Public release date: 13-Aug-2012 [ | E-mail | Share ]

Contact: Mount Sinai Press Office newsmedia@mssm.edu 212-241-9200 The Mount Sinai Hospital / Mount Sinai School of Medicine

The second of two studies on latrepirdine, recently published in Molecular Psychiatry, demonstrates new potential for the compound in the treatment of Alzheimer's disease, Parkinson's disease, sleep disorders, and other neurodegenerative conditions. An international team led by Mount Sinai School of Medicine scientists found that latrepiridine, known commercially as Dimebon, reduced the level of at least two neurodegeneration-related proteins in mice.

Latrepirdine was initially sold as an antihistamine in Russia, following its approval for use there in 1983. In the 1990s, the compound appeared effective in treating some of the earliest animal models of Alzheimer's disease. In a high profile Phase II clinical trial in Russia, overseen by a panel of top U.S. clinical trial experts, including Mount Sinai's Mary Sano, PhD, Professor of Psychiatry and Director of the Mount Sinai Alzheimer's Disease Research Center, latrepirdine showed significant and sustained improvement in cognitive behavior in Alzheimer's patients with minimal side effects. However, when the drug was tested in the U.S. in a Phase III trial, it did not demonstrate any improvement in people with the disease, causing the sponsors to halt further clinical study of the drug in Alzheimer's disease.

Before the failed trials however, Mount Sinai researchers led by Sam Gandy, MD, PhD, Professor of Neurology, and Psychiatry, and Director of the Mount Sinai Center for Cognitive Health, began studying how latrepirdine worked.

"Despite the failure to replicate the positive Russian trial results in U.S. patients, we found unexpected evidence that latrepirdine had potential as a treatment for a number of neurodegenerative disorders," said Dr. Gandy. "Our study shows that the compound prevents neurodegeneration in multiple ways and should remain a contender for battling these devastating diseases. The anti-amyloid approach most recently exemplified by reports that a second bapineuzumab trial has failed might only help patients if begun before the brain pathology begins to build up."

In the new study, the researchers administered the drug to three different systems: yeast, mice and mammal cells all showing build-up of alpha-synuclein, a protein known to cause neurodegeneration. In all three systems, they determined that latrepiridine activated autophagy, the so-called "self-eating" process of cells that protects the brain from neurodegeneration, which targeted synuclein and protected against its toxicity. In mice, the drug reduced the amount of synuclein accumulated in the brain through autophagy.

John Steele, PhD, a Mount Sinai neuroscience graduate student, devoted his PhD thesis to these studies. Lenard Lachenmayer, MD, a postdoctoral fellow working under the supervision of Zhenyu Yue, PhD, Associate Professor of Neurology at Mount Sinai, shares first authorship of the new paper with Steele and with Shulin Ju, PhD, a postdoctoral fellow at Brandeis University working under the direction of Greg Petsko, PhD, and Dagmar Ringe, PhD, both professors of biochemistry, chemistry and neuroscience at Brandeis.

This study is the second of two published by Dr. Gandy's team in Molecular Psychiatry. The first, published July 31, 2012, determined that latrepiridine stopped the toxicity of amyloid-beta protein accumulation in mice present with Alzheimer's disease by inducing autophagy. In that study, they randomly administered either latrepirdine or placebo to mice engineered to have the early stages of Alzheimer's disease and found that, through autophagy, the drug improved memory.

Dr. Petsko, an expert in protein structure who is now Professor of Neurology and Neuroscience at Weill Cornell Medical College, noted that, surprisingly, latrepirdine protects yeast cells from the toxicity of alpha-synuclein while leaving the cells vulnerable to killing by either the Huntington's disease protein or by either of the two key proteins responsible for ALS-FTD, a spectrum of diseases that includes both Lou Gehrig's disease and frontotemporal dementia.

Here is the original post:
Rejected drug may protect against toxic substance common to Alzheimer's and Parkinson's diseases

Public release date: 13-Aug-2012 [ | E-mail | Share ]

Contact: Mount Sinai Press Office newsmedia@mssm.edu 212-241-9200 The Mount Sinai Hospital / Mount Sinai School of Medicine

The second of two studies on latrepirdine, recently published in Molecular Psychiatry, demonstrates new potential for the compound in the treatment of Alzheimer's disease, Parkinson's disease, sleep disorders, and other neurodegenerative conditions. An international team led by Mount Sinai School of Medicine scientists found that latrepiridine, known commercially as Dimebon, reduced the level of at least two neurodegeneration-related proteins in mice.

