Frequency 7,5%
    30.000 patients

    Gene name: CDH23 (also known as: CDHR23, DFNB12, USH1D)

    Gene size: 11.138 (bp)

    Protein name: Cadherin-23

    Protein size: 3354 (aa)

    There are 19 different transcripts known for this gene

    TRIALS

    There are currently a number of trials that may be relevant to patients with mutations in the USH1D gene:

    • Stem cell therapy jCyte
    • Stem cell therapy Cedars-Sinai
    • Start ‘translational read-through’ therapy
    • Medicine SLO-RP
    • Study vestibulo-cochlear implant (VCI)

    MEDICINES TO REDUCE ER-STRESS

    Westerfield and colleagues are busy testing various medicines against Parkinson’s disease and Alzheimer’s disease in their zebrafish models for Usher Syndrome. Expectations are that this will slow down the deterioration of the hearing and eyesight of the zebrafish.


    MEDICINES SLO-RP

    In Australia, a clinical trial phase 1/2 was started with financial support from the Foundation Fighting Blindness
    Nacuity Pharmaceuticals launched this trial under the name SLO-RP. The safety and effectiveness of the medicine NPI-001, an experimental antioxidant, will be tested in the coming two years. The medicine appears to be really promising for slowing down the deterioration of eyesight with people suffering from RP and Usher Syndrome, irrespective of which gene is defective or which mutations have taken place.

    GENE THERAPY WITH TRIPLE AAV-VECTOR

    (Source: Usher syndrome Coalition: status and content of study are unknown)

    A research team in Naples, Italy has tested retinal gene transfer in mouse and pig retinas by using triple AAV vectors to maximize the transfer capacity for larger genes involved in Inherited Retinal Diseases such as USH1D. Translation was sufficient; therefore, triple AAV vectors could enable gene therapy for USH1D.

    EXON-SKIPPING THERAPY

    One of the research projects for which Stichting Ushersyndroom is raising donations, is for the development of an exon-skipping therapy for USH 1D and USH 1F. Read more about this research project on the campaign website of the Stichting Ushersyndroom.

    STEM CELL THERAPY

    jCyte, is a company that has developed retinal progenitor cells (RPCs), a type of stem cell that only retinal cells can become. Clinical studies have shown that these cells can reach and even replace diseased retinal cells. The results of a phase 1 / 2a trial have shown that the treatment is safe and does not cause an immune response.

    The Los Angeles-based Cedars-Sinai company has also received approval from the FDA to initiate a phase 1 / 2a clinical trial for patients with RP.

    ROD-CONE THERAPY

    Rod-cone therapy is independent of the gene and focused on treating the rods in the eye while keeping the cones intact. The rods of the retina die first (see light and dark).

    INNOVATION

    Also investigations and studies are conducted in the world that do not specifically offer a solution for people suffering from Usher Syndrome, but that may be of significance for them in the future. Solutions, therapies and medical aids for other disorders can in a later stage be applied to people suffering from Usher Syndrome as well.



    IT’S IN THE PROTEINS

    The proteins control all processes in our bodies. These proteins are built using codes that have been captured in the DNA. Due to a writing error in the DNA a protein can be produced incorrectly or not at all. Fixing this DNA error changes the production of the protein and so makes the disorder disappear or reduces the symptoms. This is the idea behind the genetic therapies that are now under development throughout the world.

    THE CHALLENGES

    There are many challenges in research into Usher syndrome. Researchers specifically focus on a methodology, a strategy and / or a specific Usher protein.