SAN FRANCISCO – CAR-T cell therapy drove relapsed, refractory acute lymphoblastic leukemia into complete remission in 92% or all but three of 39 children in a phase I/IIa study.
Complete responses were seen within 28 days of receiving a chimeric antigen receptor (CAR)-T cell infusion and have persisted in 15 patients for a year or more, Dr. Stephan A. Grupp reported at the annual meeting of the American Society of Hematology.
Ten relapses have occurred during follow-up of up to 31 months (median 6 months). Half were due to disappearance of the T cells, resulting in CD19-positive relapse, and half were related to antigen escape, resulting in CD19-negative relapse.
Five of the relapsed patients died. No events have been seen in patients who remain in remission after 12 months.
Importantly, CAR-T cell therapy was not used as a bridge to transplant, with only three patients subsequently going on to stem cell transplantation, Dr. Grupp, a pediatric oncologist at the Children’s Hospital of Philadelphia (CHOP) and professor of pediatrics at the University of Pennsylvania, said during a press briefing.
When asked whether CAR-T therapy could be a replacement for transplantation in the future, Dr. Grupp responded, “That would be my fondest hope. We’re not quite there yet, but we’re a lot closer than we used to be.”
The novel immunotherapy first hit the front pages in 2011 after researchers at CHOP and the University of Pennsylvania reported breakthrough results in a handful of children treated with CTL019 cells. T cells are collected from the patient and then genetically reengineered with a CAR directed against tumor B cells expressing the CD19 surface antigen.
More than 130 patients have now been treated by the Pennsylvania team with the CTL019 approach, which received breakthrough therapy status from the Food and Drug Administration in July 2014.
The updated results presented by Dr. Grupp build on those reported earlier this year (N. Engl. J. Med. 2014;371:1507-17) and involve 39 children and young adults. This includes the first 30 pediatric patients with relapsed, refractory ALL treated in the pilot trial. Their median age was 10 years and most were refractory to multiple prior therapies.
At 6 months, the duration of response was 76% and event-free survival was 70%.
The ability of patients to retain their T cells for 6 months or longer was observed in about two-thirds of patients and “is a key point in maintaining remission in these patients,” Dr. Grupp said.
Response rates were independent of disease burden at the time of infusion: 82% response in patients with more than 50% leukemia blast cells, 88% in those with more than 5% blasts, and 100% in those with 0.01%-5% blasts or less than 0.01% blasts.
Patients with higher baseline disease burden (more than 50% blasts), however, were significantly more likely to experience severe cytokine release syndrome (CRS), compared with those with lower disease burden (P < .002).
CRS has been seen across CAR-T cell studies, but there are insufficient data to determine whether this toxicity differs between adult and pediatric patients.
“The key to the cytokine release syndrome, and I believe this carries across platforms and actually may also apply to blinatumomab, is the amplification of the macrophage system through interleukin-6,” Dr. Grupp explained. “This is a classical feedback loop that is actually druggable” using the IL-6 receptor blocker tocilizumab (Actemra).
This strategy produced “remarkable control” of the CRS toxicity, with many of the severe CRS cases experiencing resolution within hours and all cases resolving within 2-3 days, he said.
B-cell aplasia was observed in all responding patients to date and was managed with intravenous immunoglobulin replacement therapy.
The two key questions for the future of CTL019 therapy are toxicity and the logistics of collecting a cell sample and sending it to a centralized manufacturing facility, Dr. Grupp said. This process has already been done on a small scale at CHOP because their cells are made at the University of Pennsylvania. Novartis, which licensed the technology, has built a cell-manufacturing facility and an ongoing phase II study is evaluating whether the technology can be safely rolled out to eight or nine pediatric centers across the country. An adult study will follow, he said.