jCyte gets FDA go-ahead for Fast Track review process of Retinitis Pigmentosa stem cell therapy

21 century cures

When the US Congress approved, and President Obama signed into law, the 21st Century Cures Act last year there was guarded optimism that this would help create a more efficient and streamlined, but no less safe, approval process for the most promising stem cell therapies.

Even so many people took a wait and see approach, wanting a sign that the Food and Drug Administration (FDA) would follow the recommendations of the Act rather than just pay lip service to it.

This week we saw encouraging signs that the FDA is serious when it granted Regenerative Medicine Advanced Therapy (RMAT) status to the CIRM-funded jCyte clinical trial for a rare form of blindness. This is a big deal because RMAT seeks to accelerate approval for stem cell therapies that demonstrate they can help patients with unmet medical needs.

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jCyte co-founder Dr. Henry Klassen

jCyte’s work is targeting retinitis pigmentosa (RP), a genetic disease that slowly destroys the cells in the retina, the part of the eye that converts light into electrical signals which the brain then interprets as vision. At first people with RP lose their night and peripheral vision, then the cells that help us see faces and distinguish colors are damaged. RP usually strikes people in their teens and, by the time they are 40, many people are legally blind.

jCyte’s jCell therapy uses what are called retinal progenitor cells, injected into the eye, which then release protective factors to help repair and rescue diseased retinal cells. The hope is this will stop the disease’s progression and even restore some vision to people with RP.

Dr. Henry Klassen, jCyte’s co-founder and a professor at UC Irvine, was understandably delighted by the designation. In a news release, he said:

“This is uplifting news for patients with RP. At this point, there are no therapies that can help them avoid blindness. We look forward to working with the FDA to speed up the clinical development of jCell.”

FDA

On the FDA’s blog – yes they do have one – it says researchers:

“May obtain the RMAT designation for their drug product if the drug is intended to treat serious or life-threatening diseases or conditions and if there is preliminary clinical evidence indicating that the drug has the potential to address unmet medical needs for that disease or condition. Sponsors of RMAT-designated products are eligible for increased and earlier interactions with the FDA, similar to those interactions available to sponsors of breakthrough-designated therapies. In addition, they may be eligible for priority review and accelerated approval.”

Paul Bresge

jCyte CEO Paul Bresge

jCyte is one of the first to get this designation, a clear testimony to the quality of the work done by Dr. Klassen and his team. jCyte CEO Paul Bresge says it may help speed up their ability to get this treatment to patients.

 

“We are gratified by the FDA’s interest in the therapeutic potential of jCell and greatly appreciate their decision to provide extra support. We are seeing a lot of momentum with this therapy. Because it is well-tolerated and easy to administer, progress has been rapid. I feel a growing sense of excitement among patients and clinicians. We look forward to getting this critical therapy over the finish line as quickly as possible.”

Regular readers of this blog will already be familiar with the story of Rosie Barrero, one of the first group of people with RP who got the jCell therapy. Rosie says it has helped restore some vision to the point where she is now able to read notes she wrote ten years ago, distinguish colors and, best of all, see the faces of her children.

RMAT is no guarantee the therapy will be successful. But if the treatment continues to show promise, and is safe, it could mean faster access to a potentially life-changing therapy, one that could ultimately rescue many people from a lifetime of living in the dark.

 

 

jCyte starts second phase of stem cell clinical trial targeting vision loss

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How retinitis pigmentosa destroys vision

Studies show that Americans fear losing their vision more than any other sense, such as hearing or speech, and almost as much as they fear cancer, Alzheimer’s and HIV/AIDS. That’s not too surprising. Our eyes are our connection to the world around us. Sever that connection, and the world is a very different place.

For people with retinitis pigmentosa (RP), the leading cause of inherited blindness in the world, that connection is slowly destroyed over many years. The disease eats away at the cells in the eye that sense light, so the world of people with RP steadily becomes darker and darker, until the light goes out completely. It often strikes people in their teens, and many are blind by the time they are 40.

There are no treatments. No cures. At least not yet. But now there is a glimmer of hope as a new clinical trial using stem cells – and funded by CIRM – gets underway.

klassenWe have talked about this project before. It’s run by UC Irvine’s Dr. Henry Klassen and his team at jCyte. In the first phase of their clinical trial they tested their treatment on a small group of patients with RP, to try and ensure that their approach was safe. It was. But it was a lot more than that. For people like Rosie Barrero, the treatment seems to have helped restore some of their vision. You can hear Rosie talk about that in our recent video.

Now the same treatment that helped Rosie, is going to be tested in a much larger group of people, as jCyte starts recruiting 70 patients for this new study.

In a news release announcing the start of the Phase 2 trial, Henry Klassen said this was an exciting moment:

“We are encouraged by the therapy’s excellent safety track record in early trials and hope to build on those results. Right now, there are no effective treatments for retinitis pigmentosa. People must find ways to adapt to their vision loss. With CIRM’s support, we hope to change that.”

The treatment involves using retinal progenitor cells, the kind destroyed by the disease. These are injected into the back of the eye where they release factors which the researchers hope will help rescue some of the diseased cells and regenerate some replacement ones.

Paul Bresge, CEO of jCyte, says one of the lovely things about this approach, is its simplicity:

“Because no surgery is required, the therapy can be easily administered. The entire procedure takes minutes.”

Not everyone will get the retinal progenitor cells, at least not to begin with. One group of patients will get an injection of the cells into their worst-sighted eye. The other group will get a sham injection with no cells. This will allow researchers to compare the two groups and determine if any improvements in vision are due to the treatment or a placebo effect.

The good news is that after one year of follow-up, the group that got the sham injection will also be able to get an injection of the real cells, so that if the therapy is effective they too may be able to benefit from it.

