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More on what a phases of clinical testing mean (From MD Anderson site)
Scientists from The Scripps Research Institute have revealed an atomic-level view of a genetic defect that causes a form of muscular dystrophy, myotonic dystrophy type 2, and have used this information to design drug candidates with potential to counter those defects — and reverse the disease.
“This the first time the structure of the RNA defect that causes this disease has been determined,” said TSRI Associate Professor Matthew Disney, who led the study. “Based on these results, we designed compounds that, even in small amounts, significantly improve disease-associated defects in treated cells.”
Myotonic dystrophy type 2 is a relatively rare form of muscular dystrophy that is somewhat milder than myotonic dystrophy type 1, the most common adult-onset form of the disease.
Both types of myotonic dystrophy are inherited disorders that involve progressive muscle wasting and weakness, and both are caused by a type of genetic defect known as a “RNA repeat expansion,” a series of nucleotides repeated more times than normal in an individual’s genetic code. The repeat binds to the protein MBNL1, rendering it inactive and resulting in RNA splicing abnormalities — which lead to the disease.
Many other researchers had tried to find the atomic-level structure of the myotonic dystrophy 2 repeat, but had run into technical difficulties. In a technique called X-ray crystallography, which is used to find detailed structural information, scientists manipulate a molecule so that a crystal forms. This crystal is then placed in a beam of X-rays, which diffract when they strike the atoms in the crystal. Based on the pattern of diffraction, scientists can then reconstruct the shape of the original molecule.
Prior to the new research, which was published in an advance, online issue of the journal ACS Chemical Biology, scientists had not been able to crystallize the problematic RNA. The Scripps Florida team spent several years on the problem and succeeded in engineering the RNA to have crystal contacts in different positions. This allowed the RNA to be crystallized — and its structure to be revealed.
Using information about the RNA’s structure and movement, the scientists were able to design molecules to improve RNA function.
The new findings were confirmed using sophisticated computational models that show precisely how the small molecules interact with and alter the RNA structure over time. Those predictive models matched what the scientists found in the study — that these new compounds bind to the repeat structure in a predictable and easily reproducible way, attacking the cause of the disease.
“We used a bottom-up approach, by first understanding how the small components of the RNA structure interact with small molecules,” said Jessica Childs-Disney of TSRI, who 
was first author of the paper with Ilyas Yildirim of Northwestern University. “The fact that our compounds improve the defects shows that our unconventional approach works.”
Story Source:
The above story is based on materials provided by Scripps Research Institute. Note: Materials may be edited for content and length.
Journal Reference:
A recent study has shown that relatives of DM patients do not have an enhanced cancer risk. Itappears that the genes themselves that cause DM cause this heightened cancer risk.
Myotonic dystrophies (DM) are autosomal dominantly inherited neuromuscular disorders caused by unstable nucleotide repeat expansions. DM and cancer have been associated, but the pathogenesis behind the association remains unclear. It could relate to derived effects of the DM genotype in which case non-DM relatives of DM patients would not be expected to be at increased risk of cancer. To elucidate this, a population-based cohort study investigating risk of cancer in relatives of DM patients was conducted.
DM was identified using the National Danish Patient Registry and results of genetic testing. Information on cancer was obtained from the Danish Cancer Registry. A population-based cohort of 5 757 565 individuals with at least one relative was established using the Danish Family Relations Database based on kinship links in the Danish Civil Registration System. Familial aggregation of cancer was evaluated by (incidence) rate ratios (RRs) comparing the rate of cancer amongst relatives of patients with DM from 1977 to 2010 (exposed) with the rate of cancer amongst persons with a relative of the same type but without DM (non-exposed).
In first-degree relatives of individuals with DM the adjusted RR of cancer was 0.89 (95% confidence interval 0.71-1.12) overall, and in stratified analyses 0.68 (0.37-1.12) before age 50 and 0.96 (0.74-1.23) at age 50 or older.
The present study does not support an increased risk of cancer in non-DM relatives of DM patients suggesting that cancer and DM are associated through derived effects of the DM genotype.
A recent article explored Chronic Pain and myotonic dystrophy. (click on link for full study). this is something that many of our patients experience. Heat was being used by 26% of patients. The only treatment that was relatively highly effective and was still being used by a substantial number of patients (26%) was heat. Perhaps this is because heat is an extremely accessible treatment (most people own a hot water bottle or heating pad) that has few, if any, negative side effects.
Isis Pharmaceuticals has announced a strategic partnership with Biogen to begin testing a Drug DMPKRx in Humans this fall. On a webcast that occurred on Sept 9, 2013 Isis CEO announced a strategic partnership in which Isis is receiving upfront payments of $12 Million when the start of toxicology tests begin.
The progress of Isis has been rapid for this drug. Within one year Isis identified the drug this is extremely fast. Toxicology testing program will begin this year 2013. Most likely this will be a pre-clinical toxicology tests to insure that the drug is safe in animal models. Biogen and Isis are working closely to identify bio markers and clinical testing which will begin in 2014. Bio-markers are evidence that the drug actual works to the FDA.
This fast progress is similar to what other companies are finding. As the senior researchers have said that the toxicity of the mutant myotonic dystrophy mRNA is very sensitive to these antisense drugs and other approaches.
This key announcement shows that Isis is making vast strides in this area and that human trials are set for 2014 to begin. To make sure that you are considered for the Trials:
1. Make sure that you are on the Myotonic Dystrophy Foundation Registry
2. make sure that you are on the Rochester Registry
3. make sure that you are registered with MDA in USA.
We are making amazing progress! Hope is here!
Richard
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