This is a fairly scientific study of using the CRISPER Technology to help find a treatment for myotonic dystrophy. DM1 is caused by expanded CTG repeats in the 30 UTR. It is conceivable that simply deleting the expanded CTG repeats may cure the disease. With the advancement of therapeutic genome-editing technologies, this is becoming more realistic.
Crisper-Study-to-delete-abnormal-RepeatsAnimal study shows no off-target effects of RNA-based therapy
IMAGE: SCRIPPS RESEARCH GRADUATE STUDENT ANGEL ANGELBELLO AND CHEMISTRY PROFESSOR MATTHEW D. DISNEY, PHD, REPORT PROMISING DATA ABOUT THEIR RNA-BINDING MYOTONIC DYSTROPHY TYPE 1 COMPOUND IN PNAS. view more
CREDIT: SCRIPPS RESEARCH
JUPITER, Fla. – April 1, 2019 — People diagnosed with myotonic dystrophy type 1 have difficulty unclenching muscles due to a genetic defect that generates toxic material within their cells. There is currently no treatment. In a new report published in the Proceedings of the National Academy of Sciences on Monday, a group at Scripps Research in Florida reports making a potential drug that targets its key disease-causing RNA. In mouse and cellular models of myotonic dystrophy type 1, it improved the muscle defects with no apparent side-effects.
The study appeared on line Friday in PNAS. More work lies ahead before testing in people will be possible, but “the results look better than we could have imagined,” says lead author Matthew Disney, PhD, a Scripps Research chemistry professor.
“The results suggest that our technology can be used to treat myotonic dystrophy type 1 and similar categories of inherited diseases, and without unintended, off-target effects,” Disney says, adding, “There is great potential for drugging RNA in all disease settings.”
The most common form of muscular dystrophy in adults, myotonic dystrophy type 1 has been estimated to affect around 1 in 8,000 people, although the Myotonic Dystrophy Foundation, based in San Francisco, reports that misdiagnosis is common, likely leading to underreporting. Genetic studies suggest the actual numbers are more than three times higher, around 1 in 2,500, says Molly White, CEO of the foundation.
The disease is inherited. Symptoms emerge in late teens or early adulthood as genetic changes accumulate. They include muscle clenching, lock-jaw, early-onset cataracts, brain fog, muscle wasting and weakness, digestive difficulties, and sudden cardiac death, White says. Severity and rate of progression depend on factors including the nature of the genetic defect.
Myotonic dystrophy type 1 occurs when a sequence of three nucleotides, CTG, is repeated too many times within a gene called DMPK. Toxic protein clumps generate further genetic defects, resulting in muscle weakness and other symptoms. A healthy person could carry between 5 and 35 repeats of CTG within that gene without experiencing obvious difficulty. But symptomatic people may have 50, 100 or even up to 4,000 repeats of the CTG sequence.
The drug Disney’s group designed, called Cugamycin, works by recognizing the toxic RNA repeats and destroying the garbled gene transcript. Significantly, in treated animals, the drug left the healthy version of the gene transcript intact. The results were consistent in both the mouse model of myotonic dystrophy type 1 and in human patient-derived muscle fibers called myotubes.
Cugamycin was made by attaching an RNA-binding molecule to an existing drug called bleomycin, which cleaves nucleic acids.
“Analysis of the tissue from a pre-clinical disease model showed more than 98 percent of the disease defects are improved, with no detectable off-targets.” Disney says.
So far, the results have been excellent, but these studies are still in their early stages, says Alicia Angelbello, the study’s first author and a Scripps Research graduate student.
“A key next question will be to evaluate the effectiveness of our compound over a longer period of time,” she adds. In the current study, the treated mice experienced fewer instances of “myotonic discharges” in their muscles–occasions when it takes longer than usual for a contracted muscle to relax–compared to untreated mice, Angelbello says.
“Once given the Cugamycin at a dose of 10 milligrams per kilogram, the frequency of the myotonic discharges was reduced by 50 percent, which is a significant improvement,” Angelbello says. “The fact that we can improve the muscular and genetic defects in DM1 mice with the molecules we have made in the lab is a significant step in learning about how to treat this disease,” she says. The Myotonic Dystrophy Foundation has supported Disney’s work for many years.
“Matt Disney is super-committed to making a treatment for this disease,” says White, CEO of the Myotonic Dystrophy Foundation. “It’s clear that many people think his lab is on the right track. We’re thrilled at the progress he is making.”