Rosie BarreroWhen we talked to Rosie Barrero about the impact the treatment had on her, she said it was like watching the world slowly come into focus after years of not being able to see anything.

“My dream was to see my kids. I always saw them with my heart, but now I can see them with my eyes. Seeing their faces, it’s truly a miracle.”

We are hoping this Phase 2 clinical trial gives others a chance to experience similar miracles.


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CIRM-funded stem cell clinical trial for retinitis pigmentosa focuses on next stage

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How retinitis pigmentosa erodes normal vision

The failure rate for clinical trials is depressingly high. A study from Tufts University in 2010  found that for small molecules – the substances that make up more than 90 percent of the drugs on the market today – the odds of getting from a Phase 1 trial to approval by the Food and Drug Administration are just 13 percent. For stem cell therapies the odds are even lower.

That’s why, whenever a stem cell therapy shows good results it’s an encouraging sign, particularly when that therapy is one that we at CIRM are funding. So we were more than a little happy to hear that Dr. Henry Klassen and his team at jCyte and the University of California, Irvine have apparently cleared the first hurdle with their treatment for retinitis pigmentosa (RP).

jCyte has announced that the first nine patients treated for RP have shown no serious side effects, and they are now planning the next phase of their Phase 1/2a safety trial.

In a news release Klassen, the co-founder of jCyte, said:

“We are pleased with the results. Retinitis pigmentosa is an incurable retinal disease that first impacts people’s night vision and then progressively robs them of sight altogether. This is an important milestone in our effort to treat these patients.”

The therapy involves injecting human retinal progenitor cells into one eye to help save the light sensing cells that are destroyed by the disease. This enables the researchers to compare the treated eye with the untreated eye to see if there are any changes or improvements in vision.

So far, the trial has undergone four separate reviews by the Data Safety Monitoring Board (DSMB), an independent group of experts that examines data from trials to ensure they meet all safety standards and that results show patients are not in jeopardy. Results from the first nine people treated are encouraging.

The approach this RP trial is taking has a couple of advantages. Often when transplanting organs or cells from one person into another, the recipient has to undergo some kind of immunosuppression, to stop their body rejecting the transplant. But earlier studies show that transplanting these kinds of progenitor cells into the eye doesn’t appear to cause any immunological response. That means patients in the study don’t have to undergo any immunosuppression. Because of that, the procedure is relatively simple to perform and can be done in a doctor’s office rather than a hospital. For the estimated 1.5 million people worldwide who have RP that could make getting treatment relatively easy.

Of course the big question now is not only was it safe – it appears to be – but does it work? Did any of those people treated experience improvements in their vision? We will share those results with you as soon as the researchers make them available.

Next step for the clinical trial is to recruit more patients, and treat them with a higher number of cells. There’s still a long way to go before we will know if this treatment works, if it either slows down, stops, or better still helps reverse some of the effects of RP. But this is a really encouraging first step.


Related links:

Da Mayor and the clinical trial that could help save his vision

Former San Francisco Mayor and California State Assembly Speaker Willie Brown is many things, but shy is not one of them. A profile of him in the San Francisco Chronicle once described him as “Brash, smart, confident”. But for years Da Mayor – as he is fondly known in The City – said very little about a condition that is slowly destroying his vision. Mayor Brown has retinitis pigmentosa (RP).

RP is a degenerative disease that slowly destroys a person’s sight vision by attacking and destroying photoreceptors in the retina, the light-sensitive area at the back of the eye that is critical for vision. At a recent conference held by the Everylife Foundation for Rare Diseases, Mayor Brown gave the keynote speech and talked about his life with RP.

Willie Brown

He described how people thought he was being rude because he would walk by them on the streets and not say hello. The truth is, he couldn’t see them.

He was famous for driving fancy cars like Bentleys, Maseratis and Ferraris. When he stopped doing that, he said, “people thought I was broke because I no longer had expensive cars.” The truth is his vision was too poor for him to drive.

Despite its impact on his life RP hasn’t slowed Da Mayor down, but now there’s a new clinical trial underway that might help him, and others like him, regain some of that lost vision.

The trial is the work of Dr. Henry Klassen at the University of California, Irvine (UCI). Dr. Klassen just announced the treatment of their first four patients, giving them stem cells that hopefully will slow down or even reverse the progression of RP.

“We are delighted to be moving into the clinic after many years of bench research,” Klassen said in a news release.

The patients were each given a single injection of retinal progenitor cells. It’s hoped these cells will help protect the photoreceptors in the retina that have not yet been damaged by RP, and even revive those that have become impaired but not yet destroyed by the disease.

The trial will enroll 16 patients in this Phase 1 trial. They will all get a single injection of retinal cells into the eye most affected by the disease. After that, they’ll be followed for 12 months to make sure that the therapy is safe and to see if it has any beneficial effects on vision in the treated eye, compared to the untreated one.

In a news release Jonathan Thomas, Ph.D., J.D., Chair of the CIRM Board said it’s always exciting when a therapy moves out of the lab and into people:

“This is an important step for Dr. Klassen and his team, and hopefully an even more important one for people battling this devastating disease. Our mission at CIRM is to accelerate the development of stem cell therapies for patients with unmet medical needs, and this certainly fits that bill. That’s why we have invested almost $19 million in helping this therapy reach this point.”

RP hasn’t defeated Da Mayor. Willie Brown is still known as a sharp dresser and an even sharper political mind. His message to the people at the Everylife Foundation conference was, “never give up, keep striving, keep pushing, keep hoping.”

To learn more about the study or to enroll contact the UCI Alpha Stem Cell Clinic at 949-824-3990 or by email at stemcell@uci.edu.

And visit our website to watch a presentation about the trial (link) by Dr. Klassen and to hear brief remarks from one of his patients.