Tag: Cone-rod Dystrophy

BlueRock Photoreceptor Replacement Therapy Moving into a Clinical Trial

The development of gene therapies for inherited retinal diseases (IRDs) took off when young adults and children showed significant vision improvements in an early clinical trial for what would become LUXTURNAⓇ for LCA2 (RPE65 mutations). That was 2008. LUXTURNA became the first FDA-approved IRD gene therapy in 2017. Thanks to that success, dozens of gene therapy clinical trials are underway. Some target specific genes. Others are gene-agnostic, designed to preserve photoreceptors or harness non-light-sensing cells in the retina, an approach called optogenetics.

Cell-based therapies for IRDs have not advanced so quickly, with just a few clinical trials being launched. Gene therapies, which use human-engineered viruses to deliver the therapeutic gene, are not easy to develop or administer. But cell therapies, especially those for replacing lost photoreceptors, present additional challenges that have been difficult to overcome. These include determining the source and manufacturing of the cells, promoting their survival after transplantation, and enabling their integration into the host retina.

The launch of a Phase 1/2 clinical trial for OpCT-001, an emerging photoreceptor replacement therapy from BlueRock Therapeutics, is a big step forward for the IRD cell therapy field. The trial will initially enroll people with IRDs such as retinitis pigmentosa and cone-rod dystrophy. But the approach could also be relevant for forms of LCA that primarily affect photoreceptors.

OpCT-001 is comprised of photoreceptor progenitors—photoreceptors that haven’t fully matured. Researchers believe that progenitors have the best chance of integrating and surviving once they are transplanted and mature. The progenitors are developed from induced pluripotent stem cells (iPSC). To produce iPSCs, investigators take a small blood or skin sample from an adult human donor. The cells are then genetically tweaked to revert to a stem-cell-like state. As stem cells, they can be coaxed to develop into virtually any cell type in the body, including photoreceptors. Furthermore, billions of cells (many therapy doses) can be produced from the cell sample. The study will assess several dose levels of the therapy and is expected to enroll participants in sites across the U.S.

BlueRock Therapeutics is a wholly owned subsidiary of Bayer AG. The company licensed OpCT-001 from FUJIFILM and Opsis Therapeutics, a company co-founded by David Gamm, MD, PhD, a world-renowned retinal cell therapy pioneer at the University of Wisconsin-Madison. The Foundation Fighting Blindness provided significant funding over several years to Dr. Gamm and his team for the development of retinal and photoreceptor cell therapies derived from iPSC.

One should never get too excited about any emerging therapy in an early-stage clinical trial, especially for something as cutting-edge as a photoreceptor progenitor treatment. But if there is one scientist on the planet who can get photoreceptor replacement to work, it is Dr. Gamm.

Stay tuned.

To Test or Not To Test: 5 Reasons We Think You Can And Should Get a Genetic Diagnosis For Your IRD

Hey LCA or IRD family, does any of this sound familiar?

You or your child has received a clinical diagnosis of LCA (leber congenital amaurosis), RP (retinitis pigmentosa), cone-rod dystrophy, or another crazily-named inherited retinal disease AND…

  • Your doctor wants to help, but isn’t sure where to direct you or what to do next.
  • Your doctor doesn’t even think you should bother. (There aren’t any cures or treatments available so why waste your time and energy?)
  • You’ve been genetically tested at least once (and maybe five times before). No one gets back to you and if they do, the results are negative.
  • Your insurance company doesn’t want to cover the cost.
  • OMG, you’re frustrated! No one seems to be able to give you clear direction and you’re not getting any answers.

On one hand, we wish we could say this experience is rare and unique! But the truth is that you’re in good company. There is still so much confusion around getting to a genetic diagnosis for your inherited retinal disease. The good news is, we are not confused on one item: YOU NEED TO GET TESTED! And here are five reasons why.

  • Misdiagnosis is still more common than we wish. Until you have a genetic diagnosis, you just can’t be sure you really have LCA, or RP, or another IRD.
  • It’s not just about blindness. This is the somewhat scary part that you might not be aware of, but several of the genetic defects that come with these rare IRDs, also impact other organs. For example, some LCA genes are reno-retinal genes, meaning that they may also impact kidney function. We’re not sharing this information to scare you into getting tested, but to highlight just how important it is to make sure you have a clear, genetic diagnosis so you can be prepared and provide the best care possible for any other possible conditions.

Treatments and cures are coming! That tired story of don’t bother because there’s nothing you can do is bogus. There is already a proven treatment for one form of LCA (RPE65) and there will be others. If you don’t have a diagnosis, you can’t participate in clinical trials or take advantage of treatments as they become available. That is a real bummer.

  • We know where you can get tested. We are so close to cures and treatments today that there are FREE programs like Spark Therapeutics’ ID Your IRD and programs through the Foundation FIghting blindness that you may be able to take advantage of. Check out our website resources for information, or contact us and let us help!
  • Knowledge is power. ‘Nuff said.