Latrepirdine was initially sold as an antihistamine in Russia, following its approval for use there in 1983. In the 1990s, the compound appeared effective in treating some of the earliest animal models of Alzheimer's disease. In a high profile Phase II clinical trial in Russia, overseen by a panel of top U.S. clinical trial experts, including Mount Sinai's Mary Sano, PhD, Professor of Psychiatry and Director of the Mount Sinai Alzheimer's Disease Research Center, latrepirdine showed significant and sustained improvement in cognitive behavior in Alzheimer's patients with minimal side effects. However, when the drug was tested in the U.S. in a Phase III trial, it did not demonstrate any improvement in people with the disease, causing the sponsors to halt further clinical study of the drug in Alzheimer's disease.

Before the failed trials however, Mount Sinai researchers led by Sam Gandy, MD, PhD, Professor of Neurology, and Psychiatry, and Director of the Mount Sinai Center for Cognitive Health, began studying how latrepirdine worked.

"Despite the failure to replicate the positive Russian trial results in U.S. patients, we found unexpected evidence that latrepirdine had potential as a treatment for a number of neurodegenerative disorders," said Dr. Gandy. "Our study shows that the compound prevents neurodegeneration in multiple ways and should remain a contender for battling these devastating diseases. The anti-amyloid approach most recently exemplified by reports that a second bapineuzumab trial has failed might only help patients if begun before the brain pathology begins to build up."

In the new study, the researchers administered the drug to three different systems: yeast, mice and mammal cells all showing build-up of alpha-synuclein, a protein known to cause neurodegeneration. In all three systems, they determined that latrepiridine activated autophagy, the so-called "self-eating" process of cells that protects the brain from neurodegeneration, which targeted synuclein and protected against its toxicity. In mice, the drug reduced the amount of synuclein accumulated in the brain through autophagy.

John Steele, PhD, a Mount Sinai neuroscience graduate student, devoted his PhD thesis to these studies. Lenard Lachenmayer, MD, a postdoctoral fellow working under the supervision of Zhenyu Yue, PhD, Associate Professor of Neurology at Mount Sinai, shares first authorship of the new paper with Steele and with Shulin Ju, PhD, a postdoctoral fellow at Brandeis University working under the direction of Greg Petsko, PhD, and Dagmar Ringe, PhD, both professors of biochemistry, chemistry and neuroscience at Brandeis.

This study is the second of two published by Dr. Gandy's team in Molecular Psychiatry. The first, published July 31, 2012, determined that latrepiridine stopped the toxicity of amyloid-beta protein accumulation in mice present with Alzheimer's disease by inducing autophagy. In that study, they randomly administered either latrepirdine or placebo to mice engineered to have the early stages of Alzheimer's disease and found that, through autophagy, the drug improved memory.

Dr. Petsko, an expert in protein structure who is now Professor of Neurology and Neuroscience at Weill Cornell Medical College, noted that, surprisingly, latrepirdine protects yeast cells from the toxicity of alpha-synuclein while leaving the cells vulnerable to killing by either the Huntington's disease protein or by either of the two key proteins responsible for ALS-FTD, a spectrum of diseases that includes both Lou Gehrig's disease and frontotemporal dementia.

Here is the original post:
Rejected drug may protect against toxic substance common to Alzheimer's and Parkinson's diseases

Editor's Choice Main Category: Alzheimer's / Dementia Also Included In: Parkinson's Disease;Sleep / Sleep Disorders / Insomnia Article Date: 13 Aug 2012 - 14:00 PDT

Current ratings for: Rejected Drug Could Protect Against Parkinson's And Alzheimer's

4.75 (4 votes)

Over 5 million people worldwide suffer from Alzheimer's disease, an incurable, progressive neurodegenerative disease that is the leading cause of dementia in the elderly, whilst around 1 million people in the U.S. suffer from Parkinson's disease, a progressive disorder that leads to muscle stiffness, tremors and slowed movements and gait.

Latrepirdine was approved in Russia in 1983 as an antihistamine. However, in the 90s, researchers discovered that the drug seemed to be effective in the earliest animal models of Alzheimer's disease. A high- profile Phase II clinical trial in Russia demonstrated that latrepirdine showed a considerable and sustained improvement in cognitive behavior in Alzheimer's patients with minimal side effects. A panel of U.S. clinical experts oversaw the trial. The panel included Mary Sano, PhD, Professor of Psychiatry and Director of the Mount Sinai Alzheimer's Disease Research Center. However, later tests of latripirdine in a U.S. Phase III trial failed to show any improvement in those affected by Alzheimer's, which prompted the sponsors to stop further clinical trials of the drug for Alzheimer's disease.

