Small Molecule Therapies for CMT
Small molecule therapies typically are developed from simple building blocks or are derived from natural sources. With their small size, they are easily able to pass through the cell membrane and access targets inside the cell.
Small molecule drugs are designed to modify a disease process via regulation of a biological target such as an enzyme, channel or receptor. They make up the majority of today’s drug treatments and may be used alone or as individual elements in combination therapies.
CMT Research Foundation is leading the charge to ensure safe and effective therapies for all forms of CMT make it to the market to help those living with CMT today. We are working every day to support the families, the foundations, the academics, the scientists, the biotechs and the pharma companies who share our goal and who are working to make it happen.
Related News & Research
Scenes from BIO2019
Last week Paul August and I attended the BIO International Convention, a conference with over 16,000 leaders from the biotech and pharmaceutical industry. We met a number of companies interested in advancing drug development for CMT. There are four primary factors...
Partnerships and Priorities: The Pathway to CMT Results
From time to time the CMT Research Foundation will examine the impediments to finding a cure for CMT. As the Chairman of a nonprofit foundation whose ONLY mission is to fund research that will lead to a cure for Charcot-Marie-Tooth disease (CMT), I am often...
New Evidence for Gene Replacement in a Mouse Model of Charcot-Marie-Tooth Disease
In an article published yesterday in Neurology Today, Dr. Kleopa demonstrated that gene replacement could be a viable treatment for recessive forms of CMT. CMT type 4C is a demyelinating disease, and this treatment both decreased the number of unmyelinated fibers and...
CMTRF Responds to FDA Fast Track Designation of PXT3003
The FDA Grants Fast Track Designation to Pharnext's PXT3003 for CMT1A Pharnext, an advanced clinical-stage biopharmaceutical company, created a drug combination of three drugs: baclofen, naltrexone and sorbitol known as PXT3003. Baclofen is known to relieve muscle...
CMTRF investigates a gene therapy program for CMT1A
CMT Research Foundation Partners with Cyprus Institute for Neurology and Genetics’ Kleopas Kleopa to Launch Study of Possible Gene Therapy for CMT1A This is the second major investment by CMTRF. ATLANTA (January 16, 2019) The newly launched CMT Research Foundation...
The Inherited Neuropathy Consortium (INC) welcomes the CMT Research Foundation as a partner in their Patient Advocacy Groups
Today the Inherited Neuropathy Consortium (INC) named the CMT Research Foundation as a partner in their Patient Advocacy Groups. This gives the CMT Research Foundation access to INC resources, researchers and its clinical infrastructure through 21 CMT Centers of...
CMTRF Inks Milestone-Driven Partnership with AcuraStem to Repurpose Established Drugs for the Treatment of CMT
Focus will be on expansion of AcuraStem’s patient-based discovery platform, iNeuroRx™, to leverage patient neurons and advanced informatics technology to identify promising drugs ATLANTA (December 20, 2018) The newly launched CMT Research Foundation (CMTRF), a...
Is there a connection between CMT1X and Multiple Sclerosis?
A recent study by Georgios Koutis et al at the National and Kapodistrian University of Athens recently published a paper in The Journal of Neurology, Neurosurgery and Psychiatry suggesting emerging evidence of a connection between CMTX1 and Multiple Sclerosis (MS)....
CMT Research Foundation Adds Dr. Charles Abrams and Jeff Ellman To The Team
CMT Research Foundation (CMTRF), focused solely on delivering treatments and cures for Charcot-Marie-Tooth disease, added Jeff Ellman to its Board of Directors and Charles Abrams MD, Ph.D, to its Scientific Advisory Board. CMT is a progressive genetic nerve disease...
Two papers were recently published regarding CMT1B and Axonal Neuregulin 1 Type III (Nrg1TIII), a protein which builds myelin (the insulation) on the nerves.
In summary, there is a molecule which blocks the Nrg1TIII in CMT1B, causing the demyelination of the nerves. Both papers found that if the strength or amount of Nrg1TIII can be controlled, the nerves affected by CMT may be restored. When more of the protein is added...
