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New immunotherapy for leukemia shows promise in small clinical trial

Date:
September 21, 2016
Source:
Washington University in St. Louis
Summary:
'Training' immune cells boosts effectiveness in patients with acute myeloid leukemia (AML), report scientists. A small clinical trial provides evidence that the immune system's "natural killer" cells can be dialed up in the laboratory, trained to recall that activation and then effectively unleashed to destroy cancer cells in some patients.
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Charles Hoy (left), a patient with acute myeloid leukemia (AML), talks with his medical oncologist, Rizwan Romee, MD, of Washington University School of Medicine in St. Louis. Romee co-leads clinical trials evaluating a new immunotherapy against AML. Hoy is receiving an investigational treatment that harnesses the immune system's "natural killer" cells, putting them through a training period in the lab to help them attack leukemia cells in the blood.
Credit: Huy Mach, Washington University

A new type of immunotherapy shows promise against cases of acute myeloid leukemia (AML) that recur after treatment or that never respond to therapy in the first place. A small clinical trial at Washington University School of Medicine in St. Louis provides evidence that the immune system's "natural killer" cells can be dialed up in the laboratory, trained to recall that activation and then effectively unleashed to destroy cancer cells in some patients.

The findings are published Sept. 21 in the journal Science Translational Medicine.

Responses to the treatment were observed in five of the nine patients that could be evaluated. Four patients achieved complete remission; there was no evidence of leukemia for at least one month after treatment. One patient achieved a partial remission, with some abnormal cells reappearing at the one-month mark. The remaining four patients did not respond to the therapy. The longest complete remission lasted about six months, according to the researchers. In contrast, the average life expectancy for patients with active AML that does not respond to therapy is about three months.

"This is a small study, but a 50 percent response rate is promising since these are patients with very poor prognoses and very few options," said senior author Todd A. Fehniger, MD, PhD, co-principal investigator of the study and an associate professor of medicine. "Many of these patients are older and are not candidates for traditional bone marrow transplants because of the side effects associated with such an aggressive treatment."

The treatment, part of a phase I trial, was developed at Washington University. The researchers said a response to therapy in five of nine patients appears to be an improvement over results from two similar trials that tested highly purified natural killer (NK) cells in patients with AML detectable at the time of treatment. In the prior trials, the NK cells were not activated in the same way, and only 1 response out of 15 patients treated was observed. Still, these two trials helped establish the safety of NK cells in AML patients.

In the new trial, four additional patients received NK cells, but the therapy's effectiveness could not be evaluated in those cases. Three of these patients died of bloodstream infections before the end of the trial, and one patient did not receive a full dose of NK cells because sufficient quantities of the cells could not be obtained from the donor.

In general, patients with AML are at increased risk of infections because of chemotherapy that suppresses the immune system. And patients in this small trial were particularly ill -- having exhausted their treatment options, they were choosing between participating in a clinical trial or going into hospice care, according to the researchers.

"We are cautiously optimistic about these results," Fehniger said. "There's so much variability in how an individual patient responds to treatment, but this particular immunotherapy does seem to be inducing remissions in patients for whom other therapies, including similar investigational immune therapies, have a small chance of working."

Natural killer cells are a type of immune cell that can recognize and attack tumor cells and cells that have been infected by viruses. In some cases, NK cells have been shown to attack leukemia cells on their own, with no special modifications. But past work by Fehniger and other Washington University researchers has shown that exposing NK cells in the lab to a combination of three chemical signals -- called interleukins 12, 15 and 18 -- activated them to transform into "cytokine-induced memory-like" NK cells, and therefore become more potent in fighting the leukemia after injection into the patient.

"Soldiers are never sent into combat without basic training," said first author Rizwan Romee, MD, co-principal investigator of the study and an assistant professor of medicine. "You can think of the activation period in the laboratory as a sort of boot camp, exposing the cells to some of the conditions and signals they will encounter in the patient's body. So when the NK cells see the real cancer for the first time, they remember their training and respond more effectively than cells that don't have this exposure."

For this immune therapy, the NK cells are taken from a donor who is closely related to the patient, usually an adult child, parent or sibling. After separating the donor's NK cells from the rest of the blood, the cells are incubated overnight in a mixture of interleukins 12, 15 and 18. These chemical signals activate the NK cells and "train" them to attack the leukemia cells more effectively when they are encountered in the patient following infusion.

In mice and now in these patients, NK cells with this chemical training regimen -- compared with untrained NK cells -- were shown to divide more often, persist longer and produce more interferon gamma, a protective molecule manufactured by the immune system.

To prepare for this NK cell therapy, the patient undergoes chemotherapy to suppress the immune system so that the donor's activated NK cells have the time and space to multiply in the patient's bloodstream and go after the cancer cells. As the patient's immune system recovers, it clears the donor's NK cells from the body, eliminating the possibility of long-term adverse events.

Fehniger also pointed out that this phase 1 trial primarily was designed to test the safety of the new therapy, with the initial patients receiving the lowest doses of the cells so the investigators could monitor them carefully for toxic side effects. The patients experienced few side effects from the NK cells to date, and those that occurred were mild, such as low-grade fever, according to Romee and Fehniger. Both physicians treat patients, including these study participants, at Siteman Cancer Center at Barnes-Jewish Hospital and Washington University School of Medicine.

"We escalated the dose as the trial went on," Fehniger said. "And we saw remissions at each dose level, even the lowest one. Now that we have established the safety of this immune therapy, we would like to find out how consistently the patients respond when we treat a large number at the highest dose level, which is what we're in the process of doing now."

The researchers also pointed out that using this cytokine-based activation approach likely will be combined and investigated with other immunotherapies in efforts to fully unleash the anticancer response of natural killer cells. The researchers also are planning new ways to harness this "memory-like" NK cell therapy in clinical trials, including testing the cells in conjunction with "mini" bone marrow transplants to see if the two strategies together improve response rates. They also are preparing to investigate this immune therapy in pediatric patients whose AML has relapsed.


Story Source:

Materials provided by Washington University in St. Louis. Original written by Julia Evangelou Strait. Note: Content may be edited for style and length.


Journal Reference:

  1. R. Romee, M. Rosario, M. M. Berrien-Elliott, J. A. Wagner, B. A. Jewell, T. Schappe, J. W. Leong, S. Abdel-Latif, S. E. Schneider, S. Willey, C. C. Neal, L. Yu, S. T. Oh, Y.-S. Lee, A. Mulder, F. Claas, M. A. Cooper, T. A. Fehniger. Cytokine-induced memory-like natural killer cells exhibit enhanced responses against myeloid leukemia. Science Translational Medicine, 2016; 8 (357): 357ra123 DOI: 10.1126/scitranslmed.aaf2341

Cite This Page:

Washington University in St. Louis. "New immunotherapy for leukemia shows promise in small clinical trial." ScienceDaily. ScienceDaily, 21 September 2016. <www.sciencedaily.com/releases/2016/09/160921145336.htm>.
Washington University in St. Louis. (2016, September 21). New immunotherapy for leukemia shows promise in small clinical trial. ScienceDaily. Retrieved May 28, 2017 from www.sciencedaily.com/releases/2016/09/160921145336.htm
Washington University in St. Louis. "New immunotherapy for leukemia shows promise in small clinical trial." ScienceDaily. www.sciencedaily.com/releases/2016/09/160921145336.htm (accessed May 28, 2017).

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