Prior to the failed trials Sam Gandy, MD, PhD, Professor of Neurology, and Psychiatry, and Director of the Mount Sinai Center for Cognitive Health and his team started investigating the way in which latrepirdine functions. Dr. Gandy declares:

Their new study entailed administering the drug to three different systems, including yeast, mice and mammal cells that all showed a build-up of alpha-synuclein, i.e. a protein that is known to cause neurodegeneration.

They discovered determined that latrepiridine activated autophagy in all three systems, the "self-eating" process of cells that protects the brain from neurodegeneration, which targeted synuclein and protected against its toxicity. They discovered that the drug decreased the amount of synuclein accumulated in the brain of mice through autophagy.

This is the second study published in Molecular Psychiatry by Dr. Gandy's team. Their first study, which appeared in the July 31 issue, revealed that a mice study showed that latrepiridine stopped the toxicity of amyloid-beta protein accumulation by inducing autophagy in animals with Alzheimer's disease. The study entailed randomly administrating latrepirdine or placebo to mice with early stages of Alzheimer's disease, revealed that the drug improved memory through autophagy.

To his surprise, Dr. Petsko, an expert in protein structure, Professor of Neurology and Neuroscience at Weill Cornell Medical College, observed that latrepirdine protects yeast cells from the toxicity of alpha-synuclein and leaves the cells vulnerable so that they can be killed by either the Huntington's disease protein or by either of the two key proteins responsible for ALS-FTD. ALS-FTD is a range of diseases, including Lou Gehrig's disease and frontotemporal dementia.

See the article here:
Rejected Drug Could Protect Against Parkinson's And Alzheimer's

Editor's Choice Main Category: Alzheimer's / Dementia Also Included In: Parkinson's Disease;Sleep / Sleep Disorders / Insomnia Article Date: 13 Aug 2012 - 14:00 PDT

Current ratings for: Rejected Drug Could Protect Against Parkinson's And Alzheimer's

4.75 (4 votes)

Over 5 million people worldwide suffer from Alzheimer's disease, an incurable, progressive neurodegenerative disease that is the leading cause of dementia in the elderly, whilst around 1 million people in the U.S. suffer from Parkinson's disease, a progressive disorder that leads to muscle stiffness, tremors and slowed movements and gait.

Latrepirdine was approved in Russia in 1983 as an antihistamine. However, in the 90s, researchers discovered that the drug seemed to be effective in the earliest animal models of Alzheimer's disease. A high- profile Phase II clinical trial in Russia demonstrated that latrepirdine showed a considerable and sustained improvement in cognitive behavior in Alzheimer's patients with minimal side effects. A panel of U.S. clinical experts oversaw the trial. The panel included Mary Sano, PhD, Professor of Psychiatry and Director of the Mount Sinai Alzheimer's Disease Research Center. However, later tests of latripirdine in a U.S. Phase III trial failed to show any improvement in those affected by Alzheimer's, which prompted the sponsors to stop further clinical trials of the drug for Alzheimer's disease.

Prior to the failed trials Sam Gandy, MD, PhD, Professor of Neurology, and Psychiatry, and Director of the Mount Sinai Center for Cognitive Health and his team started investigating the way in which latrepirdine functions. Dr. Gandy declares:

Their new study entailed administering the drug to three different systems, including yeast, mice and mammal cells that all showed a build-up of alpha-synuclein, i.e. a protein that is known to cause neurodegeneration.

They discovered determined that latrepiridine activated autophagy in all three systems, the "self-eating" process of cells that protects the brain from neurodegeneration, which targeted synuclein and protected against its toxicity. They discovered that the drug decreased the amount of synuclein accumulated in the brain of mice through autophagy.

This is the second study published in Molecular Psychiatry by Dr. Gandy's team. Their first study, which appeared in the July 31 issue, revealed that a mice study showed that latrepiridine stopped the toxicity of amyloid-beta protein accumulation by inducing autophagy in animals with Alzheimer's disease. The study entailed randomly administrating latrepirdine or placebo to mice with early stages of Alzheimer's disease, revealed that the drug improved memory through autophagy.

To his surprise, Dr. Petsko, an expert in protein structure, Professor of Neurology and Neuroscience at Weill Cornell Medical College, observed that latrepirdine protects yeast cells from the toxicity of alpha-synuclein and leaves the cells vulnerable so that they can be killed by either the Huntington's disease protein or by either of the two key proteins responsible for ALS-FTD. ALS-FTD is a range of diseases, including Lou Gehrig's disease and frontotemporal dementia.

See the article here:
Rejected Drug Could Protect Against Parkinson's And Alzheimer's

TORONTO, ONTARIO--(Marketwire -08/14/12)- This year more furry friends will join the 14,000 Canadians who champion Parkinson SuperWalk. Pets are demonstrating their support for Parkinson SuperWalk through a new online contest, Pets for Parkinson's, launched this week by Parkinson Society Canada.

