Tag Archives: myotonic dystrophy

Researchers Race for Myotonic Dystrophy Cure

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Race for the Cure for Myotonic Dystrophy

Race for the Cure for Myotonic Dystrophy

Myotonic Dystrophy may be the first of the muscular Dystrophy to have a definitive cure established. In the last few years researchers have isolated the issue they believe causes myotonic dystrophy. In the last couple of years therapies that have targeted this problem have reversed the disease in cell and animal models. This has set up a race now for researchers to refine the therapeutic compounds and begin with human trials to see if the animal to human therapeutic transfer works as it is believed to. Thus, this would lead to the first potential cure for a type of muscular dystrophy.

The Myotonic Dystrophy Foundation (MDF) in Menlo Park, CA  has taken a lead in assisting researchers with moving forward with this disease elimination process with funding and assistance in establishing a patient registry. The MDF was the early funder of a new Research Collaborative effort lead by Charles Thorton out of the University of Rochester. The foundation has also  been instrumental in educating patients and physicians in this complex and slowly progressing disease that results in premature death. A patient conference is planned for early November of 2013 in Houston, TX

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Celebrating the Life of Sheila Hollern

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I was just informed of the passing of Sheila Hollern who is a relative of Jeremy and Erica Kelly, both instrumental in the Myotonic Dystrophy Foundation. Its so sad to see these deaths when we fervently hope that a cure is around the corner. Our thoughts and wishes are with the family members and we will continue the fight to find a cure for this disease that slowly and quickly takes loved ones away

Sheila Brooks Hollern

Last modified: January 16. 2013 12:11PM PST

Sheila Brooks Hollern passed away peacefully in San Francisco on January 15 from cancer and post-surgical complications from Myotonic Dystrophy.  She was 48.

Sheila was born in Palo Alto, California and grew up in Bend.

Sheila spent most of her life in Marin County, California where she volunteered her time at the Cedars Development Foundation and Marin General Hospital.

Sheila spent many happy hours surrounded by friends who entertained and were entertained by her and had a loyal following of family, friends, relatives and dear girlfriends who shared her life in San Anselmo.

Sheila took great pride in decorating her apartment, where every inch of her walls were covered with photos and memories of a happy life.  She enjoyed traveling with her family and her boyfriend of 25 years, Brad McKinsey. Sheila was devoted to her family, her many friends and especially her beloved cat, Midnight.

Sheila is survived by her parents, Mike and Sue Hollern; her brother, Chris Hollern; her sisters Erica Kelly (Jeremy Kelly) and Leslie Lynch (Gene Lynch) and six adoring nieces and nephews.

A private, family remembrance is planned.

In lieu of flowers, donations would be gratefully accepted by Lifehouse, a Bay Area organization dedicated to helping people with developmental disabilities. Lifehouse was instrumental in making Sheila’s life happy and productive. Their address is 899 Northgate Drive, Suite 500, San Rafael, CA 94903 or donations can be made online at lifehouseagency.org.

Myotonic Dysrophy Affects over 10 Members of One family

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Editors note: This is a great article from 2009. Please click on this link to read the article. If it is not available read the summary below:

How muscular dystrophy cruelly affected 10 of my close family, by MP Dave Anderson

By Dave Anderson, Mp For Blaydon, Tyne And Wear
UPDATED: 17:33 EST, 10 October 2009

Dave Anderson MPFight: Dave Anderson is calling for more resources

My brother Bill played an immense role in my life. For one thing, he gave me my love for music. In 1962 he was bringing home Marvin Gaye records while our friends were listening to The Bachelors. And we were there together, in July 1969, when the Rolling Stones took over Hyde Park in front of thousands.

He taught me to drive and he gave me my love of the outdoor life. He convinced me to go into mining and told me about an opportunity to gain an international scholarship – both of which put me where I am today.

When, in 2001, I was made vice-president of Unison, at that time the biggest union in the country – where I stayed until being elected as a Member of Parliament four years later – my wife organised a surprise party for me. We had a great time, but the joy was muted as Bill was no longer around to share my pride.

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Prosensa presenting at JP Morgan Healthcare Conference

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This is a press release if there is any additional information we will share this with you.

Prosensa to Present at J.P. Morgan Healthcare Conference

LEIDEN, The Netherlands, Jan 03, 2013 (BUSINESS WIRE) — Prosensa, the private Dutch biopharmaceutical company focusing on RNA-modulating therapeutics for rare diseases with high unmet need, today announced that Hans Schikan, Chief Executive Officer, will be presenting at the 31st Annual J.P. Morgan Healthcare Conference in San Francisco.

Prosensa’s presentation is scheduled at the Westin St. Francis on Union Square at 4.30pm PST on Monday, January 7, 2013 and will provide a corporate update to the investment community. Prosensa’s lead compound (drisapersen), being developed by GlaxoSmithKline, is currently in late-stage phase III clinical trials for Duchenne muscular dystrophy.