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In addition to Disney and Angelbello, the authors of the study, “Precise small molecule cleavage of an r(CUG) repeat expansion in a myotonic dystrophy mouse model,” include Suzanne Rzuczek, Jonathan Chen and Michael Cameron of Scripps Research; Kendra McKee, Hailey Olafson and Eric Wang of the University of Florida; and Walter Moss of Iowa State University. Disney and Wang consult for Expansion Therapeutics. Rzuczek is an employee of Expansion Therapeutics. Disney’s work was funded by the National Institutes of Health (grant DP1NS096898) and the Muscular Dystrophy Association (grant 380467). The Myotonic Dystrophy Foundation also provided support.A new study published shows that a small molecule (Potential new treatment) disrupted the long CTG repeats but left short repeats mostly alone.This was tested in mice that had myotonic dystrophy and seemed to work well. Here is a piece form the journal about the impact of this study
Significance
Development of small-molecule lead medicines that potently and specifically modulate RNA function is challenging. We designed a small molecule that cleaves r(CUG)exp, the RNA repeat expansion that causes myotonic dystrophy type 1. In cells and in an animal model, the small-molecule cleaver specifically recognizes the 3-dimensional structure of r(CUG)exp, cleaving it more selectively among transcripts containing short, nonpathogenic r(CUG) repeats than an oligonucleotide that recognizes RNA sequence via Watson-Crick base pairing. The small molecule broadly relieves disease-associated phenotype in a mouse model. Thus, small molecules that recognize and cleave RNA structures should be
In a instant news email the Myotonic Dystrophy Foundation (MDF) released information that the Ionis Pharmaceutical Drug DMPK-2.5Rx research project has been canceled. The drug DMPK-2.5Rx did not work, and did not get the correct amount of therapeutic drugs into the cells of the patients with myotonic dystrophy. The company may still continue research on a more potent combination but the current trial is halted.
This is hard to hear news for the myotonic community. This is the second drug in development to fail. This new drug is part of a number of new generation of interest drugs in trying to find a drug to treat the disease. There are still a number of drugs in development but the Ionis one was the most advanced. Perhaps the information in this trial will be of help to the other drugs in development. For those in the late stages of the disease the length of time to find a treatment that is FDA approved in unlikely now.
There continues to be some “off label” treatments including erythromycin and some NSAIDS as well as Actinomycin-D but none have had any proven human effect.
More information below.
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Encinitas, CA Two recent published studies reviewed the use of FDA approved drugs in Mice that reversed some myotonic dystrophy symptoms. The mice showed improvement in muscle strength after a regime of using these approved rugs in appropriate dosages.
My son Chris has Congential Myotonic Dystrophy with a repeat count of about 1700. He is severely affected being non-verbal, cognitive delays, autistic spectrum disorder, and some muscle involvement. Chris also has the adult form of the disease as he reached puberty and has a level 1 heartblock, excessive sleepiness and other adult symptoms.
He has had 3 bouts of respiratory collapse. This initially involved a Hospital Stay, MSRA pneumonia. Within a very short period of time of initial symptoms he was in the ICU on a respirator and full dosages of heavy antibiotics including vancomycin. Recovery was uncertain and very slow. Tracheotomy was performed as weaning from the respiratory was difficult and dangerous. Full recovery was accomplished at 120 days. USA Hospital costs was approximately $750,000 for this. Two other bouts of respiratory collapse related to pneumonia occurred with similar outcomes.
We decided to pursue an experimental course of treatment with these FDA approved drugs due to concerns that he might not survive another bout of respiratory collapse.
In April 2016 we initiated a course of treatment on Erythromycin after consultation with pneumologist, cardiologist, cardiology expert in DM, and primary care Physician. The Primary care physician wrote the script for erythromycin. The cardiology team was involved as there is a contraindication for erythromycin with cardiac arrhythmia’s. The course was 2X daily 125mg of Erythromycin orally.
In May 2016 we added a daily dose of 80 Mg of Ketoprophen as this drug was found to have a positive effect on mice as well in ameliorating the myotonic dystrophy symptoms.
Results: We did not use any formal metrics in evaluating the results of the trials. The main reporting point was discussions with caregivers to see if there was any improvement in cognitive or strength related improvement in the patient. These conversations were all convergent in :
Overall Muscle strength NOT IMPROVED
Overall Cognitive Abilities NOT IMPROVED
Chest Congestion DECREASED SOUNDS
OF SECRETION CLEARING
# of Pneumonia Infections IMPROVED
Overall the results of this 8 month trial did not replicated the information in the two mice studies. There was no increased muscle strength noted by caregivers. There did seem to be a significant improvement in clearing secretions in the lungs which is a critical factor in this patients Quality of Life (QOL). No Pneumonia infections were reported. this is a significant improvement over the last 12 months.
Discussion: Overall it appears that this therapy may have had an positive impact on the patient. Overall the results of this one case did not replicate the studies that used mice in terms of improvements in muscle strength. this may be due to a number of reasons including dosing strength. It could also be that the mice that are created to have myotonic dystrophy are not the ideal method to test drugs the the DM in these mice may be more susceptible to disruption that the actual DM gene in human patients.
Patients with Congenital Myotonic Dystrophy and certain other patients (older than 57) are currently excluded from clinical new drug trials. Myotonic Dystrophy is slowly progressive until an exponential event occurs. Because of the risk of sudden death and pneumonia with these cases is ongoing looking for alternatives to reduce risk of death may be warranted by patients health care team.
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