A first for Parkinson SuperWalk, Pets for Parkinson's challenges Canadians to show support for the walk by submitting photos of their pets demonstrating their enthusiasm for the cause to help raise awareness of Parkinson's disease. Winners will be selected weekly between now and September 10th and awarded a $100.00 PetSmart gift card. Friends and family will also have the chance to participate and vote online for their favourite Parkinson's Pet who will be awarded the grand prize of a $250.00 gift card to PetSmart.

"For many people, pets are an integral member of the family, and every year we have a large number of canine companions who attend Parkinson SuperWalk to show their support. We think this is a great way to have some fun and get more pets (and their families) involved in the cause," says Joyce Gordon, Parkinson Society Canada President and CEO.

Visit http://bit.ly/NvtDnM to see some of Canada's pets with personality gearing up for Parkinson's SuperWalk and to enter the weekly prize draw online. Please see contest terms and conditions for more information.

About Parkinson SuperWalk

Parkinson Society Canada's 22nd annual Parkinson SuperWalk is less than a month away! On September 8th-9th, 14,000 volunteers and participants in 95 communities across Canada will walk together with a goal to raise $3 million nation-wide. Parkinson SuperWalk is Parkinson Society Canada's largest fundraising event and since its inaugural walk in 1990 led by a small group of committed volunteers, the nation-wide event has raised more than $25 million for education, support services, research, and advocacy on behalf of Canadians living with Parkinson's. Register online at http://www.parkinsonsuperwalk.ca.

About Parkinson's Disease

Parkinson's is a neurodegenerative disease for which there is no cure. It is estimated that there are more than 100,000 people living with Parkinson's disease across the country(i). Canadians are encouraged to get involved in their community.

To register, donate, or find a walk, visit http://www.parkinsonsuperwalk.ca. Follow Parkinson SuperWalk on Facebook or on Twitter.

For more about Parkinson's disease and Parkinson Society Canada, and where to find support in your community, visit http://www.parkinson.ca or call 1-800-565-3000.

Visit link:
Does Your Dog have What it Takes to Be Parkinson's Top Dog?

TORONTO, ONTARIO--(Marketwire -08/14/12)- This year more furry friends will join the 14,000 Canadians who champion Parkinson SuperWalk. Pets are demonstrating their support for Parkinson SuperWalk through a new online contest, Pets for Parkinson's, launched this week by Parkinson Society Canada.

A first for Parkinson SuperWalk, Pets for Parkinson's challenges Canadians to show support for the walk by submitting photos of their pets demonstrating their enthusiasm for the cause to help raise awareness of Parkinson's disease. Winners will be selected weekly between now and September 10th and awarded a $100.00 PetSmart gift card. Friends and family will also have the chance to participate and vote online for their favourite Parkinson's Pet who will be awarded the grand prize of a $250.00 gift card to PetSmart.

"For many people, pets are an integral member of the family, and every year we have a large number of canine companions who attend Parkinson SuperWalk to show their support. We think this is a great way to have some fun and get more pets (and their families) involved in the cause," says Joyce Gordon, Parkinson Society Canada President and CEO.

Visit http://bit.ly/NvtDnM to see some of Canada's pets with personality gearing up for Parkinson's SuperWalk and to enter the weekly prize draw online. Please see contest terms and conditions for more information.

About Parkinson SuperWalk

Parkinson Society Canada's 22nd annual Parkinson SuperWalk is less than a month away! On September 8th-9th, 14,000 volunteers and participants in 95 communities across Canada will walk together with a goal to raise $3 million nation-wide. Parkinson SuperWalk is Parkinson Society Canada's largest fundraising event and since its inaugural walk in 1990 led by a small group of committed volunteers, the nation-wide event has raised more than $25 million for education, support services, research, and advocacy on behalf of Canadians living with Parkinson's. Register online at http://www.parkinsonsuperwalk.ca.

About Parkinson's Disease

Parkinson's is a neurodegenerative disease for which there is no cure. It is estimated that there are more than 100,000 people living with Parkinson's disease across the country(i). Canadians are encouraged to get involved in their community.

To register, donate, or find a walk, visit http://www.parkinsonsuperwalk.ca. Follow Parkinson SuperWalk on Facebook or on Twitter.

For more about Parkinson's disease and Parkinson Society Canada, and where to find support in your community, visit http://www.parkinson.ca or call 1-800-565-3000.

Visit link:
Does Your Dog have What it Takes to Be Parkinson's Top Dog?