–ENDS–

Notes to editors:

About Prosensa

Prosensa is an innovative Dutch biopharmaceutical company focused on the discovery, development and commercialization of RNA-modulating therapeutics correcting gene expression in diseases with significant unmet need, in particular neuromuscular disorders. Prosensa’s current focus is on developing treatments for Duchenne muscular dystrophy (DMD), Myotonic Dystrophy and Huntington’s disease. In 2009 Prosensa entered into a strategic alliance for part of its DMD exon skipping program with GlaxoSmithKline. Prosensa’s lead compound (drisapersen), being developed by GSK, is currently in late-stage phase III clinical trials. Prosensa is a privately held biopharmaceutical company, backed by a consortium of Abingworth, Gimv, Idinvest Partners, Life Sciences Partners, MedSciences Capital and New Enterprise Associates. For more information, please visit www.prosensa.com .

Prosensa won the 2012 Emerging Star Award at the European Mediscience Awards and was listed as a Fierce 15 Biotech Company.

SOURCE: Prosensa

        
        Prosensa enquiries: 
        Luc Dochez +31 71 332 2085 
        or 
        Hans Schikan +31 71 332 2100 
        Media enquiries: 
        College Hill Life Sciences 
        Melanie Toyne-Sewell / Anastasios Koutsos / Henry Stanley 
        +44 20 7457 2020 
        or 
        Rebecca Skye Dietrich (US enquiries) 
        +1 857 241 0795 
        prosensa@collegehill.com

Florida Reseach finds new approach to treat Myotonic Dystrophy

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Hope springs eternal when looking for treatments for this disease. There seems every month now that a new approach is in the works. This work by Dr. Disney and staff focuses on small molecules that will interface and destroy the RNA that are clogging the cells and causes these foci that seem instrumental in causing Myotonic Dystrophy. By targeting them and breaking them up this may give a treatment for the disease. Small molecules (Drugs) are pretty well known and understood by the medical community. So another approach. Lots of promise… but still we wait for more advances and clinical trials which are always in the future.

 

Richard

Scripps Florida Scientists Create New Approach to Destroy Disease-Associated RNAs in Cells

As Proof of Principle, Team Creates Molecule that Corrects Myotonic Dystrophy in Living Cells

JUPITER, FL, December 20, 2012 – Scientists from the Florida campus of The Scripps Research Institute (TSRI) have developed a new approach to alter the function of RNA in living cells by designing molecules that recognize and disable RNA targets. As a proof of principle, in the new study the team designed a molecule that disabled the RNA causing myotonic dystrophy.

The study, published online ahead of print on December 20, 2012 by the journal Angewandte Chemie, reports the creation of small molecules that recognize disease-associated RNAs, targeting them for destruction. Since small molecules are cell-permeable, the approach could have benefits over traditional methods of targeting RNAs for degradation, such as antisense or RNA interference (RNAi).

“We’re excited about these results,” said Matthew Disney, an associate professor at TSRI who pioneered the research. “This approach may allow for the inactivation of many cellular RNAs by small molecules and potentially lead the way to a whole range of novel therapeutics.”

It’s well known that gene expression can be controlled by triggering the degradation of messenger RNA—the blueprint for the production of proteins. This is accomplished through the recruitment of compounds that cleave or split the molecule. While several compounds can induce RNA cleavage in vitro, this has not been accomplished efficiently in living cells—until now.

In the new study, Disney and Research Associate Lirui Guan attached a rationally designed small molecule that targets the RNA that causes myotonic dystrophy type 1 with a molecule that produces hydroxyl radicals. Upon the small molecule’s recognition of the target, a hydroxyl radical was released that cleaved the disease-associated RNA, alleviating the disease-associated defects. Disney noted that, despite the compound’s producing a highly reactive species, the compounds are non-toxic at relatively effective doses.

The team accomplished this feat through what Disney calls a bottom-up approach to targeting RNA.

“We first identified the preferred RNA structural elements or motifs that bind to small molecules,” he said. “Then we looked at these elements in RNAs that cause disease and designed a binding molecule with increased affinity and specificity for those elements.”

Myotonic dystrophy type 1 involves a type of RNA defect known as a “triplet repeat,” a series of three nucleotides repeated more times than normal in an individual’s genetic code, resulting in a number of protein splicing abnormalities. Symptoms of this variable disease can include wasting of the muscles and other muscle problems, cataracts, heart defects and hormone changes.

The applications for this new approach could include cancer treatment in conjunction with other therapies, Disney said. The approach could also be used to create chemical probes of RNA function or to develop tools to probe RNA structure—provided, of course, that the RNA-binding preferences of the small molecules involved were well defined.

The study, “Small Molecule-Mediated Cleavage of RNA in Living Cells,” was supported by the National Institutes of Health (Grant number: R01-GM079235) and TSRI. For more information on the study, see http://onlinelibrary.wiley.com/doi/10.1002/anie.201206888/abstract.