April 8, 2013

Technique Directs Immune Cells to Target Leukemia

Transmission electron micrograph of a lymphoblast. David Gregory and Debbie Marshall. All rights reserved by Wellcome Images.

A type of targeted immunotherapy induced remission in adults with an aggressive form of leukemia that had relapsed in 5 patients. The early results of this ongoing trial highlight the potential of the approach.

Acute lymphoblastic leukemia (ALL) is cancer in which the bone marrow makes too many lymphocytes, a type of white blood cell. In patients with B-cell ALL, the marrow produces too many B lymphocytes, which make antibodies to help fight infection. When adult patients with B-cell ALL have remission followed by relapse, the prognosis is poor. Standard treatment uses chemotherapy to kill cancer cells, followed by a transplant of bone marrow stem cells to replace blood-forming cells destroyed by the chemotherapy.

Targeted immunotherapy has proven effective against less aggressive B-cell tumors. This technique directs the patient鈥檚 own immune system to attack cancer cells. The researchers first remove immune cells known as T cells from the patient. These cells are genetically modified to produce an artificial receptor that can latch onto B cells and trigger their destruction. The modified T cells are then infused back into the patient.

As the technique showed success in targeting other types of B-cell tumors, a team led by Drs. Michel Sadelain and Renier J. Brentjens at the Memorial Sloan-Kettering Cancer Center set out to test it in people with relapsed B-cell ALL. The receptor they added to the patients鈥 T cells was a chimeric antigen receptor (CAR) designed to target a protein called CD19 found on the surface of B cells. Their phase I clinical trial was funded in part by NIH's 最新麻豆视频 Cancer Institute (NCI). Results appeared on March 20, 2013, in Science Translational Medicine.

The researchers found that all 5 of the patients who received the therapy were in complete remission within weeks of the CAR-modified T-cell infusion. Three patients were able to receive bone marrow transplants 1 to 4 months after the cell transfer therapy and were still in remission up to 2 years later. One patient was unable to receive a stem cell transplant after the targeted therapy and relapsed. Another died while in remission of complications likely unrelated to the therapy.

Overall, the therapy itself was well tolerated. Three of the patients developed fevers and 2 needed high-dose steroid therapy to treat inflammation triggered by the treatment.

鈥淧atients with relapsed B-cell ALL resistant to chemotherapy have a particularly poor prognosis,鈥 Brentjens says. 鈥淭he ability of our approach to achieve complete remissions in all of these very sick patients is what makes these findings so remarkable and this novel therapy so promising.鈥

The researchers are now testing the CAR-modified T cells in several more patients. Further clinical trials have also been planned to test whether B-cell ALL patients would benefit from receiving this therapy earlier in the course of disease 鈥 either along with initial chemotherapy or during remission to help prevent relapse.

鈥淲e need to examine the effectiveness of this targeted immunotherapy in additional patients before it could potentially become a standard treatment for patients with relapsed B-cell ALL,鈥 Brentjens says.

鈥 by Harrison Wein, Ph.D.

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References:  2013 Mar 20;5(177):177ra38. doi: 10.1126/scitranslmed.3005930. PMID: 23515080.

Funding: NIH鈥檚 最新麻豆视频 Cancer Institute (NCI), the American Society of Hematology鈥揂mos Medical Faculty Development Program, the Alliance for Cancer Gene Therapy, the Carson Family Charitable Trust, the William Lawrence and Blanche Hughes Foundation, the Mallah Foundation, the Majors Foundation and Mr. Lew Sanders, the Annual Terry Fox Run for Cancer Research organized by the Canada Club of New York, Kate鈥檚 Team, the CLL Global Research Foundation, the St. Baldrick鈥檚 Foundation, and Mr. William H. Goodwin and Mrs. Alice Goodwin and the Commonwealth Cancer Foundation for Research and the Experimental Therapeutics Center of the Memorial Sloan-Kettering Cancer Center.