesized a molecule that specifically inhibits FKBP38 and administered it to rats that were experiencing stroke symptoms. "We developed a lead compound that strongly inhibits FKBP38 leaving other brain FKBP almost untouched under certain conditions," said Fischer. "A strong neuroprotective effect became obvious in an animal model of stroke when the animals were treated with this lead compound."
Fischer and his colleagues found that their compound protected the rats' neurons and also caused neural stem cell proliferation and neuronal differentiation. Diseased animals with motor behavior deficits also showed improvement when they were given the synthetic drug.
These results suggest a potential therapeutic application specific FKBP38 inhibitors in the treatment of neurodegeneration following stroke and a number of other diseases.
American Society for Biochemistry and Molecular Biology
Stroke Damage Current Events and Stroke Damage News RSSMIT: Muscle 'synergies' may be key to stroke treatment
Researchers at MIT and San Camillo Hospital in Venice, Italy, have shown that motor impairments in stroke patients can be understood as impairments in specific combinations of muscle activity, known as synergies.
Study: Added oxygen during stroke reduces brain tissue damage
Scientists have countered findings of previous clinical trials by showing that giving supplemental oxygen to animals during a stroke can reduce damage to brain tissue surrounding the clot.
Estrogen can reduce stroke damage by inactivating protein
Estrogen can halt stroke damage by inactivating a tumor-suppressing protein known to prevent many cancers, Medical College of Georgia researchers say.
Stem cells replace stroke-damaged tissue in rats
Effective stem cell treatment for strokes has taken a significant step forward today (09 March) as scientists reveal how they have replaced stroke-damaged brain tissue in rats.
Mesh-like Network of Arteries Adjusts to Restore Blood Flow to Stroke-Injured Brain
A grid of small arteries at the surface of the brain redirects flow and widens at critical points to restore blood supply to tissue starved of nutrients and oxygen following a stroke, a study published this week has found.
Brain implants may help stroke patients overcome partial paralysis
Scientists have shown for the first time that neuroprosthetic brain implants may be able to help stroke patients with partial paralysis.
Unusual case of a woman who suffered stroke during sex
Minutes after having sexual intercourse with her boyfriend, a 35-year-old woman suddenly felt her left arm go weak. Her speech became slurred and she lost feeling on the left side of her face.
New hope for stroke patients
If a stroke patient doesn't get treatment within approximately the first three hours of symptoms, there's not much doctors can do to limit damage to the brain.
Estrogen therapy helps or hurts the brain depending on reproductive status
Estrogen therapy may limit stroke damage if started close to, but not long after reproductive cycles are over, according to a new animal study. The results were presented Sunday, June 15, at The Endocrine Society's 90th Annual Meeting in San Francisco.
Old antibiotic may find new life as a stroke treatment
Minocycline appears to reduce stroke damage in multiple ways - inhibiting white blood cells and enzymes that, at least acutely, can destroy brain tissue and blood vessels, respectively, says Dr. David Hess, chair of the Department of Neurology in the Medical College of Georgia School of Medicine.
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