Advanced Cell Technology pub: Trial for Macular Degeneration

The stem cell biotech Advanced Cell Technology (ACT) reported new, positive data in a paper in Lancet from their clinical trials using retinal pigmented epithelial cells (RPEs) made from human embryonic stem cells (hESC) for treatment of different forms of macular degeneration (MD).ACT advanced cell technology

The paper was entitled “Human embryonic stem cell-derived retinal pigment epithelium in patients with age-related macular degeneration and Stargardt’s macular dystrophy: follow-up of two open-label phase 1/2 studies” with first author Steven D. Schwartz and senior author Robert Lanza, CSO of ACT.

These two trials (one each for Stargardt’s MD and age-related MD (AMD) with 9 treated patients each) are combined prospective phase 1/2 studies. The primary goal of these trials is to assess drug safety. Importantly so far no major adverse outcomes were reported, but some adverse side effects appeared related to the procedure itself and to immunosuppression so those must be kept in mind. As to the latter, in theory an autologous induced pluripotent stem cell (IPSC)-based therapy could be superior in terms of likely not needing immunosupression, but there may be practical advantages to an hESC-based therapy in other ways (e.g. lower cost).

A potential major bonus here in the ACT report today is that despite the fact that the trial used relatively low doses of cells and despite the primary measure here being safety, ACT reported in this publication that a substantial number of the patients also had measurable improvements in their vision:

Vision-related quality-of-life measures increased for general and peripheral vision, and near and distance activities, improving by 16–25 points 3–12 months after transplantation in patients with atrophic age-related macular degeneration and 8–20 points in patients with Stargardt’s macular dystrophy.

This is a very positive, even if somewhat surprising development in terms of potential efficacy. The main cause of vision impairment in MD is not thought to be loss of RPEs, but rather photoreceptor cells. So how could transplanted RPEs (and relatively low cellular doses for the most part at that) potentially improve vision? The working theory seems to be that the RPEs might help remaining photoreceptors stay alive, healthier, and perhaps more properly functional.

ACT Figure 1, advanced cell technology
ACT paper Figure 1.

I thought it was notable that 72% of the transplant recipients had measurable increases in subretinal pigmentation and pigmentation gradually increased over time, indicative of a high-rate of stable engraftment of the RPEs (see image above from Figure 1).

The authors summarized their interpretation of their results in this way:

Our study provides the first evidence of the medium-term to long-term safety, survival, and possible biological activity of pluripotent stem cell progeny after transplantation in people with any disease. The results suggest that human-embryonic-stem-cell-derived cells could provide a potentially safe new source of cells for the treatment of various medical disorders that require tissue repair or replacement.

I’ll be very curious to see the future results as ACT likely begins to treat patients with higher doses of cells and patients with relatively earlier (potential more treatable) stages of MD.

In the wider scheme of things, ACT’s results are also encouraging for other stem cell biotechs and other similar kinds of studies. For example, it will be interesting to see how the IPSC-based RPE clinical study in Japan for MD proceeds and how the BioTime subsidiaries (1) Asterias’ hESC-based trial for spinal cord injury and (2) Cell Cure’s hESC-based trial for AMD proceed. There can perhaps be greater hope of safety for these other vision-related pluripotent stem cell-based trials as well now and also for other studies such as ViaCyte’s hESC-based trial for Diabetes, which may start very soon.

Still, it’s relatively early days and these kinds of endeavors are risky marathons rather than sprints, so quite a lot of caution is in order. What’s next for Advanced Cell Technology?

Disclosure. The author has a small, long-term stock position in ACT. This post is not intended to be financial or health advice. Consult your financial advisor and doctor (not blogs) for making those kinds of important decisions.

8 thoughts on “Advanced Cell Technology pub: Trial for Macular Degeneration”

  1. Robert Lanza was quoted as saying in regards to embryonic stem cells, “provides the first evidence, in humans with any disease, of the long-term safety and possible biologic activity.” With that being said, if evidence shows the same results for other diseases, how many different tests would it take to prove that the “marathon” is won by embryonic stem cells?

  2. It would quite interesting to know of the immunosuppressing measures taken, because these can potentially lead to quite serious conditions. On the basis of ‘first do no harm’, it must be a difficult balancing act to judge benefits/detriments of treatment in a non life threatening condition.

    1. I think there is no immunosuppression necessary, because the new cells are own cells, aren`t they?

    2. Oral tacrolimus and mycophenolate mofetil- sounds similar to immunosuppression regimens typically used for organ transplantation. Immunosuppression was continued for 12 weeks after implantation.

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